脂质体中含三唑的秋水仙碱类似物的亲脂性前药:对人肿瘤细胞的生物学效应。

Bioorganicheskaia khimiia Pub Date : 2013-09-01
N R Kuznetsova, E V Svirshchevskaya, N S Sitnikov, L Abodo, H Sutorius, J Zapke, J Velder, P Thomopoulou, H Oschkinat, A Prokop, H G Schmalz, A Yu Fedorov, E L Vodovozova
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引用次数: 0

摘要

秋水仙碱位点结合剂——微管蛋白聚合的阻滞剂——是抗癌治疗中潜在的抗有丝分裂药物。为了减少其全身毒性和改善生物分布,可以采用纳米脂质体包封。脂质体是制备可注射的疏水化合物制剂的一种方便方法,然而秋水仙碱这样的物质已知会通过脂质双分子层泄漏。在这项研究中,新合成的含三唑的秋水仙碱和异秋水仙碱类似物及其棕榈酸酯和油酸酯(亲脂前药)进行了抗增殖活性和细胞凋亡诱导潜能的测试。与秋水仙碱缀合物相比,其活性与秋水仙碱的活性相差不大,而秋水仙碱衍生物的活性明显降低,因此被废弃。采用标准挤压法制备了卵磷脂酰胆碱-酵母磷脂酰肌醇-棕榈酸或油酸前药(按摩尔比为8:1:1)组成的直径约为100nm的脂质体,并在4个人肿瘤细胞系的平板上进行了测试。脂质体制剂保留了亲本类秋水仙素对人上皮肿瘤细胞的生物活性。此外,脂质体形式的含油基类秋水仙素比游离亲脂前药更有效地抑制细胞增殖。由于脂质体的大量负载能力,分散体含有足够浓度的活性剂,可以在动物全身给药实验中测试大剂量范围。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Lipophilic prodrugs of a triazole-containing colchicine analogue in liposomes: biological effects on human tumor cells.

Colchicine site binders--blockers of tubulin polymerization--are potential antimitotic agents for anticancer therapy. To reduce their systemic toxicity and improve biodistribution, encapsulation in nanosized liposomes may be employed. Liposomes present a convenient means for preparation of injectable formulations of hydrophobic compounds, however colchicine as such is known to leak through the lipid bilayer. In this study, newly synthesized triazole-containing analogues of colchicine and allocolchicine, and their palmitic and oleic esters (lipophilic prodrugs) were tested for anti-proliferative activity and apoptosis-inducing potential. In contrast to colchicine conjugates, whose activities ranged with those of colchicine, allocolchicine derivatives exhibited drastically lower effects and were discarded. Liposomes of about 100 nm in diameter composed of egg phosphatidylcholine--yeast phosphatidylinositol--palmitic or oleic prodrug, 8 : 1: 1, by mol, were prepared by standard extrusion technique and tested in a panel of four human tumor cell lines. Liposome formulations preserved the biological activities of the parent colchicinoid the most towards human epithelial tumor cells. Moreover, liposomal form of the oleoyl bearing colchicinoid inhibited cell proliferation more efficiently than free lipophilic prodrug. Due to substantial loading capacity of the liposomes, the dispersions contain sufficient concentration of the active agent to test wide dose range in experiments on systemic administration to animals.

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