JP4767195B2 - Nucleic acid skin preparation - Google Patents
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Description
本発明は、核酸を含む医薬品製剤に関する。さらに詳しくは、核酸オリゴヌクレオチドを含有する皮膚外用剤に関するものである。 The present invention relates to pharmaceutical preparations containing nucleic acids. More specifically, the present invention relates to a skin external preparation containing a nucleic acid oligonucleotide.
軟膏やローションといった塗布製剤の治療効果は、有効成分(主剤)の適切な透過性コントロールが必要とされる。例えば、多くの皮膚疾患の場合、主剤を皮膚組織の上皮および真皮まで透過させる必要があるが、その際の障壁として、角質・上皮組織で構成される、いわゆる皮膚バリアが挙げられる。一般的に皮膚バリアを通過しやすい主剤の物理化学的性質として、高脂溶性と低分子量(分子量800程度まで)が求められる。例えば、ステロイドやビタミンD等は、皮膚バリアを効率よく透過することが知られているが、これらは比較的低分子かつ高脂溶性である。一方で、高い水溶性かつ高分子量の分子は皮膚バリアを通過することがかなり難しいことが知られている。製剤的な研究も行われているが、十分な透過性を有する製剤はほとんど知られていなかった。 The therapeutic effect of an applied preparation such as an ointment or lotion requires appropriate permeability control of the active ingredient (main agent). For example, in the case of many skin diseases, it is necessary to allow the main agent to penetrate to the epithelium and dermis of the skin tissue. As a barrier at that time, a so-called skin barrier composed of keratinous and epithelial tissue can be mentioned. In general, high fat solubility and low molecular weight (up to about 800 molecular weight) are required as the physicochemical properties of the main agent that easily passes through the skin barrier. For example, steroids, vitamin D, and the like are known to efficiently penetrate the skin barrier, but they are relatively low-molecular and highly fat-soluble. On the other hand, it is known that highly water-soluble and high molecular weight molecules are quite difficult to pass through the skin barrier. Although pharmaceutical studies have been carried out, few formulations with sufficient permeability have been known.
近年、バイオテクノロジーの進歩に伴って、遺伝子発現を制御することで病気を治療する新しい医薬品の開発が盛んに行われてきている。その1つとしてオリゴヌクレオチド等を用いた核酸医薬が挙げられるが、その多くが分子量5,000以上の高分子であり、また水溶性もきわめて高い。例えばアトピー性皮膚炎などの皮膚疾患に対して、こういった高水溶性・高分子量の核酸医薬を主剤とした塗布製剤を開発する際、前述のように、皮膚透過性の優れた製剤は報告されておらず、その開発が望まれていた。 In recent years, with the advance of biotechnology, new drugs for treating diseases by controlling gene expression have been actively developed. One of them is a nucleic acid medicine using an oligonucleotide or the like, many of which are polymers having a molecular weight of 5,000 or more, and have extremely high water solubility. For example, when developing a coating formulation based on a highly water-soluble, high-molecular-weight nucleic acid drug for skin diseases such as atopic dermatitis, a formulation with excellent skin permeability was reported as described above. The development was desired.
皮膚疾患は、その患部が外部に露出することから、肉体的のみならず、精神的にもダメージを受けやすい疾患である。例えば、近年増加しているアトピー性皮膚炎は、患部が体の広範囲にわたることも多く、難治性で患者は長期間悩まされる。これは小児から大人まで幅広い年齢層にみられるアレルギー疾患である。皮膚には体を外部の物質や刺激から保護するバリアの役割があるが、アトピー性皮膚炎ではこの皮膚のバリア機能が低下すると,ダニなどの環境抗原が皮膚に侵入しやすくなり、その結果アレルギー反応が生じる。しかし、アトピー性皮膚炎の治療によく用いられるステロイド軟膏は、アレルギー反応は抑えるが、この皮膚のバリア機能を低下させる危険性もあり、長期の使用には適していない。 A skin disease is a disease that is easily damaged not only physically but also physically because the affected part is exposed to the outside. For example, atopic dermatitis, which has been increasing in recent years, often involves a wide area of the body, is refractory, and patients are troubled for a long time. This is an allergic disease found in a wide range of ages from children to adults. Skin has a role of a barrier that protects the body from external substances and irritation, but in atopic dermatitis, when the barrier function of this skin is reduced, environmental antigens such as mites are more likely to enter the skin, resulting in allergies. A reaction occurs. However, steroid ointment often used for the treatment of atopic dermatitis suppresses allergic reactions, but also has a risk of lowering the barrier function of the skin, and is not suitable for long-term use.
皮膚外用剤は皮膚を透過して薬効を発揮するため、このバリアを破って真皮に浸透することが必須である。しかし、皮膚外用剤の有効成分が、例えば核酸のような巨大分子である場合、そのまま皮膚に浸透させることは更に難しかった。このような理由から、核酸のような巨大分子を有効成分とする皮膚外用剤の開発は困難であった。 Since the external preparation for skin exhibits a medicinal effect by permeating the skin, it is essential to break this barrier and penetrate into the dermis. However, when the active ingredient of the external preparation for skin is a macromolecule such as a nucleic acid, it is further difficult to penetrate the skin as it is. For these reasons, it has been difficult to develop an external preparation for skin containing a macromolecule such as a nucleic acid as an active ingredient.
以上のような背景から、皮膚のバリア機能は保持したまま皮膚に浸透し、薬効を発揮する薬剤の開発が望まれていた。 In view of the above background, it has been desired to develop a drug that penetrates into the skin while maintaining its skin barrier function and exhibits its medicinal effects.
本発明者らは、これらの課題を解決すべく鋭意検討を重ねた結果、意外にも粘性多糖類が浸透促進剤として優れることを見いだし、さらに化粧品において保湿剤として使用されているアルギン酸またはその薬理学的塩が最も効果的に目的を達成できることを見いだし、本発明を完成するに至った。 As a result of intensive studies to solve these problems, the present inventors have unexpectedly found that a viscous polysaccharide is excellent as a penetration enhancer, and alginic acid or a drug thereof used as a moisturizing agent in cosmetics. It has been found that a physical salt can achieve the purpose most effectively, and the present invention has been completed.
アルギン酸は海藻由来の多糖類で、増粘剤や被覆剤、保湿剤として食品や化粧品に用いられているが、浸透促進剤としての効果は全く知られていなかった。 Alginic acid is a polysaccharide derived from seaweed and is used in foods and cosmetics as a thickener, a coating agent, and a moisturizer, but its effect as a penetration enhancer was not known at all.
特許文献1は、非ステロイド性抗炎症剤(non-steroid anti-inflammatory drug (NSAID))のアルギナート等の多糖類ガム製剤を開示している。しかしこれは低分子化合物をアルギナート(アルギン酸塩)との混合製剤としているが、核酸のような高分子化合物の皮膚透過性について検討していなかった。
特許文献2は、アルギン酸とオリゴヌクレオチドを組み合わせた肺の徐放製剤について開示している。これはアルギン酸と核酸の製剤ではあるが、肺を対象とした薬剤であり、皮膚の透過性については言及していなかった。
近年、遺伝子・核酸医薬が注目され、数々の遺伝子治療が試みられている。しかし、皮膚疾患治療薬として確立された核酸医薬品はなく、これが実現すれば、従来の薬剤では効果がなかった疾患にも適用できる可能性がある。 In recent years, gene / nucleic acid drugs have attracted attention, and a number of gene therapies have been attempted. However, there is no nucleic acid pharmaceutical established as a therapeutic agent for skin diseases, and if this is realized, it may be applicable to diseases for which conventional drugs have no effect.
本発明が解決しようとする課題は、核酸を有効成分とした皮膚外用製剤を提供することである。特にこれは皮膚バリア機能を保護しながら高い皮膚透過性を持つ必要がある。 The problem to be solved by the present invention is to provide an external preparation for skin containing nucleic acid as an active ingredient. In particular, it must have high skin permeability while protecting the skin barrier function.
本発明者らは、NF-κB デコイオリゴヌクレオチド等の核酸系薬剤を用い、それをアルギン酸ナトリウムとの混合製剤とすることで、オリゴヌクレオチドが高い皮膚透過性を示すことを見出した。即ち、本発明は核酸を有効成分とする高皮膚透過性の皮膚外用製剤を提供するものである。 The present inventors have found that oligonucleotides exhibit high skin permeability by using a nucleic acid drug such as NF-κB decoy oligonucleotide and using it as a mixed preparation with sodium alginate. That is, the present invention provides a high skin permeability external preparation for skin containing nucleic acid as an active ingredient.
その要旨は、
(1)真皮または表皮組織の細胞内に核酸系薬剤を送逹するための、核酸系薬剤および粘性多糖類からなる医薬組成物、
(2)核酸系薬剤が遺伝子またはその類似体である、(1)記載の組成物、
(3)遺伝子またはその類似体がポリヌクレオチドまたはオリゴヌクレオチドである、(1)または(2)記載の組成物、
(4)オリゴヌクレオチドがデコイ(おとり分子)、アンチセンス、リボザイム、アプタマーまたはsiRNAである、(1)〜(3)記載の組成物、
(5)デコイが転写因子阻害作用を有する、(1)〜(4)記載の組成物、
(6)デコイがNF-κB、STAT-1、GATA-3、STAT-6、AP-1、Ets、E2Fデコイオリゴヌクレオチドである、(1)〜(5)記載の組成物、
(7)デコイが配列番号1で表されるNF-κBデコイオリゴヌクレオチドである、(1)〜(6)記載の組成物、
(8)核酸系薬剤を0.01〜5重量%含む、(1)〜(7)記載の組成物、
(9)核酸系薬剤を0.1〜1重量%含む、(1)〜(8)記載の組成物、
(10)粘性多糖類がアルギン酸またはその薬理学的に許容される塩である、(1)〜(9)記載の組成物、
(11)粘性多糖類がアルギン酸ナトリウムである、(1)〜(10)記載の組成物、
(12)粘性多糖類を0.01〜10重量%含む、(1)〜(11)記載の組成物、
(13)粘性多糖類を0.1〜5重量%含む、(1)〜(12)記載の組成物、
(14)さらにリン酸塩を含む、(1)〜(13)記載の組成物、
(15)リン酸塩がリン酸二水素ナトリウムである、(1)〜(14)記載の組成物、
(16)リン酸塩を0.01〜10重量%含む、(1)〜(15)記載の組成物、
(17)リン酸塩を0.1〜5重量%含む、(1)〜(16)記載の組成物、
(18)(1)〜(17)記載の組成物からなる皮膚疾患の予防、改善、治療剤、
(19)皮膚疾患がアトピー性皮膚炎、接触性皮膚炎、光過敏性皮膚炎、手と足の慢性皮膚炎、脂漏性皮膚炎、貨幣状皮膚炎、全身性剥脱性皮膚炎、うっ血性皮膚炎、局所性擦過皮膚炎、薬物性皮膚炎または乾癬である、(18)記載の予防、改善、治療剤、
に関する。
The gist is
(1) A pharmaceutical composition comprising a nucleic acid drug and a viscous polysaccharide for delivering the nucleic acid drug into cells of the dermis or epidermis tissue,
(2) The composition according to (1), wherein the nucleic acid drug is a gene or an analog thereof,
(3) The composition according to (1) or (2), wherein the gene or an analog thereof is a polynucleotide or an oligonucleotide,
(4) The composition according to (1) to (3), wherein the oligonucleotide is a decoy (decoy molecule), antisense, ribozyme, aptamer or siRNA
(5) The composition according to (1) to (4), wherein the decoy has a transcription factor inhibitory action,
(6) The composition according to (1) to (5), wherein the decoy is NF-κB, STAT-1, GATA-3, STAT-6, AP-1, Ets, E2F decoy oligonucleotide,
(7) The composition according to (1) to (6), wherein the decoy is an NF-κB decoy oligonucleotide represented by SEQ ID NO: 1.
(8) The composition according to (1) to (7), comprising 0.01 to 5% by weight of a nucleic acid drug,
(9) The composition according to (1) to (8), comprising 0.1 to 1% by weight of a nucleic acid drug,
(10) The composition according to (1) to (9), wherein the viscous polysaccharide is alginic acid or a pharmacologically acceptable salt thereof,
(11) The composition according to (1) to (10), wherein the viscous polysaccharide is sodium alginate,
(12) The composition according to (1) to (11), comprising 0.01 to 10% by weight of a viscous polysaccharide,
(13) The composition according to (1) to (12), comprising 0.1 to 5% by weight of a viscous polysaccharide,
(14) The composition according to (1) to (13), further comprising a phosphate,
(15) The composition according to (1) to (14), wherein the phosphate is sodium dihydrogen phosphate,
(16) The composition according to (1) to (15), comprising 0.01 to 10% by weight of a phosphate,
(17) The composition according to (1) to (16), comprising 0.1 to 5% by weight of a phosphate,
(18) A preventive, ameliorating, or therapeutic agent for skin diseases comprising the composition according to (1) to (17),
(19) Skin diseases are atopic dermatitis, contact dermatitis, photosensitivity dermatitis, chronic dermatitis of hands and feet, seborrheic dermatitis, monetary dermatitis, generalized exfoliative dermatitis, congestive The preventive, ameliorating, therapeutic agent according to (18), which is dermatitis, topical abrasion dermatitis, drug dermatitis or psoriasis,
About.
本発明の核酸皮膚外用製剤は、高い皮膚透過性を有するため、効率よく有効成分である核酸を患部に送達できる。皮膚透過性が高いため、核酸は低用量でよく、安全性、経済性にも優れている。また、現在用いられている抗炎症剤である低分子医薬とは作用メカニズムが異なるため、低分子医薬が効かないケースにも効果を期待できる。 Since the nucleic acid skin external preparation of the present invention has high skin permeability, it can efficiently deliver an active ingredient nucleic acid to the affected area. Since the skin permeability is high, the nucleic acid may be used at a low dose, and is excellent in safety and economy. In addition, since the mechanism of action is different from the low-molecular-weight drugs that are currently used anti-inflammatory agents, the effect can be expected even when the low-molecular-weight drugs are not effective.
本発明は真皮または表皮組織の細胞内に核酸系薬剤を送達するための、核酸系薬剤および浸透促進剤からなる医薬組成物を提供するものである。 The present invention provides a pharmaceutical composition comprising a nucleic acid drug and a penetration enhancer for delivering the nucleic acid drug into cells of the dermis or epidermal tissue.
本発明で使用される核酸系薬剤は、通常はデコイ、アンチセンス、リボザイム、アプタマ―、siRNAなどが対象となるが、好ましくはデコイである。デコイとは、転写調節因子が核酸に結合するとき、その核酸結合配列と競合する二本鎖オリゴヌクレオチドのことをいう。デコイ、デコイオリゴヌクレオチド、デコイODNは同義に用いられる。核酸系薬剤は単独又は二種以上を混合して用いることができ、本発明の皮膚外用剤に0.01〜5重量%(以下、「%」で示す)、特に0.1〜1%配合されるのが好ましい。 The nucleic acid drugs used in the present invention are usually decoys, antisenses, ribozymes, aptamers, siRNAs and the like, but are preferably decoys. A decoy refers to a double-stranded oligonucleotide that competes with a nucleic acid binding sequence when a transcriptional regulator binds to the nucleic acid. Decoy, decoy oligonucleotide, and decoy ODN are used interchangeably. Nucleic acid drugs can be used alone or in admixture of two or more. The skin external preparation of the present invention contains 0.01 to 5% by weight (hereinafter referred to as "%"), particularly 0.1 to 1%. Preferably it is done.
本発明の核酸系薬剤は、例えばNF-κB、STAT-1、GATA-3、STAT-6、AP-1、Ets、E2F等のデコイを挙げることができるが、NF-κBが好適対象である。好ましいデコイの例としては、5’-ccttgaagggatttccctcc-3’(配列番号1)(NF-κBデコイ)、5’-gatctagggatttccgggaaatgaagct-3’ (配列番号2)(STAT-1デコイ)、5’-agcttgagatagagct-3’ (配列番号3)(GATA-3デコイ)、5’-gatcaagaccttttcccaagaaatctat-3’ (配列番号4)(STAT-6デコイ)、5’-agcttgtgagtcagaagct-3’ (配列番号5)(AP-1デコイ)、5’-aattcaccggaagtattcga-3’ (配列番号6)(Etsデコイ)、5’-ctagatttcccgcg-3’ (配列番号7)(E2Fデコイ)、またはこれらの相補体を含むオリゴヌクレオチド、これらの変異体、またはこれらを分子内に含む化合物が挙げられる。オリゴヌクレオチドはDNAでもRNAでもよく、またはそのオリゴヌクレオチド内に核酸修飾体および/または擬核酸を含むものであってもよい。これらの核酸系薬剤は上記核酸配列を一つまたは複数含む二本鎖オリゴヌクレオチドまたはその変異体が挙げられる。 Examples of the nucleic acid drug of the present invention include decoys such as NF-κB, STAT-1, GATA-3, STAT-6, AP-1, Ets, and E2F, but NF-κB is a suitable target. . Examples of preferred decoys include 5'-ccttgaagggatttccctcc-3 '(SEQ ID NO: 1) (NF-κB decoy), 5'-gatctagggatttccgggaaatgaagct-3' (SEQ ID NO: 2) (STAT-1 decoy), 5'-agcttgagatagagct- 3 '(SEQ ID NO: 3) (GATA-3 decoy), 5'-gatcaagaccttttcccaagaaatctat-3' (SEQ ID NO: 4) (STAT-6 decoy), 5'-agcttgtgagtcagaagct-3 '(SEQ ID NO: 5) (AP-1 decoy) ), 5'-aattcaccggaagtattcga-3 '(SEQ ID NO: 6) (Ets decoy), 5'-ctagatttcccgcg-3' (SEQ ID NO: 7) (E2F decoy), or an oligonucleotide containing these complements, variants thereof Or a compound containing these in the molecule. The oligonucleotide may be DNA or RNA, or may contain a nucleic acid modification and / or pseudo-nucleic acid within the oligonucleotide. These nucleic acid drugs include double-stranded oligonucleotides containing one or more of the nucleic acid sequences or variants thereof.
また、本発明における浸透促進剤としては、粘性多糖類、リン酸塩等が用いられるが、好ましくは粘性多糖類、リン酸塩を単独あるいは混合して用いる。さらに好ましくは粘性多糖類とリン酸塩の混合物を用いる。 In addition, as the penetration enhancer in the present invention, viscous polysaccharides, phosphates, and the like are used. Preferably, the viscous polysaccharides and phosphates are used alone or in combination. More preferably, a mixture of viscous polysaccharide and phosphate is used.
粘性多糖類は通常アルギン酸、ラミラナン、カラギーナン、フルセフラン、ポルフィラン、グラテロピラン、グルサン、フコイダン、ヒアルロン酸などを用いることができるが、好ましくはアルギン酸、およびカラギーナン、より好ましくはアルギン酸を用いる。アルギン酸はアルギン酸またはその薬理学的に許容される塩を用いることができるが、通常アルギン酸ナトリウムが好ましい。アルギン酸は「キミカアルギン」(キミカ製)などの市販されているものを使用することができる。 As the viscous polysaccharide, alginic acid, lamiranan, carrageenan, flucefuran, porphyran, grateropyran, glucan, fucoidan, hyaluronic acid and the like can be used, but preferably alginic acid and carrageenan, more preferably alginic acid. Alginic acid or a pharmacologically acceptable salt thereof can be used as alginic acid, but sodium alginate is usually preferred. Commercially available alginic acid such as “Kimika Argin” (manufactured by Kimika) can be used.
これらの粘性多糖類は単独又は二種以上を混合して用いることができ、本発明の皮膚外用剤に0.01〜10重量%(以下、「%」で示す)、特に0.1〜5%配合されるのが好ましい。 These viscous polysaccharides can be used alone or in admixture of two or more, and are used in the external preparation for skin of the present invention in an amount of 0.01 to 10% by weight (hereinafter referred to as “%”), particularly 0.1 to 5%. % Is preferable.
リン酸塩は、通常はリン酸二水素ナトリウム、リン酸一水素カルシウム 、リン酸三カリウム 、リン酸三カルシウム 、リン酸水素二アンモニウム 、リン酸水素二カリウム 、リン酸水素二ナトリウム 、リン酸三ナトリウム 、リン酸二水素カルシウム、などを用いるが、好ましくはリン酸二水素ナトリウムを用いる。これらのリン酸塩は、単独又は二種以上を混合して用いることができ、本発明の皮膚外用剤に0.01〜10重量%、特に0.1〜5%配合されるのが好ましい。 Phosphate is usually sodium dihydrogen phosphate, calcium monohydrogen phosphate, tripotassium phosphate, tricalcium phosphate, diammonium hydrogen phosphate, dipotassium hydrogen phosphate, disodium hydrogen phosphate, triphosphate Sodium, calcium dihydrogen phosphate, and the like are used, and sodium dihydrogen phosphate is preferably used. These phosphates can be used alone or in admixture of two or more, and are preferably blended in the skin external preparation of the present invention in an amount of 0.01 to 10% by weight, particularly 0.1 to 5%.
本発明の皮膚外用剤には、上記必須成分の他、必要に応じて本発明の効果に影響しない質的、量的範囲内で、水、油剤、ワックス、シリコーン、界面活性剤、アルコール、多価アルコール、水溶性高分子増粘剤、pH調節剤、香料、酸化防止剤、キレート剤、色素、顔料、防腐剤、他の薬効成分、紫外線吸収剤等、医薬品、化粧品に用いられる成分の他、無機あるいは有機成分も配合することができる。 The external preparation for skin of the present invention includes, in addition to the above essential components, water, oils, waxes, silicones, surfactants, alcohols, alcohols, and many other substances within the qualitative and quantitative ranges that do not affect the effects of the present invention. In addition to ingredients used in pharmaceuticals and cosmetics such as monohydric alcohols, water-soluble polymer thickeners, pH regulators, fragrances, antioxidants, chelating agents, dyes, pigments, preservatives, other medicinal ingredients, UV absorbers, etc. Inorganic or organic components can also be blended.
本発明の皮膚外用剤の対象疾患は、例えば皮膚疾患がアトピー性皮膚炎、接触性皮膚炎、光過敏性皮膚炎、手と足の慢性皮膚炎、脂漏性皮膚炎、貨幣状皮膚炎、全身性剥脱性皮膚炎、うっ血性皮膚炎、局所性擦過皮膚炎、薬物性皮膚炎または乾癬などである。 The target diseases of the external preparation for skin of the present invention are, for example, atopic dermatitis, contact dermatitis, photosensitivity dermatitis, chronic dermatitis of hands and feet, seborrheic dermatitis, monetary dermatitis, Systemic exfoliative dermatitis, congestive dermatitis, topical abrasion dermatitis, drug dermatitis or psoriasis.
本発明の皮膚外用剤は、上記必須成分と必要に応じた任意成分を用い、常法に従って調製することができ、液剤、ローション、油剤、クリーム、軟膏等、様々な剤型とすることができる。 The external preparation for skin of the present invention can be prepared according to a conventional method using the above essential components and optional components as necessary, and can be made into various dosage forms such as liquids, lotions, oils, creams, ointments and the like. .
投与量は、年齢、体重、症状、治療効果、投与方法、処理時間等によって異なるが、通常は患部を覆うことが出来る量を、一日あたり1〜3回塗布する。 The dose varies depending on age, body weight, symptom, therapeutic effect, administration method, treatment time, etc., but usually an amount that can cover the affected area is applied 1 to 3 times per day.
続いて本発明を具体的に説明するため、以下に実施例を掲げるが、本発明はこれらに限定されない。 Subsequently, in order to specifically describe the present invention, examples are given below, but the present invention is not limited thereto.
1.皮膚透過性試験1-1. ラットにおけるNF-κB デコイオリゴヌクレオチド単回経皮投与時の皮膚透過性について明らかにするため、35Sで標識した35S- NF-κBデコイオリゴヌクレオチド(以後35S -NF-κBデコイと略す)を用いて、血液,皮膚中放射能濃度を測定した。
35S-NF-κBデコイの化学構造およびラベル位置を以下に示す。
35S-5'-CCTTGAAGGGATTTCCCTCC-3'
35S-3'-GGAACTTCCCTAAAGGGAGG-5'
1. Skin permeability test 1-1. To clarify the skin permeability of at NF-[kappa] B decoy oligonucleotide single transdermal administration in rats, 35 S-labeled 35 S- NF-κB decoy oligonucleotide (hereinafter 35 S -NF (abbreviated as -κB decoy), the radioactivity concentration in blood and skin was measured.
The chemical structure and label position of 35 S-NF-κB decoy are shown below.
35 S-5'-CCTTGAAGGGATTTCCCTCC-3 '
35 S-3'-GGAACTTCCCTAAAGGGAGG-5 '
35S-NF-κBデコイは、Agrawalらの方法(Proc. Natl. Acad. Sci. USA, 88, 7595-7599, 1991)に従い、次のように調製した。目的の塩基配列のH-phosphonate型オリゴヌクレオチドを作成、脱保護前に35S8(elemental sulfur)にてH-phosphonateのHを35Sに酸化、通常の脱保護反応を行い、目的の35S標識オリゴヌクレオチドを得た。 35 S-NF-κB decoy was prepared as follows according to the method of Agrawal et al. (Proc. Natl. Acad. Sci. USA, 88, 7595-7599, 1991). Create H-phosphonate-type oligonucleotide object of nucleotide sequence, oxidizing the H of H-phosphonate to 35 S at 35 S 8 before deprotection (elementals sulfur), it performs the normal deprotection reaction, 35 S purposes A labeled oligonucleotide was obtained.
(1) 投与製剤の調製
所定量の35S-NF-κB デコイ原液および非標識NF-κB デコイをメノウ乳鉢上あるいはポリ容器内に採取したのち,大過剰のエタノールを加えてNF-κB デコイを沈殿させた。ついで,上清を除去後,窒素ガス気流下にて溶媒を完全に除去し,35S- NF-κB デコイ原体を調製した。
(1) Preparation of dosage formulation After collecting a predetermined amount of 35 S-NF-κB decoy stock solution and unlabeled NF-κB decoy in an agate mortar or in a plastic container, add a large excess of ethanol to remove NF-κB decoy. Precipitated. Next, after removing the supernatant, the solvent was completely removed under a nitrogen gas stream to prepare 35 S-NF-κB decoy drug substance.
製剤A (ワセリン単独)
35S-NF-κB デコイ 0.5% 2.0 mg
ステアリルアルコール 5.0% 20.0 mg
白色ワセリン 94.5% 378.0 mg
───────────────────────────
計 100.0% 400.0 mg
Formulation A (Vaseline alone)
35 S-NF-κB Decoy 0.5% 2.0 mg
Stearyl alcohol 5.0% 20.0 mg
White petrolatum 94.5% 378.0 mg
────────────────────────────
Total 100.0% 400.0 mg
予め,所定分量のステアリルアルコールおよび白色ワセリンを70〜80℃の水浴中で溶融混合し,室温になるまで放冷したものを混合基剤とした。先に調製した35S- NF-κB デコイ原体に規定量の混合基剤を少量ずつ加えながら混和し,NF-κB デコイとして0.4 mg(非標識NF-κB デコイの含量:78.88%)/500 kBq/100 mgの製剤Aを調製した。 A mixed base was prepared by melting and mixing a predetermined amount of stearyl alcohol and white petrolatum in a water bath at 70 to 80 ° C. and allowing to cool to room temperature. Add the specified amount of the mixed base to the 35 S-NF-κB decoy base prepared in advance and mix well, adding 0.4 mg of NF-κB decoy (content of unlabeled NF-κB decoy: 78.88%) / 500 kBq / 100 mg of formulation A was prepared.
水溶製剤A(1%アルギン酸製剤)
35S-NF-κB デコイ 0.5% 2.0 mg
アルギン酸基剤(1%アルギン酸ナトリウム/
リン酸二水素ナトリウム水溶液 適量) 99.5% 398.0 mg
────────────────────────────────────
計 100.0% 400.0 mg
Water-soluble preparation A (1% alginate preparation)
35 S-NF-κB Decoy 0.5% 2.0 mg
Alginic acid base (1% sodium alginate /
Sodium dihydrogen phosphate aqueous solution appropriate amount) 99.5% 398.0 mg
────────────────────────────────────
Total 100.0% 400.0 mg
35S- NF-κB デコイ原体に所定分量のアルギン酸基剤を加えて溶解後,ボルテックスミキサーにて十分撹拌し,その後マイクロピペットにて十分にピペッティングを行い均一に分散させ,35S-NF-κB デコイとして0.4 mg(非標識NF-κB デコイの含量:78.88%)/500 kBq/100 mgの水溶製剤Aを調製した。 Add a predetermined amount of alginate base to 35 S-NF-κB decoy base, dissolve, thoroughly stir with a vortex mixer, and then pipet thoroughly with a micropipette to disperse uniformly. 35 S-NF An aqueous preparation A of 0.4 mg (content of unlabeled NF-κB decoy: 78.88%) / 500 kBq / 100 mg was prepared as -κB decoy.
投与製剤調製用媒体には、次に挙げるものを用いた。ステアリルアルコール(Lot No.20714C,日本薬局方収載品,日本油脂)、白色ワセリン(Lot No.662275,日本薬局方収載品,日興製薬)、精製水素添加大豆リン脂質(Lot No.3228,NIKKOL レシノール S-10E,日光ケミカルズ)、ミリスチン酸イソプロピル(Lot No.WAE 5335,化学用,和光純薬工業)、注射用蒸留水(Lot No.3B76N,日本薬局方収載品,大塚製薬)、アルギン酸基剤(1%アルギン酸ナトリウム /リン酸二水素ナトリウム水溶液 適量)。 The following media were used as preparation preparation media. Stearyl alcohol (Lot No. 20714C, listed in Japanese Pharmacopoeia, Japanese fats and oils), white petrolatum (Lot No. 662275, listed in Japanese Pharmacopoeia, Nikko Pharmaceutical), purified hydrogenated soybean phospholipid (Lot No. 3228, NIKKOL Resinol) S-10E, Nikko Chemicals), isopropyl myristate (Lot No. WAE 5335, chemical, Wako Pure Chemical Industries), distilled water for injection (Lot No. 3B76N, Japanese Pharmacopoeia, Otsuka Pharmaceutical), alginate base (Appropriate amount of 1% sodium alginate / sodium dihydrogen phosphate aqueous solution).
(2) 動物
動物は7週齢の雄性Crj:CD(SD)ラットを1群1匹ずつ用いた。ラットは体重範囲220〜330gのものを用いた。
(2) 7-week-old male Crj: CD (SD) rats were used as one animal per group. Rats with a body weight range of 220-330 g were used.
(3) 塗布部位の調製
投与前日にラットをエーテル軽度麻酔下において,電気バリカンおよび電気シェーバーを用いて皮膚を傷つけないように剃毛した。なお,投与当日に剃毛部位の確認を行い,炎症や発赤がないことを確認した。これを「正常皮膚」とした。さらに投与当日に剃毛部位をセロファンテープで圧着・剥離する操作を10回行い,角質層を剥離したものを「損傷皮膚」とした。動物を表1に示されたように分けて用いた。
(3) Preparation of application site On the day before administration, the rats were shaved with an electric clipper and an electric shaver so as not to damage the skin under light ether anesthesia. The shaved area was confirmed on the day of administration, and it was confirmed that there was no inflammation or redness. This was designated as “normal skin”. Furthermore, on the day of administration, the shaved part was crimped and peeled with
表1
────────────────────
試験動物番号 投与製剤 皮膚の状態
────────────────────
1 製剤A 正常
2 〃 損傷
3 水溶製剤A 正常
4 〃 損傷
────────────────────
Table 1
────────────────────
Test animal number Administration formulation Skin condition ────────────────────
1 Formulation A Normal
2 損傷 Damage
3 Water-soluble preparation A Normal
4 損傷 Damage────────────────────
(4) 塗布と塗布部位の保護方法
35S-NF-κB デコイ製剤を背部皮膚に、塗布面積が横3cm×縦3cmになるよう塗布した。製剤の投与量は0.4 mg/head、投与製剤量は100 mg/head、投与放射能量は500 kBq/head、投与回数は1回とした。
その後,塗布部を囲むように紙製箱型枠(横4 cm×縦4 cm×高さ1 cm)を置き,粘着性伸縮テープ(エラストポア,ニチバン)を用いて,箱型枠を囲むように固定して塗布部を保護した。塗布時間は24時間とした。
(4) Application and protection method
The 35 S-NF-κB decoy preparation was applied to the back skin so that the application area was 3 cm wide x 3 cm long. The dose of the preparation was 0.4 mg / head, the dose of the preparation was 100 mg / head, the dose of radioactivity was 500 kBq / head, and the number of doses was once.
After that, place a paper box form (4 cm wide x 4 cm long x 1 cm high) so as to surround the application part, and use adhesive elastic tape (elastopore, Nichiban) to surround the box form. The application part was protected by fixing. The coating time was 24 hours.
(5) 投与製剤の除去方法
微温水で湿らせたのち,固く搾った脱脂綿(4 cm×5 cm)1枚につき1回ずつ,計5枚を用いて,力を加えない状態で塗布部位の拭い取りを行った。
(5) Method of removing the dosage form After moistening with slightly warm water, use a total of 5 pieces, one for each piece of absorbent cotton (4 cm x 5 cm) that has been squeezed firmly. Wiping was performed.
(6)皮膚中放射能濃度の測定
35S-NF-κB デコイを0.4 mg/headの用量で単回経皮投与した動物をエーテル麻酔死させたのち,投与部位皮膚を採取し,皮膚中放射能濃度を測定した。
(6) Measurement of skin radioactivity concentration
The animals were treated with 35 S-NF-κB decoy at a dose of 0.4 mg / head, and the animals were subjected to ether anesthesia.
投与部位皮膚中放射能濃度は次のように測定した。投与製剤除去後の投与部位皮膚を,中心部より厚さ2 mm,2.5×2.5 cmで摘出後,スライドグラス2枚の間で軽く圧着した状態で,−20℃前後で凍結した。ついで,各切片を1 cm2となるように真皮側より2部位分をパンチしたのち,凍結後の真皮側をOCTコンパウンドで液体窒素下にてステージに固定した。固定後,凍結下にてクライオスタットを用いて,表皮側より厚さ10μmで薄切した。薄切後の切片は4枚毎(40μm相当分)にバイアルに採取したのち,組織溶解剤SOLUENE-350 (2 mL)を加えて加温・溶解後,シンチレーター10 mLを加え,室温で静置したのち,液体シンチレーションカウンターを用いて放射能の計測を行い,得られた値より各層の放射能濃度を算出した。塗布後24時間に塗布部残存製剤の拭い取りを実施した。 The radioactivity concentration in the skin at the administration site was measured as follows. After removal of the drug product, the administration site skin was removed at a thickness of 2 mm and 2.5 x 2.5 cm from the center, and then frozen at around -20 ° C with light pressure applied between two slide glasses. Next, after punching two sections from the dermis side so that each section was 1 cm 2 , the dermis side after freezing was fixed to the stage under liquid nitrogen with an OCT compound. After fixation, it was sliced from the epidermis side to a thickness of 10μm using a cryostat under freezing. After every 4 slices (40 μm equivalent), slice the sliced slices, add the tissue solubilizer SOLUENE-350 (2 mL), heat and dissolve, add 10 mL of scintillator, and leave at room temperature. After that, the radioactivity was measured using a liquid scintillation counter, and the radioactivity concentration of each layer was calculated from the obtained value. 24 hours after application, the remaining part of the applied part was wiped off.
結果)皮膚透過性試験(表2〜4、図1〜2参照)
皮膚中放射能濃度は、水溶性ゲルである水溶製剤A(アルギン酸製剤)が製剤A(ワセリン単独製剤)に比べ、顕著に皮膚透過性を高める効果が確認された。
Results) Skin permeability test (see Tables 2-4, Figures 1-2)
As for the radioactivity concentration in the skin, it was confirmed that the water-soluble preparation A (alginic acid preparation), which is a water-soluble gel, significantly increased the skin permeability as compared with the preparation A (peteline single preparation).
表2
正常皮膚 放射能 (ng eq. of NF-κB Decoy ODNs/cm3)
───────────────────
深さ(μm) 製剤A 水溶製剤A
───────────────────
40 127723 305858
80 176569 456038
120 195258 449339
160 160645 356230
200 122080 245652
240 103637 135583
280 67479 75834
320 34559 42958
360 14894 21062
400 5278 8044
440 2269 2884
480 533 1413
520 228 1130
560 165 379
600 150 492
640 202 285
680 0 399
720 0 163
760 0 163
800 0 143
840 125 143
880 220 0
920 165 0
960 0 118
1000 0 0
1040 0 0
1080 0 0
1120 0 0
1160 0 0
1200 0 0
1240 0 0
1280 0 0
1320 0 0
1360 0 0
1400 0 0
1440 0 0
1480 160 0
1520 0 0
1560 119 0
1600 0 0
1640 0 0
1680 0 0
1720 0 0
1760 0 -
1800 0 -
───────────────────
(製剤A:ワセリン単独、水溶製剤A:アルギン酸ナトリウム、0:検出限界以下、-:測定せず)
Table 2
Normal skin radioactivity (ng eq. Of NF-κB Decoy ODNs / cm 3 )
───────────────────
Depth (μm) Formulation A Water-soluble formulation A
───────────────────
40 127723 305858
80 176569 456038
120 195258 449339
160 160645 356230
200 122080 245652
240 103637 135583
280 67479 75834
320 34559 42958
360 14894 21062
400 5278 8044
440 2269 2884
480 533 1413
520 228 1130
560 165 379
600 150 492
640 202 285
680 0 399
720 0 163
760 0 163
800 0 143
840 125 143
880 220 0
920 165 0
960 0 118
1000 0 0
1040 0 0
1080 0 0
1120 0 0
1160 0 0
1200 0 0
1240 0 0
1280 0 0
1320 0 0
1360 0 0
1400 0 0
1440 0 0
1480 160 0
1520 0 0
1560 119 0
1600 0 0
1640 0 0
1680 0 0
1720 0 0
1760 0-
1800 0-
───────────────────
(Formulation A: Vaseline alone, water-soluble preparation A: sodium alginate, 0: below detection limit,-: not measured)
表3
損傷皮膚 放射能 (ng eq. of NF-κB Decoy ODNs/cm3)
───────────────────
深さ(μm) 製剤A 水溶製剤A
───────────────────
40 151237 332272
80 328816 599862
120 496468 744654
160 482113 905723
200 300313 1227719
240 200318 958660
280 126664 602954
320 69206 214862
360 32528 38100
400 14366 10253
440 6132 5402
480 3148 3394
520 1360 6428
560 731 2011
600 753 3392
640 422 3124
680 546 5698
720 929 2787
760 779 2580
800 2136 4018
840 923 2534
880 465 2108
920 257 651
960 0 517
1000 150 381
1040 131 263
1080 0 121
1120 0 0
1160 0 132
1200 174 124
1240 0 0
1280 0 157
1320 0 0
1360 0 0
1400 144 991
1440 0 233
1480 0 879
1520 122 215
1560 144 1251
1600 0 609
1640 0 172
1680 148 0
1720 0 0
1760 0 0
1800 0 0
───────────────────
(製剤A:ワセリン単独、水溶製剤A:アルギン酸ナトリウム、0:検出限界以下、-:測定せず)
Table 3
Damaged skin radioactivity (ng eq. Of NF-κB Decoy ODNs / cm 3 )
───────────────────
Depth (μm) Formulation A Water-soluble formulation A
───────────────────
40 151237 332272
80 328816 599862
120 496468 744654
160 482113 905723
200 300 313 1227719
240 200318 958660
280 126664 602954
320 69206 214862
360 32528 38100
400 14366 10253
440 6132 5402
480 3148 3394
520 1360 6428
560 731 2011
600 753 3392
640 422 3124
680 546 5698
720 929 2787
760 779 2580
800 2136 4018
840 923 2534
880 465 2108
920 257 651
960 0 517
1000 150 381
1040 131 263
1080 0 121
1120 0 0
1160 0 132
1200 174 124
1240 0 0
1280 0 157
1320 0 0
1360 0 0
1400 144 991
1440 0 233
1480 0 879
1520 122 215
1560 144 1251
1600 0 609
1640 0 172
1680 148 0
1720 0 0
1760 0 0
1800 0 0
───────────────────
(Formulation A: Vaseline alone, water-soluble preparation A: sodium alginate, 0: below detection limit,-: not measured)
表4
放射能濃度 (投与量に対する%)
─────────────────────────────
製剤の種類 正常皮膚 損傷皮膚
─────────────────────────────
製剤 A 9.18 (0-640 μm) 20.36 (0-920 μm)
4.65 (121-640 μm) 11.39 (121-800 μm)
水溶製剤 A 19.30 (0-840 μm) 52.62 (0-1080 μm)
8.19 (121-800 μm) 37.03 (121-800 μm)
─────────────────────────────
(各製剤の上段は皮膚に浸透した全放射能を表す。下段は真皮内に浸透した放射能量を表す。)
Table 4
Radioactivity concentration (% of dose)
─────────────────────────────
Type of preparation Normal skin Damaged skin─────────────────────────────
Formulation A 9.18 (0-640 μm) 20.36 (0-920 μm)
4.65 (121-640 μm) 11.39 (121-800 μm)
Aqueous preparation A 19.30 (0-840 μm) 52.62 (0-1080 μm)
8.19 (121-800 μm) 37.03 (121-800 μm)
─────────────────────────────
(The upper part of each formulation represents the total radioactivity penetrating the skin. The lower part represents the radioactivity penetrating into the dermis.)
また、同様の試験をブタ皮膚において行ったところ、以下のような結果が得られた。 Moreover, when the same test was conducted on pig skin, the following results were obtained.
表5
放射能濃度 (投与量に対する%)
─────────────────────────────
製剤の種類 正常皮膚 損傷皮膚
─────────────────────────────
製剤 A 4.95 (0-880 μm) 3.35 (0-640 μm)
2.83 (121-880 μm) 2.73 (121-640 μm)
水溶製剤 A 33.78 (0-1440 μm) 41.59 (0-2440 μm)
22.57 (121-1440 μm) 34.76 (121-2440 μm)
─────────────────────────────
(各製剤の上段は皮膚に浸透した全放射能を表す。下段は真皮内に浸透した放射能量を表す。)
Table 5
Radioactivity concentration (% of dose)
─────────────────────────────
Type of preparation Normal skin Damaged skin─────────────────────────────
Formulation A 4.95 (0-880 μm) 3.35 (0-640 μm)
2.83 (121-880 μm) 2.73 (121-640 μm)
Aqueous preparation A 33.78 (0-1440 μm) 41.59 (0-2440 μm)
22.57 (121-1440 μm) 34.76 (121-2440 μm)
─────────────────────────────
(The upper part of each formulation represents the total radioactivity penetrating the skin. The lower part represents the radioactivity penetrating into the dermis.)
以上より、皮膚透過性の観点からは、水溶製剤A(アルギン酸製剤)がより好ましい。 From the above, from the viewpoint of skin permeability, water-soluble preparation A (alginic acid preparation) is more preferable.
水溶製剤Aを用いることによりNF-κB デコイ原薬必要量は従来の1/13(0.15%濃度)程度に低減できる。 By using water-soluble preparation A, the required amount of NF-κB decoy drug substance can be reduced to about 1/13 (0.15% concentration).
2.皮膚累積刺激性試験
35S- NF-κB デコイを含有する水溶製剤A(アルギン酸製剤)およびアルギン酸基剤のみを、ウサギの背部皮膚に14日間投与した時の皮膚累積刺激性を検討した。
2. Cumulative skin irritation test
Cumulative skin irritation was examined when a water-soluble preparation A containing 35 S-NF-κB decoy (alginic acid preparation) and an alginate base alone were administered to the back skin of rabbits for 14 days.
(1) 動物
背部を除毛した日本白色雌ウサギ(Kbl:JW, SPF)を北山ラベス(株)箕輪生産場より購入した。薬剤投与時の週齢は17週齢で体重は3.10〜3.74kgであった。
(1) Animal A Japanese white female rabbit (Kbl: JW, SPF) with hair removed from the back was purchased from Minowa Production Center of Kitayama Labes Co., Ltd. The age at the time of drug administration was 17 weeks and the body weight was 3.10 to 3.74 kg.
(2) 塗布部位の調製と塗布
一匹につき、正常部位を損傷部位を二箇所ずつ設け、各投与物質の例数が6匹ずつになるように投与部位を設定した。
(2) Preparation and application of application site For each animal, the normal site was provided with two damaged sites, and the administration site was set so that the number of each administered substance was six.
投与開始前日に背部の細かい毛生を電気バリカンで除去し、Draize法(Draize, J.H., et al, J. Pharmacol.Exp.Ther.,82, 377-390 (1944))に従い投与部位を4ヶ所設定した(図5参照)。点対称となる二箇所を正常皮膚とし、残りの二箇所は府川らの方法(府川和永ら、薬学雑誌 102, 89-98 (1982))に基づき、投与日にシェーバーで軽く剃毛してからセロファンテープでストリッピングして損傷皮膚とした。被験製剤A〜Dに関しては0.2gを秤取して2.5×2.5cmに裁断したリント布に均一に塗り広げて皮膚に塗布し、その上から5×5cmのテーピングテープを貼付して固定した。更に布製カバー(ストッキネット、アルケア(株))及びチューブ型ネット包帯(プレスネット、アルケア(株))を用いて被覆固定した。水溶製剤基材及び水溶製剤Aに関しては、皮膚への浸透を確認しながらピペット及びスパーテルを用いて0.2mLを投与し、その上から2.5×2.5cmに裁断したリント布及び5×5cmのテーピングテープを貼付して固定した。布製カバー及びチューブ型ネット包帯による被覆固定も同様に行った。投与終了後はリント布及びテーピングテープを除去し、投与部位を微温湯にて清拭した。 On the day before the start of administration, the fine hair on the back is removed with an electric clipper, and four administration sites are used according to the Draize method (Draize, JH, et al, J. Pharmacol. Exp. Ther., 82, 377-390 (1944)). Set (see FIG. 5). Based on the method of Fukawa et al. (Fukawa Kazunaga et al., Pharmaceutical Journal 102, 89-98 (1982)), two points that are point-symmetric are treated with normal shaving. And stripped with cellophane tape to give damaged skin. As for the test preparations A to D, 0.2 g was weighed and spread evenly on a lint cloth cut to 2.5 × 2.5 cm and applied to the skin, and a 5 × 5 cm taping tape was applied and fixed thereon. Further, the covering was fixed using a cloth cover (stocknet, ALCARE) and a tube-type net bandage (pressnet, ALCARE). With regard to the aqueous preparation base and aqueous preparation A, 0.2 mL was administered using a pipette and a spatula while confirming penetration into the skin, and then lint cloth and 5 × 5 cm taping tape cut to 2.5 × 2.5 cm from above. Was affixed and fixed. Covering and fixing with a cloth cover and a tube-type net bandage were similarly performed. After the administration was completed, the lint cloth and taping tape were removed, and the administration site was wiped with slightly warm water.
なお、投与初日にはアルギン酸基材および水溶製剤Aの投与量を0.5mLに設定して投与を開始したが、2.5×2.5cmの区画に投与することが困難であった。そこで、投与初日の途中から、投与量を投与可能な最大量である0.2gおよび0.2mLにそれぞれ変更した。動物番号1番については、投与初日にアルギン酸基材を正常皮膚および損傷皮膚ともに0.5mL、水溶製剤Aを正常皮膚に0.5mL、損傷皮膚に0.2mL投与した。他の動物には、アルギン酸基材および水溶製剤A共に、投与初日より正常皮膚および損傷皮膚のいずれにも0.2mL投与した。
On the first day of administration, administration was started with the doses of the alginate base material and the water-soluble preparation A set to 0.5 mL, but it was difficult to administer to a 2.5 × 2.5 cm compartment. Therefore, from the middle of the first day of administration, the dosage was changed to 0.2 g and 0.2 mL, which were the maximum dosages, respectively. For
(3) 刺激性の判定
毎日の投与前及び最終投与の終了時(投与物質除去1時間後)に肉眼的判定を行った。判定はDraizeの判定基準に準拠して、投与部位の紅斑(痂皮形成)及び浮腫についてそれぞれ評価した。判定結果はDraizeの判定基準に基づいたスコアで記録した。更に正常皮膚と損傷皮膚に分けて、各観察時点の紅斑(痂皮形成)、浮腫およびそれらの合計評点について平均値と標準偏差を算出した。なおスコアは、低いほど刺激性が少ないことを意味する。
(3) Determination of irritation Macroscopic determination was performed before daily administration and at the end of final administration (1 hour after removal of administered substance). Judgment was carried out in accordance with Draize's criteria for erythema (scab formation) and edema at the administration site. Judgment results were recorded as scores based on the Draize criteria. Furthermore, it was divided into normal skin and damaged skin, and the average value and standard deviation were calculated for erythema (scab formation), edema and their total score at each observation time point. The lower the score, the less irritating.
結果)アルギン酸基剤のみ(水溶製剤Aのみ)および水溶製剤A(アルギン酸製剤)はウサギの正常皮膚に対しては刺激性を示さなかった。損傷皮膚では紅斑や浮腫が発現したが、その程度は軽く、投与を継続しても回復する一過性の変化であった。(表6、図4〜5参照) Results) Alginic acid base alone (water-soluble preparation A only) and water-soluble preparation A (alginic acid preparation) did not show irritation to normal rabbit skin. Erythema and edema developed in the damaged skin, but the extent was mild, and it was a transient change that recovered even after continued administration. (See Table 6, Figs. 4-5)
高皮膚透過性でかつ低刺激性の核酸皮膚外用製剤を提供する。 Provided is a nucleic acid skin external preparation having high skin permeability and low irritation.
Claims (10)
核酸系薬剤がデコイオリゴヌクレオチド、アンチセンス、リボザイム、アプタマーまたはsiRNAであり、
該核酸系薬剤0.01〜5重量%と、
粘性多糖類としてアルギン酸ナトリウムを0.01〜10重量%、リン酸塩としてリン酸二水素ナトリウムを0.01〜10重量%および水を含む医薬組成物。 A pharmaceutical composition comprising a nucleic acid drug and a viscous polysaccharide, a phosphate and water for delivering the nucleic acid drug into cells of the dermis or epidermal tissue by transdermal absorption ,
The nucleic acid drug is a decoy oligonucleotide, antisense, ribozyme, aptamer or siRNA;
And 0.01 to 5 wt% the nucleic acid-based drugs,
A pharmaceutical composition comprising 0.01 to 10% by weight of sodium alginate as a viscous polysaccharide, 0.01 to 10% by weight of sodium dihydrogen phosphate as a phosphate and water.
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