膜活性阳离子肽抗癌活性的体外表征。肽介导的细胞毒性和肽增强的阿霉素对野生型和p糖蛋白过表达肿瘤细胞系的细胞毒性活性。

Anti-cancer drug design Pub Date : 2000-04-01
S A Johnstone, K Gelmon, L D Mayer, R E Hancock, M B Bally
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引用次数: 0

摘要

阳离子两性肽,如防御素和抗菌肽,通过增加细胞膜通透性诱导原核和真核细胞死亡。通透性增加可能导致细胞裂解,或者,也可能导致膜屏障功能的细微变化,从而促进细胞死亡。本研究测定了哺乳动物衍生的长螺旋阳离子短肽和昆虫衍生的α -螺旋肽的体外细胞毒和裂解活性,目的是确定这些药物的抗癌潜力。两个特定的目的是解决:(i)评估肽对非恶性细胞(羊红细胞和人脐静脉内皮细胞)和肿瘤细胞的活性;(ii)在蒽环类药物阿霉素存在和不存在的情况下,利用多药耐药肿瘤细胞系来表征细胞毒性活性。细胞裂解实验表明,所测肽的裂解活性对肿瘤细胞的细胞毒性是对非恶性细胞的2->50倍。此外,当对敏感和多药耐药细胞系进行测试时,这些肽的细胞毒活性是相同的。除了其固有的细胞毒活性外,这些膜活性肽还可以增强阿霉素对多药耐药肿瘤细胞的体外细胞毒活性。
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In vitro characterization of the anticancer activity of membrane-active cationic peptides. I. Peptide-mediated cytotoxicity and peptide-enhanced cytotoxic activity of doxorubicin against wild-type and p-glycoprotein over-expressing tumor cell lines.

Cationic amphipathic peptides, such as the defensins and cecropins, induce cell death in prokaryotic and eukaryotic cells by increasing membrane permeability. Increased permeability may lead to cell lysis or, alternatively, may produce subtle changes in the membrane's barrier function that promote cell death. The in vitro cytotoxic and lytic activity of short mammalian-derived extended-helical cationic peptides and insect-derived alpha-helical peptides was measured in this study with the objective of establishing the anticancer potential of these agents. Two specific aims were addressed: (i) to assess the activity of peptides against non-malignant cells (sheep erythrocytes and human umbilical vein endothelial cells) versus tumor cells; and (ii) to characterize the cytotoxic activity using multidrug-resistant tumor cell lines in the presence and absence of the anthracycline doxorubicin. Cell lysis assays demonstrated that the lytic activity of the peptides tested was 2->50 times more cytotoxic to tumor cells than to non-malignant cells. Further, the cytotoxic activity of these peptides was equivalent when tested against sensitive and multidrug-resistant cell lines. In addition to their inherent cytotoxic activity, these membrane-active peptides can also augment the in vitro cytotoxic activity of doxorubicin against multidrug-resistant tumor cells.

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