Isenberg J S, Jia Y, Field L, Ridnour L A, Sparatore A, Del Soldato P, Sowers A L, Yeh G C, Moody T W, Wink D A, Ramchandran R, Roberts D D
Laboratory of Pathology, National Cancer Institute, National Institutes of Health, Bethesda, MD 20892-1500, USA.
Br J Pharmacol. 2007 May;151(1):63-72. doi: 10.1038/sj.bjp.0707198. Epub 2007 Mar 12.
Angiogenesis involves multiple signaling pathways that must be considered when developing agents to modulate pathological angiogenesis. Because both cyclooxygenase inhibitors and dithioles have demonstrated anti-angiogenic properties, we investigated the activities of a new class of anti-inflammatory drugs containing dithiolethione moieties (S-NSAIDs) and S-valproate.
Anti-angiogenic activities of S-NSAIDS, S-valproate, and the respective parent compounds were assessed using umbilical vein endothelial cells, muscle and tumor tissue explant angiogenesis assays, and developmental angiogenesis in Fli:EGFP transgenic zebrafish embryos.
Dithiolethione derivatives of diclofenac, valproate, and sulindac inhibited endothelial cell proliferation and induced Ser(78) phosphorylation of hsp27, a known molecular target of anti-angiogenic signaling. The parent drugs lacked this activity, but dithiolethiones were active at comparable concentrations. Although dithiolethiones can potentially release hydrogen sulphide, NaSH did not reproduce some activities of the S-NSAIDs, indicating that the dithioles regulate angiogenesis through mechanisms other than release of H(2)S. In contrast to the parent drugs, S-NSAIDs, S-valproate, NaSH, and dithiolethiones were potent inhibitors of angiogenic responses in muscle and HT29 tumor explants assessed by 3-dimensional collagen matrix assays. Dithiolethiones and valproic acid were also potent inhibitors of developmental angiogenesis in zebrafish embryos, but the S-NSAIDs, remarkably, lacked this activity.
S-NSAIDs and S-valproate have potent anti-angiogenic activities mediated by their dithiole moieties. The novel properties of S-NSAIDs and S-valproate to inhibit pathological versus developmental angiogenesis suggest that these agents may have a role in cancer treatment.
血管生成涉及多种信号通路,在开发调节病理性血管生成的药物时必须予以考虑。由于环氧化酶抑制剂和二硫醇均已显示出抗血管生成特性,我们研究了一类含有二硫代硫酮基团的新型抗炎药物(S-非甾体抗炎药)和S-丙戊酸盐的活性。
使用脐静脉内皮细胞、肌肉和肿瘤组织外植体血管生成试验以及Fli:EGFP转基因斑马鱼胚胎中的发育血管生成,评估S-非甾体抗炎药、S-丙戊酸盐及其各自母体化合物的抗血管生成活性。
双氯芬酸、丙戊酸盐和舒林酸的二硫代硫酮衍生物抑制内皮细胞增殖,并诱导hsp27的Ser(78)磷酸化,hsp27是抗血管生成信号的已知分子靶点。母体药物缺乏这种活性,但二硫代硫酮在相当的浓度下具有活性。尽管二硫代硫酮可能潜在地释放硫化氢,但NaSH并未重现S-非甾体抗炎药的某些活性,这表明二硫醇通过释放H(2)S以外的机制调节血管生成。与母体药物不同,通过三维胶原基质试验评估,S-非甾体抗炎药、S-丙戊酸盐、NaSH和二硫代硫酮是肌肉和HT29肿瘤外植体中血管生成反应的有效抑制剂。二硫代硫酮和丙戊酸也是斑马鱼胚胎中发育血管生成的有效抑制剂,但值得注意的是,S-非甾体抗炎药缺乏这种活性。
S-非甾体抗炎药和S-丙戊酸盐具有由其二硫醇部分介导的强大抗血管生成活性。S-非甾体抗炎药和S-丙戊酸盐抑制病理性与发育性血管生成的新特性表明,这些药物可能在癌症治疗中发挥作用。