一种噁二唑衍生物在二维和三维培养的石川和胡维克细胞中的抗癌、抗迁移和抗血管生成作用的研究;体外和硅学研究

Muhammet Volkan Bülbül, Arif Mermer, Fatih Kocabaş, Mervenur Kalender, Bircan Kolbaşı Erkan, Ilknur Keskin
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摘要

导言:治疗转移性子宫内膜癌的方法多种多样。然而,预后普遍不佳。因此,人们希望新的抗癌剂能显示出防止转移的潜力,以及对癌细胞活力的影响。在体外条件下,石川细胞系代表子宫内膜腺癌,Huvec 细胞系代表人脐静脉内皮细胞。噁二唑衍生物具有抗癌和抗血管生成的特性,可能是治疗子宫内膜癌的有前途的新药物:本研究旨在考察 5-[(4-苯基哌嗪-1-基)甲基]-1,3,4-恶二唑-2-硫醇(FP-Oxa)对石川和 Huvec 共培养细胞的抗癌、抗迁移和抗血管生成作用:对 FP-Oxa 进行了分子对接、ADME 和毒性分析。通过 MTT 分析评估了对 HUVEC 和石川细胞二维和三维单培养模型和共培养模型活力的影响,并计算了 IC50 值。通过伤口愈合试验确定了对二维培养细胞迁移的影响。免疫荧光染色法评估了三维共培养模型中 VEGF 表达的变化:硅学分析结果表明,FP-Oxa 在口服生物利用度范围内,具有 4 级毒性,并通过与 VEGR2 结合具有抑制潜力。FP-Oxa能明显抑制二维培养的石川细胞的迁移,但在Huvec细胞和共培养细胞中的效果却不尽相同。结论:FP-Oxa可能具有多种治疗作用:结论:FP-Oxa 对子宫内膜腺癌细胞可能有多种治疗作用。结论:FP-Oxa 对子宫内膜腺癌细胞可能有多种治疗作用,在模拟不同类型癌细胞形成的肿瘤结构的三维模型中进行生物活性研究非常重要。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Investigation of the anticancer, antimigration and antiangiogenesis effects of an oxadiazole derivative in two- and three-dimensional cultured Ishikawa and Huvec cells; in vitro and in silico studies
Introduction: There are various methods used in cases of metastatic endometrial cancer. However, the prognosis is generally poor. Therefore, new anticancer agents are expected to exhibit the potential to prevent metastasis, as well as their effects on the viability of cancer cells. In in vitro conditions, the Ishikawa cell line represents endometrial adenocarcinoma and the Huvec cell line represents human umbilical vein endothelial cells. Oxadiazole derivatives may be promising new agents for endometrial cancer treatments by exhibiting anticancer and antiangiogenic properties. Objective: The aim of this study was to examine the anticancer, antimigration and antiangiogenic effects of 5-[(4-Phenylpiperazine-1-yl)methyl]-1,3,4-oxadiazol-2-thiol (FP-Oxa) on co-cultured Ishikawa and Huvec cells. Materials and Methods: In silico molecular docking, ADME and toxicity analyzes were performed for FP-Oxa. The effect on the viability of two- and three-dimensional mono- and co-culture models created with HUVEC and Ishikawa cells was evaluated by MTT analysis and IC50 values were calculated. The effect on the migration of two-dimensional cultured cells was determined by wound healing assay. Changes in VEGF expression in three-dimensional co-culture models were evaluated by immunofluorescence staining. Results: As a result of in silico analyses, it was determined that FP-Oxa was within the oral bioavailability limits, exhibited class 4 toxicity, and had inhibition potential by binding to VEGR2. While FP-Oxa clearly inhibited migration in two-dimensionally cultured Ishikawa cells, it did not show the same level of success in Huvec and co-cultured cells. It was effective in reducing VEGF expression in three-dimensional co-cultures. Conclusion: FP-Oxa may have various therapeutic effects on endometrial adenocarcinoma cells. It will be important to conduct biological activity studies in three-dimensional models that mimic the tumor structure created with different types of cancer cells.
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