Structural and molecular characterization of lopinavir and ivermectin as breast cancer resistance protein (BCRP/ABCG2) inhibitors.

IF 3.8 3区 生物学 Q1 BIOLOGY
EXCLI Journal Pub Date : 2023-11-14 eCollection Date: 2023-01-01 DOI:10.17179/excli2023-6427
Julia de Paula Dutra, Gustavo Scheiffer, Thales Kronenberger, Lucas Julian Cruz Gomes, Isadora Zanzarini, Kelly Karoline Dos Santos, Arun K Tonduru, Antti Poso, Fabiane Gomes de Moraes Rego, Geraldo Picheth, Glaucio Valdameri, Vivian Rotuno Moure
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引用次数: 0

Abstract

A current clinical challenge in cancer is multidrug resistance (MDR) mediated by ABC transporters. Breast cancer resistance protein (BCRP) or ABCG2 transporter is one of the most important ABC transporters implicated in MDR and the use of inhibitors is a promising approach to overcome the resistance in cancer. This study aimed to characterize the molecular mechanism of ABCG2 inhibitors identified by a repurposing drug strategy using antiviral, anti-inflammatory and antiparasitic agents. Lopinavir and ivermectin can be considered as pan-inhibitors of ABC transporters, since both compounds inhibited ABCG2, P-glycoprotein and MRP1. They inhibited ABCG2 activity showing IC50 values of 25.5 and 23.4 µM, respectively. These drugs were highly cytotoxic and not transported by ABCG2. Additionally, these drugs increased the 5D3 antibody binding and did not affect the mRNA and protein expression levels. Cell-based analysis of the type of inhibition suggested a non-competitive inhibition, which was further corroborated by in silico approaches of molecular docking and molecular dynamics simulations. These results showed an overlap of the lopinavir and ivermectin binding sites on ABCG2, mainly interacting with E446 residue. However, the substrate mitoxantrone occupies a different site, binding to the F436 region, closer to the L554/L555 plug. In conclusion, these results revealed the mechanistic basis of lopinavir and ivermectin interaction with ABCG2. See also the Graphical abstract(Fig. 1).

作为乳腺癌抗性蛋白(BCRP/ABCG2)抑制剂的洛匹那韦和依维菌素的结构和分子特征。
癌症目前面临的一个临床挑战是由 ABC 转运体介导的多药耐药性(MDR)。乳腺癌耐药蛋白(BCRP)或ABCG2转运体是与MDR有关的最重要的ABC转运体之一,使用抑制剂是克服癌症耐药性的一种很有前景的方法。本研究旨在通过使用抗病毒、抗炎和抗寄生虫药物的再利用药物策略来鉴定 ABCG2 抑制剂的分子机制。洛匹那韦和伊维菌素可被视为ABC转运体的泛抑制剂,因为这两种化合物都能抑制ABCG2、P-糖蛋白和MRP1。它们抑制 ABCG2 活性的 IC50 值分别为 25.5 和 23.4 µM。这些药物具有很强的细胞毒性,不能通过 ABCG2 转运。此外,这些药物增加了 5D3 抗体的结合力,但不影响 mRNA 和蛋白质的表达水平。基于细胞的抑制类型分析表明这是一种非竞争性抑制,分子对接和分子动力学模拟等硅学方法进一步证实了这一点。这些结果表明,洛匹那韦和伊维菌素在ABCG2上的结合位点存在重叠,主要与E446残基相互作用。然而,底物米托蒽醌占据了不同的位点,它与 F436 区结合,更靠近 L554/L555 插体。总之,这些结果揭示了洛匹那韦和伊维菌素与ABCG2相互作用的机理基础。另见图表摘要(图 1)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
EXCLI Journal
EXCLI Journal BIOLOGY-
CiteScore
8.00
自引率
2.20%
发文量
65
审稿时长
6-12 weeks
期刊介绍: EXCLI Journal publishes original research reports, authoritative reviews and case reports of experimental and clinical sciences. The journal is particularly keen to keep a broad view of science and technology, and therefore welcomes papers which bridge disciplines and may not suit the narrow specialism of other journals. Although the general emphasis is on biological sciences, studies from the following fields are explicitly encouraged (alphabetical order): aging research, behavioral sciences, biochemistry, cell biology, chemistry including analytical chemistry, clinical and preclinical studies, drug development, environmental health, ergonomics, forensic medicine, genetics, hepatology and gastroenterology, immunology, neurosciences, occupational medicine, oncology and cancer research, pharmacology, proteomics, psychiatric research, psychology, systems biology, toxicology
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