WO2011090088A1 - 安定化抗体含有溶液製剤 - Google Patents
安定化抗体含有溶液製剤 Download PDFInfo
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- WO2011090088A1 WO2011090088A1 PCT/JP2011/050911 JP2011050911W WO2011090088A1 WO 2011090088 A1 WO2011090088 A1 WO 2011090088A1 JP 2011050911 W JP2011050911 W JP 2011050911W WO 2011090088 A1 WO2011090088 A1 WO 2011090088A1
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- WIPO (PCT)
- Prior art keywords
- antibody
- preparation
- buffer
- histidine
- arginine
- Prior art date
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- A61K9/0012—Galenical forms characterised by the site of application
- A61K9/0019—Injectable compositions; Intramuscular, intravenous, arterial, subcutaneous administration; Compositions to be administered through the skin in an invasive manner
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- A61K39/395—Antibodies; Immunoglobulins; Immune serum, e.g. antilymphocytic serum
- A61K39/39591—Stabilisation, fragmentation
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- A61K47/06—Organic compounds, e.g. natural or synthetic hydrocarbons, polyolefins, mineral oil, petrolatum or ozokerite
- A61K47/08—Organic compounds, e.g. natural or synthetic hydrocarbons, polyolefins, mineral oil, petrolatum or ozokerite containing oxygen, e.g. ethers, acetals, ketones, quinones, aldehydes, peroxides
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Definitions
- the present invention relates to an antibody-containing preparation, and particularly to a stable high-concentration antibody-containing preparation.
- a high concentration antibody-containing solution tends to form a solution with high viscosity due to the nature of the protein as a macromolecule and intermolecular interaction. Furthermore, when the protein is stored in a high-concentration solution, deterioration phenomena such as the formation of aggregates become a problem and must be prevented. In particular, when a high-concentration antibody-containing solution is stored in a frozen state or in a solution state for a long time, or when it is freeze-thawed, an aggregate is likely to be formed (Non-Patent Documents 1 and 2).
- high-concentration solutions are obtained by lyophilizing a relatively low-concentration antibody solution and re-dissolving the lyophilized preparation using a smaller volume of water before lyophilization.
- a high-concentration preparation using a so-called freeze-drying concentration technique for preparing a preparation is often used (Patent Document 1).
- a cryoprotectant such as sugar for the production of the freeze-dried preparation, and there is a concern about an increase in the viscosity of the solution preparation after re-dissolution.
- the solution preparation is not lyophilized.
- the high-concentration antibody-containing solution preparation tends to form an aggregate.
- antibody-containing solution preparations are easier to handle than lyophilized preparations, and moreover, they are easily applied to prefilled syringe preparations, so there is a high demand for their development.
- Non-Patent Documents 1 to 4 various studies have been made to stabilize high-concentration solution formulations of antibodies. So far, histidine buffer and arginine have been reported to be useful as buffers and stabilizers for antibody-containing solution formulations (Patent Documents 2, 3, 4, 5, 6). Hydrochloride is generally used as a histidine buffer, but recently, histidine acetate showed a higher stabilizing effect than histidine hydrochloride, and acetic acid was reported to be useful as a counter ion species of histidine buffer. (Patent Document 6). In addition, arginine hydrochloride is generally used for arginine as a stabilizer. However, when hydrochloric acid or acetic acid is used as a counter ion species for histidine and arginine, there are cases where sufficient stability cannot be ensured, and a more excellent counter ion species has been demanded.
- An object of the present invention is to provide a stable preparation containing a high concentration of antibody suitable for subcutaneous administration.
- aspartic acid or glutamic acid which is an acidic amino acid
- histidine buffer or trishydroxymethylaminomethane buffer that is, Buffers for pharmaceutical formulations by using histidine-aspartate buffer or histidine-glutamate buffer, trishydroxymethylaminomethane-aspartate buffer or trishydroxymethylaminomethane-glutamate buffer as buffer
- Histidine-hydrochloride buffer solution, the histidine-acetate buffer solution, etc. reported as s.
- aspartic acid or glutamic acid which is an acidic amino acid
- basic amino acid such as arginine used as a stabilizer
- arginine-aspartate or arginine-glutamate as a stabilizer
- the present invention provides the following.
- a stable antibody-containing preparation characterized by containing a basic amino acid-aspartate or a basic amino acid-glutamate.
- the preparation according to [1] comprising a histidine-aspartate buffer solution or a histidine-glutamate buffer solution, wherein the basic amino acid is histidine.
- the preparation according to [1], comprising arginine-aspartate or arginine-glutamate, wherein the basic amino acid is arginine.
- a stable antibody-containing preparation comprising histidine-aspartate buffer or histidine-glutamate buffer and arginine-aspartate or arginine-glutamate.
- a stable antibody-containing preparation comprising trishydroxymethylaminomethane-aspartate buffer or trishydroxymethylaminomethane-glutamate buffer.
- a stable antibody-containing preparation comprising a trishydroxymethylaminomethane-aspartate buffer and a trishydroxymethylaminomethane-glutamate buffer.
- the preparation according to any one of [1] to [8], wherein the antibody is a humanized antibody or a human antibody.
- [10] The preparation according to any one of [1] to [9], wherein the antibody has an isoelectric point (pI) modified to 5 to 8.
- the preparation according to [13], wherein the viscosity of the solution preparation is 30 mPa ⁇ s or less.
- [15] The preparation according to [13] or [14], wherein the solution preparation is stable at 2 to 8 ° C. for at least 6 months.
- [16] The preparation according to any one of [13] to [15], which is produced without including a freeze-drying step in the production process of the solution preparation.
- [17] The preparation according to any of [13] to [16], which is stored frozen at ⁇ 30 ° C. to ⁇ 10 ° C.
- [19] The preparation according to any one of [2], [4], [7] to [18], wherein the buffer concentration is 5 mM to 100 mM.
- [20] The preparation according to any of [3], [7] to [19], wherein the concentration of arginine is 5 mM to 300 mM.
- [21] The preparation of any one of [1] to [20], wherein the antibody is an anti-IL-6 receptor antibody.
- [22] The preparation according to any one of [2], [4], [7] to [21], wherein the buffer consists essentially of amino acids.
- [23] The preparation according to any one of [1] to [22], which is for subcutaneous administration.
- a method for suppressing association during storage of the preparation in a solution state by using aspartic acid or glutamic acid as a counter ion species of the buffer in the preparation containing a high concentration of antibody [25] A method for suppressing association during storage in a frozen state of the preparation by using aspartic acid or glutamic acid as a counter ion species of a stabilizer in the preparation containing a high concentration of antibody. [27] A method for suppressing association during storage of the preparation in a solution state by using aspartic acid or glutamic acid as a counter ion species of the stabilizer in the preparation containing a high concentration of antibody.
- the present invention relates to the use of a basic amino acid-aspartate or basic amino acid-glutamate in the production of a stable antibody-containing preparation, and the association during storage of a high-concentration antibody-containing preparation in a frozen or solution state.
- the present invention relates to aspartic acid or glutamic acid, which is a counter ion species of a buffer or a stabilizer in the preparation for use in the method of inhibition.
- the present invention provides an antibody-containing preparation excellent in stability. Further, according to the present invention, it is possible to provide a preparation in which aggregate formation in a preparation in a solution state or a frozen state is suppressed, that is, a preparation containing a high concentration of antibody.
- the high concentration antibody-containing preparation of the present invention can be stably stored for a long time in a solution state or a frozen state. Furthermore, the formulation of the present invention also improves stability against freeze-thaw stress.
- aspartic acid or glutamic acid is used as counter ion species of histidine, arginine, or trishydroxymethylaminomethane, rather than using commonly used hydrochloric acid or acetic acid, without increasing the osmotic pressure.
- a nearly isotonic and stable preparation such as a subcutaneous administration (SC) preparation, it is an advantage that it can be stabilized without increasing the osmotic pressure.
- FIG. 3 is a graph in which the change over time in the amount (%) of aggregates when Mab1 is stored at 40 ° C. is plotted on the vertical axis.
- FIG. 5 is a graph in which the change over time in the amount (%) of aggregates when Mab2 is stored at 40 ° C. is plotted on the vertical axis.
- FIG. 5 is a graph in which the change over time in the amount of aggregate (%) when Mab1 is frozen and thawed is plotted on the vertical axis.
- FIG. 6 is a graph in which the change over time in the amount of aggregates (%) when Mab1 is stored at 25 ° C. is plotted on the vertical axis.
- FIG. 5 is a graph in which changes over time in the amount (%) of aggregates when Mab1 is stored at 5 ° C. are plotted on the vertical axis.
- FIG. 6 is a graph in which the change over time in the amount of aggregates (%) when Mab1 is freeze-thawed ( ⁇ 20 ° C. to room temperature) is plotted on the vertical axis.
- FIG. 3 is a graph in which the amount of aggregates (%) when Mab1 is stored at ⁇ 20 ° C. to 3M is plotted on the vertical axis.
- FIG. 3 is a graph in which the change over time in the amount of aggregate (%) when Mab2 is frozen and thawed ( ⁇ 20 ° C. to room temperature) is plotted on the vertical axis.
- FIG. 3 is a graph in which the amount of aggregates (%) when Mab1 is stored at ⁇ 20 ° C. is plotted on the vertical axis.
- FIG. 5 is a graph in which the amount of aggregates (%) when Mab1 is frozen and thawed ( ⁇ 20 ° C. to room temperature) is plotted on the vertical axis.
- FIG. 3 is a graph in which the amount of aggregates (%) when Mab1 is stored at 25 ° C. to 3 M is plotted on the vertical axis.
- FIG. 5 is a graph in which the change over time in the amount (%) of aggregates when Mab2 is stored at 25 ° C. is plotted on the vertical axis.
- FIG. 5 is a graph in which the change over time in the amount of aggregate (%) when Mab3 is stored at 25 ° C. is plotted on the vertical axis.
- FIG. 5 is a graph in which the change over time in the amount of aggregate (%) when Mab3 is frozen and thawed ( ⁇ 20 ° C. to room temperature) is plotted on the vertical axis.
- FIG. 4 is a graph in which the change over time in the amount (%) of aggregates when Mab4 is stored at 25 ° C. is plotted on the vertical axis.
- FIG. 4 is a graph in which the change over time in the amount of aggregate (%) when Mab4 is frozen and thawed ( ⁇ 20 ° C. to room temperature) is plotted on the vertical axis.
- FIG. 4 is a graph in which the change over time in the amount of aggregates (%) when Mab1, Mab2, and Mab3 are stored at 25 ° C. is plotted on the vertical axis.
- FIG. 4 is a graph in which the change over time in the amount (%) of aggregates when Mab1, Mab2, and Mab3 are frozen and thawed ( ⁇ 20 ° C. to room temperature) is plotted on the vertical axis.
- FIG. 6 is a graph in which changes over time in the amount of aggregates (%) when Mab5 is stored at 25 ° C. are plotted on the vertical axis.
- FIG. 5 is a graph in which the change over time in the amount of aggregate (%) when Mab5 is freeze-thawed ( ⁇ 20 ° C.
- FIG. 4 is a graph in which the change over time in the amount (%) of aggregates when Mab1-5 is stored at 25 ° C. is plotted on the vertical axis.
- FIG. 3 is a graph in which the change over time in the amount of aggregates (%) when Mab1-5 is frozen and thawed ( ⁇ 20 ° C. to room temperature) is plotted on the vertical axis.
- FIG. 6 is a graph in which the change over time in the amount (%) of aggregates when Mab1-3 is stored at 25 ° C. is plotted on the vertical axis.
- FIG. 6 is a graph in which the change over time in the amount of aggregates (%) when Mab1-3 is frozen and thawed ( ⁇ 20 ° C. to room temperature) is plotted on the vertical axis.
- the present invention provides a stable antibody-containing preparation characterized by containing a basic amino acid-aspartate or a basic amino acid-glutamate.
- the basic amino acid includes, for example, histidine, arginine, lysine and the like.
- a buffer solution of a basic amino compound such as trishydroxymethylaminomethane is also included in the definition of the basic amino acid of the present invention. It is. That is, the present invention provides a stable antibody-containing preparation characterized by containing a histidine-aspartate buffer solution or a histidine-glutamate buffer solution whose basic amino acid is histidine.
- the present invention provides a stable antibody-containing preparation characterized by containing arginine-aspartate or arginine-glutamate, whose basic amino acid is arginine, as a stabilizer. Furthermore, the present invention provides a stable antibody-containing preparation characterized by containing a histidine-aspartate buffer or histidine-glutamate buffer and arginine-aspartate or arginine-glutamate. Furthermore, the present invention provides a stable antibody-containing preparation characterized by containing a trishydroxymethylaminomethane-aspartate buffer or a trishydroxymethylaminomethane-glutamate buffer.
- the present invention further provides a stable antibody-containing preparation characterized by containing a trishydroxymethylaminomethane-aspartate buffer and a trishydroxymethylaminomethane-glutamate buffer.
- the antibody-containing preparation refers to a preparation containing an antibody as an active ingredient and prepared to be administered to animals such as humans.
- the “stable antibody-containing preparation” means that an association of a protein such as an antibody is not easily generated in the preparation, that is, a degradation reaction such as formation of insoluble and soluble aggregates during solution or cryopreservation. Refers to a formulation that is difficult to cause.
- the antibody concentration contained in the preparation of the present invention is not particularly limited, but preferably contains a high concentration of antibody.
- the antibody concentration is preferably 50 mg / mL or more, more preferably 100 mg / mL or more, more preferably 120 mg / mL or more, more preferably 150 mg / mL or more, and further preferably 180 mg / mL or more.
- the upper limit of the antibody concentration contained in the preparation of the present invention is not particularly limited, but is usually 250 mg / mL.
- the antibody used in the present invention is not particularly limited as long as it binds to a desired antigen, and may be a polyclonal antibody or a monoclonal antibody, and a monoclonal antibody is preferable in that a homogeneous antibody can be stably produced.
- the monoclonal antibodies used in the present invention include not only monoclonal antibodies derived from animals such as humans, mice, rats, hamsters, rabbits, sheep, camels, monkeys, but also artificial antibodies such as chimeric antibodies, humanized antibodies, and bispecific antibodies. Modified genetically modified antibodies are also included. In addition, antibody properties may be modified to modify antibody molecule physical properties (specifically, isoelectric point (pI) modification, Fc receptor affinity modification, etc.) for the purpose of improving blood retention and pharmacokinetics. Also included are genetically engineered antibodies in which the constant region and the like are artificially modified.
- the immunoglobulin class of the antibody used in the present invention is not particularly limited, and may be any class such as IgG1, IgG2, IgG3, IgG4, IgG, IgA, IgD, IgE, IgM, etc. IgM is preferred.
- the antibodies used in the present invention include not only whole antibodies, but also antibody fragments such as Fv, Fab, F (ab) 2 and monovalent or conjugated antibody variable regions with a linker such as a peptide linker. Also included are low-molecular-weight antibodies such as single-chain Fvs or more of bivalent (Diabody such as scFv, sc (Fv) 2 and scFv dimer).
- a hybridoma producing a monoclonal antibody can be basically produced using a known technique as follows. That is, a desired antigen or a cell expressing the desired antigen is used as a sensitizing antigen and immunized according to a normal immunization method, and the resulting immune cell is fused with a known parent cell by a normal cell fusion method. And can be prepared by screening monoclonal antibody-producing cells (hybridomas) by a normal screening method.
- the hybridoma can be produced, for example, according to the method of Milstein et al. (Kohler. G. and Milstein, C., Methods Enzymol. (1981) 73: 3-46). When the immunogenicity of the antigen is low, immunization may be performed by binding to an immunogenic macromolecule such as albumin.
- a recombinant antibody produced by cloning an antibody gene from a hybridoma, incorporating it into a suitable vector, introducing it into a host, and using a gene recombination technique can be used (for example, Carl, A). K. Borrebaeck, James, W. Larrick, THERAPEUTIC MONOCLONAL ANTIBODIES, Published in the United Kingdom by MACMILLAN PUBLISHERS LTD, 1990).
- cDNA of the variable region (V region) of the antibody is synthesized from the hybridoma mRNA using reverse transcriptase.
- DNA encoding the V region of the target antibody When DNA encoding the V region of the target antibody is obtained, it is ligated with DNA encoding the desired antibody constant region (C region) and incorporated into an expression vector.
- DNA encoding an antibody V region may be incorporated into an expression vector containing antibody C region DNA. It is incorporated into an expression vector so as to be expressed under the control of an expression control region such as an enhancer or promoter.
- host cells can be transformed with this expression vector to express the antibody.
- a recombinant antibody that has been artificially modified for the purpose of reducing the heteroantigenicity to humans such as a chimeric antibody or a humanized antibody
- modified antibodies can be produced using known methods.
- a chimeric antibody is a mammal other than a human, for example, a mouse antibody heavy chain, light chain variable region and a human antibody heavy chain, light chain constant region, and a DNA encoding the murine antibody variable region.
- a humanized antibody also called a reshaped human antibody, is a non-human mammal, such as a mouse antibody complementarity-determining region (CDR) grafted to the complementarity-determining region of a human antibody.
- CDR complementarity-determining region
- the technology of amino acid substitution in the variable region of IgG antibody is humanized (Tsurushita N, Hinton PR, Kumar S., Design of humanized antibodies: from anti-Tac to Zenapax., Methods. 2005 May; 36 (1): 69 -83.), Affinity complementation region (CDR) amino acid substitution (Rajpal A, Beyaz N, Haber L, Cappuccilli G, Yee H, Bhatt RR, Takeuchi T, Lerner RA, Crea R., A general method for greatly improving the affinity of antibodies by using combinatorial libraries., Proc Natl Acad Sci U S A. 2005 Jun 14; 102 (24): 8466-71.
- CDR Affinity complementation region amino acid substitution
- amino acid substitution technology for controlling the isoelectric point (pI) of the antibody, specifically, modifying the amino acid residue exposed on the surface of the antibody
- pI isoelectric point
- WO07 / 114319 a technique for controlling the pI of an antibody is known.
- various amino acid substitution techniques in the constant region for the purpose of improving antibody physical properties are also known (WO (09/41613).
- the preparation of the present invention has a high stabilization effect even for an antibody with such a modified isoelectric point.
- a pI-modified antibody refers to an antibody modified by 1 or more, preferably 2 or more, more preferably 3 or more than the pI of the antibody before modification. Note that natural (or normal) antibodies are usually considered to have an isoelectric point in the range of 7.5 to 9.5.
- the preparation of the present invention has a high stabilizing effect on an antibody having a low isoelectric point, which is hardly present particularly in nature.
- the isoelectric point of such an antibody include 5.0 to 8.0, preferably 5.0 to 7.5, more preferably 5.0 to 7.0, and particularly preferably 5.5 to 6.5.
- the isoelectric point of Mab1 in which the amino acid sequence of Mab2 (isoelectric point: 9.3) is modified to control the isoelectric point is 5.8.
- a method for obtaining a human antibody is also known.
- human lymphocytes are sensitized with a desired antigen or cells expressing the desired antigen in vitro, and the sensitized lymphocytes are fused with human myeloma cells, such as U266, to have a desired human antibody having an antigen-binding activity.
- a desired human antibody can be obtained by immunizing a transgenic animal having all repertoires of human antibody genes with an antigen (WO 93/12227, WO 92/03918, WO 94/02602, WO 94 / 25585, WO 96/34096, WO 96/33735).
- variable region of a human antibody is expressed as a single chain antibody (scFv) on the surface of the phage by the phage display method, and a phage that binds to the antigen can be selected.
- scFv single chain antibody
- the DNA sequence encoding the variable region of the human antibody that binds to the antigen can be determined. If the DNA sequence of scFv that binds to the antigen is clarified, a suitable expression vector containing the sequence can be prepared and a human antibody can be obtained.
- an antibody gene When an antibody gene is once isolated and introduced into an appropriate host to produce an antibody, a combination of an appropriate host and an expression vector can be used.
- animal cells When eukaryotic cells are used as hosts, animal cells, plant cells, and fungal cells can be used.
- Animal cells include (1) mammalian cells such as CHO, COS, myeloma, BHK (baby hamster kidney ,), HeLa, Vero, (2) amphibian cells such as Xenopus oocytes, or (3) insect cells.
- mammalian cells such as CHO, COS, myeloma, BHK (baby hamster kidney ,), HeLa, Vero, (2) amphibian cells such as Xenopus oocytes, or (3) insect cells.
- sf9, sf21, Tn5, etc. are known.
- plant cells cells derived from the genus Nicotiana (for example, Nicotiana tabacum) are known, and these may be cultured in callus.
- Known fungal cells include yeasts such as the genus Saccharomyces, such as Saccharomyces cerevisiae, and filamentous fungi such as the genus Aspergillus, such as Aspergillus niger. When prokaryotic cells are used, there are production systems using bacterial cells.
- Known bacterial cells include E. coli (E.Ecoli) and Bacillus subtilis.
- An antibody can be obtained by introducing a desired antibody gene into these cells by transformation, and culturing the transformed cells in vitro.
- the antibodies used in the present invention include antibody fragments, low molecular weight antibodies, and modified antibodies.
- Fab, F (ab ′) 2, Fv, or a mono-chain or bivalent or more single chain Fv (scFv, Fv of H chain and L chain linked by an appropriate linker) sc (Fv) 2 etc.) Huston, J. S. et al., Proc. Natl. Acad. Sci. USA (1988) 85, 5879-5883).
- the antibody is treated with an enzyme such as papain or pepsin to generate antibody fragments, or a gene encoding these antibody fragments is constructed and introduced into an expression vector, and then an appropriate host cell.
- an enzyme such as papain or pepsin to generate antibody fragments, or a gene encoding these antibody fragments is constructed and introduced into an expression vector, and then an appropriate host cell.
- Antibodies modified with various molecules such as polyethylene glycol (PEG) and cytotoxic drugs can also be used as modified antibodies (Farmaco. 1999 Aug 30; 54 (8): 497-516., Cancer J. 2008 May-Jun; 14 (3): 154-69.).
- the “antibody” of the present invention includes these modified antibodies. In order to obtain such a modified antibody, it can be obtained by chemically modifying the obtained antibody. These methods are already established in this field.
- the antibody contained in the preparation of the present invention includes anti-tissue factor antibody, anti-IL-6 receptor antibody, anti-IL-6 antibody, HM1.24 antigen monoclonal antibody, anti-parathyroid hormone related peptide antibody (anti-PTHrP antibody), Anti-ganglioside 3 antibody, anti-ganglioside GM3 antibody, anti-TPO receptor agonist antibody, coagulation factor VIII substitute antibody, anti-IL31 receptor antibody, anti-HLA antibody, anti-AXL antibody, anti-CXCR4 antibody, anti-NR10 antibody, factor IX and factor X Bi-specific antibodies and the like can be mentioned, but are not limited thereto.
- Preferred reshaped humanized antibodies for use in the present invention include humanized anti-interleukin 6 (IL-6) receptor antibodies (tocilitumab, hPM-1 or MRA) (see WO92 / 19759), humanized anti-HM1.24 antigen.
- Monoclonal antibody see WO98 / 14580
- humanized antiparathyroid hormone related peptide antibody anti-PTHrP antibody
- humanized anti-tissue factor antibody see WO99 / 51743
- anti-glypican-3 humanized IgG1 ⁇ antibody see PCT / JP05 / 013103
- anti-NR10 humanized antibody see WO2009 / 072604 and the like.
- Particularly preferred as a humanized antibody for use in the present invention is a humanized anti-IL-6 receptor antibody.
- the human IgM antibody is preferably an anti-ganglioside GM3 recombinant human IgM antibody (see WO05 / 05636).
- an anti-TPO receptor agonist Diabody see WO02 / 33072
- an anti-CD47 agonist Diabody see WO01 / 66737
- the like are preferable.
- Mab1 H chain / SEQ ID NO: 1, L chain / SEQ ID NO: 2 which is an anti-IL-6 receptor antibody described in WO 2009/041621
- Examples include anti-NR10 humanized antibodies, and fully humanized NS22 antibodies produced by the method described in Example 12 of WO2009 / 072604.
- a preferred embodiment is titration with a liquid such as an aqueous solution containing aspartic acid and / or glutamic acid in the form of a free amino acid in a solution such as an aqueous solution to which basic amino acid such as histidine or trishydroxymethylaminomethane is added in the form of a free amino acid. It is a buffer solution adjusted by doing. It is also possible to add and adjust in the reverse order, and it is also possible to titrate directly with powder.
- a liquid such as an aqueous solution containing aspartic acid and / or glutamic acid in the form of a free amino acid in a solution such as an aqueous solution to which basic amino acid such as histidine or trishydroxymethylaminomethane is added in the form of a free amino acid. It is a buffer solution adjusted by doing. It is also possible to add and adjust in the reverse order, and it is also possible to titrate directly with powder.
- aspartic acid (free amino acid) and / or glutamic acid is added to a solution such as an aqueous solution in which arginine (free base) is added in the form of a free amino acid.
- a solution such as an aqueous solution in which arginine (free base) is added in the form of a free amino acid.
- arginine (free base) is added in the form of a free amino acid.
- It is a salt prepared by mixing a liquid such as an aqueous solution containing (free amino acid) in the form of a free amino acid. It is also possible to add and adjust in the reverse order, and it is also possible to titrate directly with powder.
- the present inventors examined the effects of various additives by freeze-thaw test, thermal acceleration test, long-term storage test and cryopreservation test in order to evaluate the stability during storage of a sample containing a high concentration of antibody. did.
- aspartic acid or glutamic acid that is an acidic amino acid as a counter ion species of histidine buffer, that is, by using histidine-aspartate buffer or histidine-glutamate buffer as a buffer. It was found that the formation of aggregates was remarkably suppressed as compared with histidine-hydrochloride buffer solution and histidine-acetate buffer solution reported as formulation buffer solutions.
- histidine-aspartate salt buffer or histidine-glutamate salt buffer trishydroxymethylaminomethane-aspartate buffer or trishydroxymethylaminomethane-glutamic acid
- a salt buffer a stable high-concentration antibody-containing preparation can be obtained with little production of antibody aggregates.
- Arginine-Aspartate or Arginine-Glutamate as a stabilizer, there is less formation of antibody aggregates and a more stable high-concentration antibody-containing preparation It can be.
- the present invention provides a high concentration antibody-containing solution of histidine-aspartate buffer or histidine-glutamate buffer, trishydroxymethylaminomethane-aspartate buffer or trishydroxymethylaminomethane-glutamate buffer.
- the present invention relates to a method for suppressing
- aspartic acid or glutamic acid is used as a counter ion species of a buffer (for example, histidine buffer or trishydroxymethylaminomethane buffer) or a stabilizer (for example, arginine) in a high-concentration antibody-containing preparation.
- a buffer for example, histidine buffer or trishydroxymethylaminomethane buffer
- a stabilizer for example, arginine
- aspartic acid or a counter ion species of a buffer for example, histidine buffer or trishydroxymethylaminomethane buffer
- a stabilizer for example, arginine
- glutamic acid a method of suppressing association during storage of the preparation in a solution state can be mentioned.
- Tris trishydroxymethylaminomethane
- imidazole and the like can be used as buffer solutions in which aspartic acid or glutamic acid can be used as the counter ion species of the buffer instead of the histidine buffer.
- these buffers can be used in addition to the histidine buffer of the present invention.
- arginine amide As stabilizers other than arginine that can use aspartic acid or glutamic acid as the counter ion species of the stabilizer, arginine amide, lysine, meglumine, spermine, spermidine, magnesium, calcium, sodium, potassium Etc.
- the present invention contains histidine-aspartate buffer or histidine-glutamate buffer, or trishydroxymethylaminomethane-aspartate buffer or trishydroxymethylaminomethane-glutamate buffer.
- a stable antibody-containing preparation is provided.
- the antibody-containing preparation of the present invention further exhibits a stabilizing effect by containing arginine-aspartate or arginine-glutamate.
- the present invention is characterized in that the solution contains a salt comprising a combination of a basic amino acid such as histidine or arginine (preferably histidine and / or arginine) or trishydroxymethylaminomethane and aspartic acid or glutamic acid.
- a basic amino acid such as histidine or arginine (preferably histidine and / or arginine) or trishydroxymethylaminomethane and aspartic acid or glutamic acid.
- the histidine used in the present invention may be either a single product or a derivative thereof, and L-histidine is particularly desirable.
- Arginine used in the present invention may be either a single product, a derivative thereof, or a salt thereof, and L-arginine or a salt thereof is particularly desirable.
- the salt of arginine is preferably aspartate or glutamate.
- the concentration (amount) of the histidine-aspartate buffer or histidine-glutamate buffer in the preparation of the present invention is preferably 1 to 100 ⁇ mM, more preferably 5 to 100 ⁇ mM, More preferably, it is 50 ⁇ m, more preferably 10 to 25 ⁇ m.
- the concentration (amount) of arginine in the preparation of the present invention is preferably 5 to 300 ⁇ mM, more preferably 25 to 200 ⁇ mM, and further preferably 50 to 150 ⁇ mM.
- the preparation of the present invention can be a solution preparation (antibody-containing solution preparation) or a lyophilization agent.
- the solution preparation of the present invention includes a solution before lyophilization treatment or a solution after re-dissolution in the lyophilized preparation production process.
- the solution preparation of the present invention is preferably a solution preparation produced without including a freeze-drying step in the production process.
- the lyophilizing agent of the present invention can be obtained by lyophilizing the solution preparation of the present invention by a method known to those skilled in the art.
- the pH of the solution is preferably 4 to 8, more preferably 5.0 to 7.5, and further preferably 5.5 to 6.5.
- the viscosity of the solution preparation of the present invention is 30 ⁇ mPa.s or less, preferably 20 ⁇ mPa.s or less, more preferably 15 ⁇ mPa.s or less under room temperature (25 ° C.) conditions.
- the solution formulation of the present invention has a refrigeration temperature (2-8 ° C.) of at least 6 months, preferably 12 months, more preferably 2 years, more preferably 3 years, or at room temperature (22-28 ° C.) at least 6 months, Preferably no significant change is observed for 1 year, more preferably 2 years. That is, the present invention relates to a solution formulation that is stable at 22-28 ° C. for at least 6 months.
- the solution preparation of the present invention can be stored frozen in a temperature range of ⁇ 30 ° C. to ⁇ 10 ° C.
- the preparation of the present invention can further contain a surfactant.
- the preferred surfactants used in the present invention are polyoxyethylene sorbitan fatty acid esters and polyoxyethylene polyoxypropylene alkyl ethers, particularly preferred are polysorbate 20, 80 and Pluronic F-68 (poloxamer 188).
- the amount of the surfactant added to the preparation of the present invention is generally 0.0001 to 10% (w / v), preferably 0.001 to 5%, more preferably 0.005 to 3%.
- the preparation of the present invention can further contain an amino acid.
- Preferred amino acids used in the present invention are natural amino acids or amino acid derivatives, and particularly preferred are L-methionine and L-proline.
- the preparation of the present invention can further contain a saccharide.
- Preferred saccharides used in the present invention are sucrose, trehalose, meglumine and sorbitol.
- the amount of amino acid or saccharide added to the preparation of the present invention is generally 1 ⁇ m to 1000 ⁇ mM, preferably 5 ⁇ m to 500 ⁇ m, and more preferably 10 ⁇ m to 300 ⁇ m.
- the preparation of the present invention can further contain an inorganic salt.
- Preferred saccharides used in the present invention are magnesium salts and calcium salts.
- the preparation of the present invention is preferably substantially composed of the following components A to D.
- A) anti-IL-6 receptor antibody B) histidine-aspartate buffer and / or histidine-glutamate buffer
- substantially constituted means cryoprotective agent, suspending agent, solubilizing agent, isotonic agent, preservative, adsorption inhibitor, diluent, excipient, which are optional components described later
- components other than the components added to normal preparations such as pH adjusters, soothing agents, sulfur-containing reducing agents, antioxidants, etc. are 5 mM or less, more preferably 2 mM or less, more preferably 1 mM or less. It means that.
- the preparation of the present invention does not contain an anion other than aspartic acid and glutamic acid as a counter ion for the buffer or stabilizer.
- a preparation substantially free of chloride ions and acetate ions can be mentioned. “Substantially free of chloride ions and acetate ions” means, for example, that chloride ions and acetate ions are 5 ⁇ mM or less, more preferably 2 ⁇ mM or less, and more preferably 1 ⁇ mM or less.
- the preparation of the present invention includes, as necessary, a cryoprotectant, a suspending agent, a solubilizing agent, an isotonic agent, a preservative, an adsorption inhibitor, a diluent, an excipient, a pH adjuster, a soothing agent.
- a cryoprotectant for protecting a cryoprotectant against a cryoprotectant against a cryoprotectant against a cryoprotectant, a suspending agent, a solubilizing agent, an isotonic agent, a preservative, an adsorption inhibitor, a diluent, an excipient, a pH adjuster, a soothing agent.
- An agent, a sulfur-containing reducing agent, an antioxidant and the like can be appropriately added.
- cryoprotective agents include saccharides such as trehalose, sucrose, and sorbitol.
- solution adjuvant examples include polyoxyethylene hydrogenated castor oil, polysorbate 80, nicotinic acid amide, polyoxyethylene sorbitan monolaurate, tuna gol, castor oil fatty acid ethyl ester, and the like.
- tonicity agents examples include sodium chloride, potassium chloride, calcium chloride and the like.
- preservatives examples include methyl paraoxybenzoate, ethyl paraoxybenzoate, sorbic acid, phenol, cresol, chlorocresol and the like.
- adsorption inhibitor examples include human serum albumin, lecithin, dextran, ethylene oxide / propylene oxide copolymer, hydroxypropyl cellulose, methyl cellulose, polyoxyethylene hydrogenated castor oil, polyethylene glycol and the like.
- sulfur-containing reducing agents examples include N-acetylcysteine, N-acetylhomocysteine, thioctic acid, thiodiglycol, thioethanolamine, thioglycerol, thiosorbitol, thioglycolic acid and its salts, sodium thiosulfate, glutathione, carbon atoms
- sulfur-containing reducing agents include N-acetylcysteine, N-acetylhomocysteine, thioctic acid, thiodiglycol, thioethanolamine, thioglycerol, thiosorbitol, thioglycolic acid and its salts, sodium thiosulfate, glutathione, carbon atoms
- sulfur-containing reducing agents examples include N-acetylcysteine, N-acetylhomocysteine, thioctic acid, thiodiglycol, thioethanolamine,
- Antioxidants such as erythorbic acid, dibutylhydroxytoluene, butylhydroxyanisole, ⁇ -tocopherol, tocopherol acetate, L-ascorbic acid and its salts, L-ascorbyl palmitate, L-ascorbic acid stearate, sodium bisulfite, sodium sulfite Chelating agents such as sodium, triamyl gallate, propyl gallate or disodium ethylenediaminetetraacetate (EDTA), sodium pyrophosphate, sodium metaphosphate and the like can be mentioned.
- EDTA disodium ethylenediaminetetraacetate
- the preparation of the present invention can be administered either orally or parenterally, but is usually administered by a parenteral route. Specifically, it is administered by injection, transdermal, transmucosal, nasal, transpulmonary, or the like. As an example of an injection form, it can be administered systemically or locally by, for example, subcutaneous injection, intravenous injection, intramuscular injection, or the like. In the case of subcutaneous injection, although there is a limit on the amount of injection solution, the dose of antibody per dose can be made large (about 100 to 200 mg-). Therefore, the preparation of the present invention is particularly suitable for subcutaneous administration (injection).
- the osmotic pressure ratio of the buffering agent is preferably close to 1.0, which is isotonic, from the viewpoint of pain. Accordingly, the osmotic pressure ratio of the solution preparation of the present invention is preferably about 1.
- arginine or saccharides are added to stabilize it, but if the osmotic pressure exceeds isotonicity, it may cause pain during subcutaneous administration.
- the agent is preferably added in consideration of osmotic pressure.
- the present invention relates to the use of a basic amino acid-aspartate or basic amino acid-glutamate in the production of a stable antibody-containing preparation, and the association during storage of a high-concentration antibody-containing preparation in a frozen or solution state.
- the present invention relates to aspartic acid or glutamic acid, which is a counter ion species of a buffer or a stabilizer in the preparation for use in the method of inhibition.
- Example 1 Evaluation of stability of counterion species using Mab1 and Mab2 Mab1 (H chain / SEQ ID NO: 1, L chain / SEQ ID NO: 1), which is an anti-IL-6 receptor antibody described in WO 2009/041621 2) and Mab2 (H chain / SEQ ID NO: 3, L chain / SEQ ID NO: 4; tocilitumab) are expressed by a method known to those skilled in the art using a CHO cell stable expression strain, and are known to those skilled in the art including protein A. The product was purified to a high purity by the above method and used in the stability test of the following examples.
- Size exclusion chromatography SEC was performed to analyze the amount of aggregates and small molecule degradation products of each formulation. Each sample was diluted to about 0.4-2.0 mg / mL with the following mobile phase, and these were analyzed with a G3000SW XL column (Tosoh). The mobile phase was analyzed using a 50 mM phosphate buffer (pH 7.0) containing 300 mM NaCl at a flow rate of 0.5 mL / min (detection wavelength: 220 nm).
- Example 2 Stability evaluation of counter ion species using Mab1
- Hydrochloric acid is common as a counter ion species for Histidine and Arginine. So far, as a result of studies using Acetic acid, Phosphoric acid, and Sulfuric acid as counterions of Histidine, it has been reported that Acetic acid has excellent stability as a counterion of Histidine (PCT / US2005 / 037471) There is. However, in Example 1 above, for Mab1 and Mab2, it was shown that hydrochloric acid is slightly superior to Acetic acid as the anionic counterion species of Histidine.
- Hydrochloric acid is commonly used as an anionic counterion species, but it has been reported that hydrochloric acid tends to corrode stainless steel often used in storage containers (Dent. Mater. 17: 409-414 ( 2001), J. pharm. Sci. 86: 1250-1255 (1997)). In addition, it has been reported that Acetic acid has volatility and is susceptible to pH fluctuations (Injectable Drug Development, Authors: Pramod K. Gupta (Editor), Gayle A. Brazeau, Gayle A).
- the counterion does not have stainless corrosiveness and volatility, and has a stabilizing effect superior to that of Acetic acid and hydrochloric acid.
- searched for species As anionic species other than hydrochloric acid, acetic acid, phosphoric acid, and sulfuric acid reported in PCT / US2005 / 037471, the amino acids Aspartic acid and Glutamic acid have been studied as counterion species.
- Example 1 it has been clarified that Histidine-Chloride shows higher stability than Histidine-Acetate ⁇ ⁇ ⁇ ⁇ in both Mab1 and Mab2, and thus the effect on the stability of counterion species was compared with hydrochloric acid.
- Table 2 As the anionic counterion species of Histidine as a buffer and Arginine as a stabilizer, hydrochloric acid, Aspartic acid, The effect of Glutamic acid on stability was evaluated.
- L-Histidine, L-Arginine, and L-Aspartic acid or L-Glutamic ⁇ ⁇ ⁇ ⁇ acid were weighed out to 20 mM, 50 mM, 60 mM, respectively, and dissolved in MilliQ water, The pH was adjusted to 6 by titrating 30-40 mM L-Aspartic acid or L-Glutamic acid solution.
- the amount of aggregates in each sample after freezing and thawing, storage at -20 ° C, storage at 25 ° C, and storage at 5 ° C was calculated by area percentage method using size exclusion chromatography (SEC).
- G of Glutamic acid, Aspartic acid, and Hydrochloric acid formulations after storage at -20 °C 3 M is about 0.8, 1.2, and 3.0%, respectively Glutamic acid showed a slightly higher stabilization effect than Aspartic acid.
- Example 3 Stability evaluation of counter ion species using Mab2 (1) As shown in Example 1, it was revealed that Mab2 exhibits higher stability in the Histidine-Chloride buffer than in the Histidine-Acetate buffer (similar to Mab1, FIG. 2). Further, as shown in Example 2, it was confirmed that the stability of Mab1 during solution and freezing was remarkably improved by changing the counter ion species of Histidine and Arginine from Hydrochloric acid to Aspartic acid or Glutamic acid. In particular, when Mab1 was frozen, the stability of the histidine and Arginine counterion species was changed from Hydrochloric acid to Glutamic acid. And the stability in freezing and thawing when hydrochloric acid was used was evaluated. In addition, a prescription containing Arginine, which has a high stabilizing effect, was also implemented and used as a comparative control when observing the stabilizing effect when the counter ion species of Histidine was Glutamic acid.
- Fig. 8 shows the results of the aggregate increase (%) in each formulation in the freeze-thaw test.
- the osmotic pressure ratio of the buffer solution is closer to isotonic 1.0 from the viewpoint of pain.
- the stability in freezing and thawing is equivalent to 50 mM Histidine -Chloride / 50 mM Arginine -Chloride and 50 mM Histidine-Glutamate, but when considering the osmotic pressure of the buffer, the latter has an osmotic pressure of about 100 mOsm than the former. About low. Therefore, when the stability is improved by changing the counter ion species to Aspartic acid or Glutamic acid as described above, it is possible to improve only the stability without increasing the osmotic pressure. It can be a great advantage for development.
- Arginine or saccharides are added to stabilize it.
- the osmotic pressure exceeds isotonicity, it may cause pain during subcutaneous administration.
- Agents need to be added in consideration of osmotic pressure (Injectable Drug Development, Authors: Pramod K, Gupta (Editor), Gayle A, Brazeau, Gayle A), Challenges, in the development, high, protein, concentration, formations, J sci, 2004, 93 (6), 1390-1402).
- Example 4 Stability evaluation of counter ion species using Mab1 (2) As shown in Examples 2 and 3, it has been clarified that the stability of Mab1 is remarkably improved by about 2-3 times by cryopreservation by using Gistamic acid as the counter ion species of Histidine and Arginine. . Therefore, in order to pursue the storage stability of Mab1 at -20 ° C, a storage stability test at -20 ° C was conducted using Glutamic acid as the counter ion species of Histidine and Arginine and sugar (Trehalose) as the stabilizer. did. In addition, solution storage and freeze-thawing were also performed.
- Sample preparation was performed by dialyzing Mab1 against each formulation solution (Table 5) overnight, and then concentrating each solution to a final Mab1 concentration of 200 mg / mL.
- the preparation method of each formulation solution is shown below.
- L-Histidine, L-Arginine, L-Glutamic acid and Trehalose were weighed out in 100 mM, 50 mM, 100 mM and 0-150 mM, respectively, dissolved in MilliQ water, then 30-40 mM L-Glutamic
- the pH was adjusted to 6 by titrating the acid solution.
- the freeze-thaw test was performed by carrying out slow freeze-thaw 10 times that the one frozen at -20 ° C was thawed at room temperature.
- the amount of aggregate in each sample after freezing and thawing, storage at ⁇ 20 ° C., and storage at 25 ° C. was calculated by area percentage method using size exclusion chromatography (SEC).
- Figures 9 to 11 show the results of increase in aggregate (%) of each formulation after storage at -20 ° C, after freeze-thawing, and after storage at 25 ° C.
- FIGS. 9 to 11 by adding Trehalose to 50 ⁇ mM or more, a formulation was obtained in which aggregates hardly increased during storage at ⁇ 20 ° C. and freezing and thawing.
- a trehalose concentration-dependent stabilization effect was observed when the solution was stored at 25 ° C.
- a simple formulation consisting only of amino acids and sugars and stable during solution storage and frozen storage was found.
- Example 5 Stability evaluation of counter ion species using Mab2 (2) As shown in Example 1, as with Mab1, it was revealed that Mab2 exhibits higher stability in Histidine-Chloride than Histidine-Acetate (FIG. 2). Further, as shown in Example 2, it was confirmed that the stability of Mab1 during solution and freezing was remarkably improved by changing the counter ion species of Histidine and Arginine from Hydrochloric acid to Aspartic acid or Glutamic acid. Therefore, the stability in solution storage (25 ° C.) when the counter ion species of Histidine was set to Hydrochloric acid or Glutamic acid using Mab2 was evaluated. In addition, a prescription containing Arginine, which has a high stabilizing effect, was also implemented and used as a comparative control when observing the stabilizing effect when the counter ion species of Histidine was Glutamic acid.
- Mab2 is dialyzed overnight against each formulation solution (Table 3) in the same manner as in Example 1 and then concentrated to a final Mab2 concentration of about 40-230 mg / mL. It went by.
- the method for preparing each formulation solution is the same as in Example 3.
- Table 4 shows the Mab2 concentration in each formulation after sample preparation. The amount of aggregate in each sample after storage at 25 ° C. and 2 weeks was calculated by area percentage method using size exclusion chromatography (SEC).
- FIG. 12 shows the results of the aggregate increase (%) of each formulation after storage at 25 ° C.
- anti-glypican 3 humanized antibody an antibody humanized by the method described in Example 24 of WO2006 / 006693 and modified in the L chain by the method of Example 25
- the antibody class is IgG1.
- Mab1 and Mab2 the stability during solution and freezing can be significantly improved by changing the counter ion species of Histidine and Arginine from Hydrochloric acid to Aspartic acid or Glutamic acid. confirmed. Therefore, in addition to Mab1 and Mab2, Mab3 and Mab4 in which the isoelectric point of the antibody is modified to 5 to 8 and Mab5 with an isoelectric point of 9.0 are also used, and the counter ion species of Histidine or Arginine is set to Hydrochloric acid or Aspartic The stability in solution storage and freeze-thawing when acid was used was evaluated. The pIs of Mab1, Mab2, Mab3, Mab4 and Mab5 are shown in Table 6 below.
- Mab1, Mab2, Mab3, Mab4 and Mab5 were dialyzed overnight against each dialysis buffer (Table 7), then each antibody solution was concentrated, and each antibody stock solution (Table 8) was added and the final antibody concentration was about 100-190 mg / mL.
- Table 9 shows a list of the prescription solutions prepared in this way.
- Each formulation solution was stored at 25 ° C. and freeze-thawed.
- the freeze-thaw test was performed by carrying out slow freeze-thaw 10 times by thawing what was frozen at -20 ° C at 25 ° C.
- the amount of aggregate in each sample after slow freezing and thawing was calculated by area percentage method using size exclusion chromatography (SEC).
- Figures 13 to 20 show the results of increase in aggregate (%) of each formulation after freezing and thawing and after storage at 25 ° C.
- the Histidine-Aspartate® formulation was as stable as the Histidine-Chloride formulation
- the Arginine-Aspartate formulation was almost as stable as the ⁇ Arginine-Chloride formulation ( FIG. 13, FIG. 15, FIG. 17 and FIG.
- the Histidine-Aspartate IV formulation is more than twice as stable as the Histidine-Chloride formulation, and the Arginine-Aspartate formulation is higher than the Arginine-Chloride formulation Stability was shown (FIGS. 14, 16, 18 and 20). Therefore, it has been clarified that the stability of the antibody upon freezing is significantly improved by changing the counter ion species of Histidine or Arginine from Hydrochloric acid to Aspartic acid.
- Example 7 Stability evaluation of counterion species using Mab1, Mab2, Mab3, Mab4 and Mab5 As shown in Examples 2, 3 and 6, in Histidine formulation, the counterion species was changed from Hydrochloric acid to Aspartic acid or Glutamic. By using acid, it was confirmed that the stability of the antibody during solution and freezing was significantly improved. Therefore, using Mab1, Mab2, Mab3, Mab4 and Mab5, the stability in storage and freezing and thawing was evaluated when the counter ion species of the trishydroxymethylaminomethane (Tris) formulation was Hydrochloric acid or Aspartic acid.
- Tris trishydroxymethylaminomethane
- Mab1, Mab2, Mab3, Mab4 and Mab5 were dialyzed overnight against each dialysis buffer (Table 10), then each antibody solution was concentrated, and each antibody stock solution (Table 11) was added, and the final antibody concentration was about 100 to 110 mg / mL.
- Table 12 shows a list of formulation solutions prepared in this way. Each formulation solution was stored at 25 ° C. and freeze-thawed. The freeze-thaw test was performed by carrying out slow freeze-thaw 10 times by thawing what was frozen at -20 ° C at 25 ° C. The amount of aggregate in each sample after slow freezing and thawing was calculated by area percentage method using size exclusion chromatography (SEC).
- SEC size exclusion chromatography
- Figures 21 to 22 show the results of increase in aggregate (%) of each formulation after freezing and thawing and after storage at 25 ° C. In comparison of the increase in aggregates at 25 ° C solution storage, the Tris-Aspartate / Arginine-Aspartate formulation showed the same level of stability as the Tris-Chloride / Arginine-Chloride formulation (FIG. 21).
- the Tris-Aspartate / Arginine-Aspartate formulation showed higher stability than the Tris-Chloride / Arginine-Chloride formulation (FIG. 22). Therefore, it was clarified that the stability of the antibody when frozen was significantly improved by changing the counter ion species from Hydrochloric acid to Aspartic acid in the Tris formulation.
- Example 8 Stability evaluation of Tris counterion species using Mab1, Mab2 and Mab3 As shown in Example 7, by changing the counterion species from Hydrochloric acid to Aspartic acid in the Tris formulation, It was confirmed that the stability of the antibody was significantly improved. Therefore, using Mab1, Mab2 and Mab3, the stability in storage and freezing and thawing was evaluated when the counterion species of Tris was Hydrochloric acid or Aspartic acid.
- Mab1, Mab2 and Mab3 were dialyzed overnight against each dialysis buffer (Table 13), then each antibody solution was concentrated to 100 mg / mL or more, and each dialysis solution was added to this antibody concentrated solution. This was performed by adding to a final antibody concentration of about 100 mg / mL.
- Table 14 shows a list of formulation solutions prepared in this way. Each formulation solution was stored at 25 ° C. and freeze-thawed. The freeze-thaw test was performed by carrying out slow freeze-thaw 10 times by thawing what was frozen at -20 ° C at 25 ° C. The amount of aggregate in each sample after slow freezing and thawing was calculated by area percentage method using size exclusion chromatography (SEC).
- SEC size exclusion chromatography
- FIGS. 23 and 24 show the results of increase in aggregate (%) of each formulation after freezing and thawing and after storage at 25 ° C. From these results, the Tris-Aspartate formulation showed higher stability compared to the Tris-Chloride formulation, both in storage at 25 ° C and in comparison with the increase in freezing and thawing. It became clear that it was more than twice as high. Therefore, even when Tris was used as a buffer, it was revealed that the antibody stability was significantly improved by changing the counter ion species from Hydrochloric acid to Aspartic acid.
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Abstract
Description
〔2〕 塩基性アミノ酸がヒスチジンである、ヒスチジン-アスパラギン酸塩緩衝液あるいはヒスチジン-グルタミン酸塩緩衝液を含有することを特徴とする、〔1〕に記載の製剤。
〔3〕 塩基性アミノ酸がアルギニンである、アルギニン-アスパラギン酸塩あるいはアルギニン-グルタミン酸塩を含有することを特徴とする、〔1〕に記載の製剤。
〔4〕 ヒスチジン-アスパラギン酸塩緩衝液あるいはヒスチジン-グルタミン酸塩緩衝液、および、アルギニン-アスパラギン酸塩あるいはアルギニン-グルタミン酸塩を含有することを特徴とする、安定な抗体含有製剤。
〔5〕 トリスヒドロキシメチルアミノメタン-アスパラギン酸塩緩衝液またはトリスヒドロキシメチルアミノメタン-グルタミン酸塩緩衝液を含有することを特徴とする、安定な抗体含有製剤。
〔6〕 トリスヒドロキシメチルアミノメタン-アスパラギン酸塩緩衝液およびトリスヒドロキシメチルアミノメタン-グルタミン酸塩緩衝液を含有することを特徴とする、安定な抗体含有製剤。
〔7〕 塩化物イオンおよび酢酸イオンを実質的に含まない、〔1〕~〔6〕のいずれかに記載の製剤。
〔8〕 さらに糖類を含む、〔1〕~〔7〕のいずれかに記載の製剤。
〔9〕 抗体がヒト化抗体またはヒト抗体である、〔1〕~〔8〕のいずれかに記載の製剤。
〔10〕 抗体の等電点(pI)が、5~8に改変された抗体である、〔1〕~〔9〕のいずれかに記載の製剤。
〔11〕 抗体濃度が50 mg/mL以上である、〔1〕~〔10〕のいずれかに記載の製剤。
〔12〕 抗体濃度が50 mg/mL~250 mg/mLである、〔1〕~〔10〕のいずれかに記載の製剤。
〔13〕 溶液製剤である、〔1〕~〔12〕のいずれかに記載の製剤。
〔14〕 溶液製剤の粘度が、30 mPa・s以下である、〔13〕に記載の製剤。
〔15〕 溶液製剤が2~8℃で少なくとも6ヶ月間安定である、〔13〕または〔14〕に記載の製剤。
〔16〕 溶液製剤の製造過程に凍結乾燥工程を含まないで製造される、〔13〕~〔15〕のいずれかに記載の製剤。
〔17〕 -30℃~-10℃で凍結保存される、〔13〕~〔16〕のいずれかに記載の製剤。
〔18〕 凍結乾燥製剤である、〔1〕~〔12〕のいずれかに記載の製剤。
〔19〕 緩衝液濃度が5 mM~100 mMである、〔2〕、〔4〕、〔7〕~〔18〕のいずれかに記載の製剤。
〔20〕 アルギニンの濃度が5 mM~300 mMである、〔3〕、〔7〕~〔19〕のいずれかに記載の製剤。
〔21〕 抗体が抗IL-6レセプター抗体である、〔1〕~〔20〕のいずれかに記載の製剤。
〔22〕 緩衝液が実質的にアミノ酸のみからなる、〔2〕、〔4〕、〔7〕~〔21〕のいずれかに記載の製剤。
〔23〕 皮下投与用である、〔1〕~〔22〕のいずれかに記載の製剤。
〔24〕 高濃度抗体含有製剤中の緩衝剤の対イオン種としてアスパラギン酸あるいはグルタミン酸を用いることで、当該製剤の凍結状態における保存時の会合化を抑制する方法。
〔25〕 高濃度抗体含有製剤中の緩衝剤の対イオン種としてアスパラギン酸あるいはグルタミン酸を用いることで、当該製剤の溶液状態における保存時の会合化を抑制する方法。
〔26〕 高濃度抗体含有製剤中の安定化剤の対イオン種としてアスパラギン酸あるいはグルタミン酸を用いることで、当該製剤の凍結状態における保存時の会合化を抑制する方法。
〔27〕 高濃度抗体含有製剤中の安定化剤の対イオン種としてアスパラギン酸あるいはグルタミン酸を用いることで、当該製剤の溶液状態における保存時の会合化を抑制する方法。
さらに本発明は、塩基性アミノ酸-アスパラギン酸塩あるいは塩基性アミノ酸-グルタミン酸塩の安定な抗体含有製剤の製造における使用、および、高濃度抗体含有製剤の凍結状態または溶液状態における保存時の会合化を抑制する方法に使用するための、当該製剤中の緩衝剤もしくは安定化剤の対イオン種であるアスパラギン酸あるいはグルタミン酸、に関する。
即ち本発明は、塩基性アミノ酸がヒスチジンである、ヒスチジン-アスパラギン酸塩緩衝液あるいはヒスチジン-グルタミン酸塩緩衝液を含有することを特徴とする、安定な抗体含有製剤を提供する。さらに、本発明は、塩基性アミノ酸がアルギニンである、アルギニン-アスパラギン酸塩あるいはアルギニン-グルタミン酸塩を安定化剤として含有することを特徴とする、安定な抗体含有製剤を提供する。さらに本発明は、ヒスチジン-アスパラギン酸塩緩衝液あるいはヒスチジン-グルタミン酸塩緩衝液、および、アルギニン-アスパラギン酸塩あるいはアルギニン-グルタミン酸塩を含有することを特徴とする、安定な抗体含有製剤を提供する。さらに本発明は、トリスヒドロキシメチルアミノメタン-アスパラギン酸塩緩衝液またはトリスヒドロキシメチルアミノメタン-グルタミン酸塩緩衝液を含有することを特徴とする、安定な抗体含有製剤を提供する。さらに本発明は、トリスヒドロキシメチルアミノメタン-アスパラギン酸塩緩衝液およびトリスヒドロキシメチルアミノメタン-グルタミン酸塩緩衝液を含有することを特徴とする、安定な抗体含有製剤を提供する。本発明において、抗体含有製剤とは、活性成分として抗体を含み、ヒト等の動物に投与できるように調製された製剤を指す。
モノクローナル抗体を産生するハイブリドーマは、基本的には公知技術を使用し、以下のようにして作製できる。すなわち、所望の抗原や所望の抗原を発現する細胞を感作抗原として使用して、これを通常の免疫方法にしたがって免疫し、得られる免疫細胞を通常の細胞融合法によって公知の親細胞と融合させ、通常のスクリーニング法により、モノクローナルな抗体産生細胞(ハイブリドーマ)をスクリーニングすることによって作製できる。ハイブリドーマの作製は、たとえば、ミルステインらの方法(Kohler. G. and Milstein, C., Methods Enzymol. (1981) 73: 3-46 )等に準じて行うことができる。抗原の免疫原性が低い場合には、アルブミン等の免疫原性を有する巨大分子と結合させ、免疫を行えばよい。
A)抗IL-6レセプター抗体
B)ヒスチジン-アスパラギン酸塩緩衝液および/またはヒスチジン-グルタミン酸塩緩衝液
C)所望によりアルギニン(アルギニン-アスパラギン酸塩あるいはアルギニン-グルタミン酸塩を含む)、アルギニン以外のアミノ酸、および/または糖類、ならびに
D)界面活性剤
さらに本発明は、塩基性アミノ酸-アスパラギン酸塩あるいは塩基性アミノ酸-グルタミン酸塩の安定な抗体含有製剤の製造における使用、および、高濃度抗体含有製剤の凍結状態または溶液状態における保存時の会合化を抑制する方法に使用するための、当該製剤中の緩衝剤もしくは安定化剤の対イオン種であるアスパラギン酸あるいはグルタミン酸、に関する。
WO 2009/041621に記載された抗IL-6レセプター抗体であるMab1(H鎖/配列番号:1、L鎖/配列番号:2)とMab2(H鎖/配列番号:3、L鎖/配列番号:4;トシリツマブ)は、CHO細胞安定発現株を用いて当業者の公知の方法で発現し、protein Aを含む当業者公知の方法で高純度に精製し、下記の実施例の安定性試験に使用した。
サイズ排除クロマトグラフィー(SEC)は、各処方の会合体量および低分子分解物を分析するために実施した。各サンプルを下記移動相により約0.4-2.0 mg/mLとなるように希釈し、これらをG3000SWXLカラム(東ソー)により分析した。移動相には300 mM NaCl を含む50 mM リン衝液(pH7.0)を用い、流速0.5 mL/minにて分析した(検出波長:220 nm)。単量体よりも早く溶出したピークを会合体、単量体よりも溶出は遅いがbuffer由来のピークよりも早く溶出したピークを低分子分解物として解析し、それぞれの含量(%)を面積百分率法により算出した。
HistidineおよびArginineの対イオン種としては、hydrochloric acidが一般的である。これまでに、Histidineの対イオン種としてAcetic acid、Phosphoric acid、Sulfuric acidを用いた検討の結果、Histidineの対イオン種としてAcetic acidが安定性に優れているとの報告(PCT/US2005/037471)がある。しかし上記実施例1において、Mab1およびMab2に対しては、Histidineのアニオン性の対イオン種としてはAcetic acidよりもhydrochloric acidのほうがやや優れていることが示された。アニオン性の対イオン種としてはhydrochloric acidが一般的であるが、hydrochloric acidは保存容器によく使用されるステンレス鋼を腐食しやすいことが報告されている(Dent. Mater. 17:409-414 (2001)、J. pharm. Sci. 86:1250-1255 (1997))。またAcetic acidは揮発性を有するためpH変動がおこりやすいことが報告されている(Injectable Drug Development, Authors: Pramod K. Gupta (Editor), Gayle A. Brazeau, Gayle A)。
実施例1に示したとおり、Mab2はHistidine - Acetate バッファーよりもHistidine - Chlorideバッファーにおいて高い安定性を示すことが明らかとなった(Mab1と同様、図2)。また実施例2に示したとおり、HistidineおよびArginineの対イオン種をHydrochloric acidからAspartic acidまたはGlutamic acidとすることにより、溶液および凍結時のMab1の安定性が顕著に向上することが確認された。特に、Mab1において凍結時にHistidineおよびArginineの対イオン種をHydrochloric acidからGlutamic acidとすることにより、安定性が約3倍以上と大きく改善したことから、Mab2を用いてヒスチジンの対イオン種をGlutamic acidおよびHydrochloric acidとしたときの凍結融解における安定性を評価した。併せて安定化効果の高いArginineを含む処方も実施し、Histidineの対イオン種をGlutamic acidとしたときの安定化効果を観測する際の比較対照とした。
実施例2および3に示したとおり、HistidineおよびArginineの対イオン種をGlutamic acidとすることにより、特に凍結保存においてMab1の安定性が約2~3倍と顕著に改善することが明らかとなった。そこでMab1の-20℃における保存安定性を追及するために、HistidineおよびArginineの対イオン種をGlutamic acidとし、さらに安定化剤として糖(Trehalose)を用いて-20℃における保存安定性試験を実施した。併せて溶液保存および凍結融解も実施した。
実施例1に示したとおり、Mab1と同様に、Mab2はHistidine - Acetate よりもHistidine - Chlorideにおいて高い安定性を示すことが明らかとなった(図2)。また実施例2に示したとおり、HistidineおよびArginineの対イオン種をHydrochloric acidからAspartic acidまたはGlutamic acidとすることにより、溶液および凍結時のMab1の安定性が顕著に向上することが確認された。そこで、Mab2を用いてHistidineの対イオン種をHydrochloric acidまたはGlutamic acidとしたときの溶液保存(25℃)における安定性を評価した。併せて安定化効果の高いArginineを含む処方も実施し、Histidineの対イオン種をGlutamic acidとしたときの安定化効果を観測する際の比較対照とした。
Mab3: ファクターIXとファクターXとのBi-specific抗体であり、IgG4由来の定常領域を有し、更にアミノ酸配列を改変してpI値を6.8に低下させた抗体
Mab4:抗NR10ヒト化抗体(WO2009/072604の実施例12に記載の方法で作製した、完全ヒト化NS22抗体)、抗体クラスはIgG2。アミノ酸配列を改変してpI値を5.6に低下させた抗体
Mab5:抗グリピカン3ヒト化抗体(WO2006/006693の実施例24に記載の方法でヒト化し、実施例25の方法でL鎖が改変された抗体)、抗体クラスはIgG1。
実施例2、3および6に示したとおり、Histidine処方において対イオン種をHydrochloric acidからAspartic acidまたはGlutamic acidとすることにより、溶液および凍結時の抗体の安定性が顕著に向上することが確認された。そこで、Mab1, Mab2, Mab3, Mab4およびMab5を用いて、トリスヒドロキシメチルアミノメタン(トリス)処方の対イオン種をHydrochloric acidまたはAspartic acidとしたときの溶液保存および凍結融解における安定性を評価した。
実施例7に示したとおり、トリス処方において対イオン種をHydrochloric acidからAspartic acidとすることにより、凍結時の抗体の安定性が顕著に向上することが確認された。そこで、Mab1, Mab2およびMab3を用いて、トリスの対イオン種をHydrochloric acidまたはAspartic acidとしたときの溶液保存および凍結融解における安定性を評価した。
Claims (27)
- 塩基性アミノ酸-アスパラギン酸塩あるいは塩基性アミノ酸-グルタミン酸塩を含有することを特徴とする、安定な抗体含有製剤。
- 塩基性アミノ酸がヒスチジンである、ヒスチジン-アスパラギン酸塩緩衝液あるいはヒスチジン-グルタミン酸塩緩衝液を含有することを特徴とする、請求項1に記載の製剤。
- 塩基性アミノ酸がアルギニンである、アルギニン-アスパラギン酸塩あるいはアルギニン-グルタミン酸塩を含有することを特徴とする、請求項1に記載の製剤。
- ヒスチジン-アスパラギン酸塩緩衝液あるいはヒスチジン-グルタミン酸塩緩衝液、および、アルギニン-アスパラギン酸塩あるいはアルギニン-グルタミン酸塩を含有することを特徴とする、安定な抗体含有製剤。
- トリスヒドロキシメチルアミノメタン-アスパラギン酸塩緩衝液またはトリスヒドロキシメチルアミノメタン-グルタミン酸塩緩衝液を含有することを特徴とする、安定な抗体含有製剤。
- トリスヒドロキシメチルアミノメタン-アスパラギン酸塩緩衝液およびトリスヒドロキシメチルアミノメタン-グルタミン酸塩緩衝液を含有することを特徴とする、安定な抗体含有製剤。
- 塩化物イオンおよび酢酸イオンを実質的に含まない、請求項1~6のいずれかに記載の製剤。
- さらに糖類を含む、請求項1~7のいずれかに記載の製剤。
- 抗体がヒト化抗体またはヒト抗体である、請求項1~8のいずれかに記載の製剤。
- 抗体の等電点(pI)が、5~8に改変された抗体である、請求項1~9のいずれかに記載の製剤。
- 抗体濃度が50 mg/mL以上である、請求項1~10のいずれかに記載の製剤。
- 抗体濃度が50 mg/mL~250 mg/mLである、請求項1~10のいずれかに記載の製剤。
- 溶液製剤である、請求項1~12のいずれかに記載の製剤。
- 溶液製剤の粘度が、30 mPa・s以下である、請求項13に記載の製剤。
- 溶液製剤が2~8℃で少なくとも6ヶ月間安定である、請求項13または14に記載の製剤。
- 溶液製剤の製造過程に凍結乾燥工程を含まないで製造される、請求項13~15のいずれかに記載の製剤。
- -30℃~-10℃で凍結保存される、請求項13~16のいずれかに記載の製剤。
- 凍結乾燥製剤である、請求項1~12のいずれかに記載の製剤。
- 緩衝液濃度が5 mM~100 mMである、請求項2、4、7~18のいずれかに記載の製剤。
- アルギニンの濃度が5 mM~300 mMである、請求項3、7~19のいずれかに記載の製剤。
- 抗体が抗IL-6レセプター抗体である、請求項1~20のいずれかに記載の製剤。
- 緩衝液が実質的にアミノ酸のみからなる、請求項2、4、7~21のいずれかに記載の製剤。
- 皮下投与用である、請求項1~22のいずれかに記載の製剤。
- 高濃度抗体含有製剤中の緩衝剤の対イオン種としてアスパラギン酸あるいはグルタミン酸を用いることで、当該製剤の凍結状態における保存時の会合化を抑制する方法。
- 高濃度抗体含有製剤中の緩衝剤の対イオン種としてアスパラギン酸あるいはグルタミン酸を用いることで、当該製剤の溶液状態における保存時の会合化を抑制する方法。
- 高濃度抗体含有製剤中の安定化剤の対イオン種としてアスパラギン酸あるいはグルタミン酸を用いることで、当該製剤の凍結状態における保存時の会合化を抑制する方法。
- 高濃度抗体含有製剤中の安定化剤の対イオン種としてアスパラギン酸あるいはグルタミン酸を用いることで、当該製剤の溶液状態における保存時の会合化を抑制する方法。
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