Mechanisms of Sorafenib Resistance in HCC Culture Relate to the Impaired Membrane Expression of Organic Cation Transporter 1 (OCT1).

IF 4.2 3区医学 Q2 ONCOLOGY Journal of Hepatocellular Carcinoma Pub Date : 2024-05-09 eCollection Date: 2024-01-01 DOI:10.2147/JHC.S452152

Srinivas Chava, Nergiz Ekmen, Pauline Ferraris, Yucel Aydin, Krzysztof Moroz, Tong Wu, Swan N Thung, Srikanta Dash

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Abstract

Introduction: Sorafenib, an FDA-approved drug for advanced hepatocellular carcinoma (HCC) treatment, encounters resistance in many patients. Deciphering the mechanisms underlying sorafenib resistance is crucial for devising alternative strategies to overcome it.

Aim: This study aimed to investigate sorafenib resistance mechanisms using a diverse panel of HCC cell lines.

Methods: HCC cell lines were subjected to continuous sorafenib treatment, and stable cell lines (Huh 7.5 and Huh 7PX) exhibiting sustained growth in its presence were isolated. The investigation of drug resistance mechanisms involved a comparative analysis of drug-targeted signal transduction pathways (EGFR/RAF/MEK/ERK/Cyclin D), sorafenib uptake, and membrane expression of the drug uptake transporter.

Results: HCC cell lines (Huh 7.5 and Huh 7PX) with a higher IC50 (10μM) displayed a more frequent development of sorafenib resistance compared to those with a lower IC50 (2-4.8μM), indicating a potential impact of IC50 variation on initial treatment response. Our findings reveal that activated overexpression of Raf1 kinases and impaired sorafenib uptake, mediated by reduced membrane expression of organic cation transporter-1 (OCT1), contribute to sorafenib resistance in HCC cultures. Stable expression of the drug transporter OCT1 through cDNA transfection or adenoviral delivery of OCT1 mRNA increased sorafenib uptake and successfully overcame sorafenib resistance. Additionally, consistent with sorafenib resistance in HCC cultures, cirrhotic liver-associated human HCC tumors often exhibited impaired membrane expression of OCT1 and OCT3.

Conclusion: Intrinsic differences among HCC cell clones, affecting sorafenib sensitivity at the expression level of Raf kinases, drug uptake, and OCT1 transporters, were identified. This study underscores the potential of HCC tumor targeted OCT1 expression to enhance sorafenib treatment response.

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有机阳离子转运体 1 (OCT1) 膜表达受损与 HCC 培养液中索拉非尼抗性的机制有关。

简介索拉非尼（Sorafenib）是美国食品和药物管理局（FDA）批准用于晚期肝细胞癌（HCC）治疗的药物，但在许多患者中遇到了耐药性。目的：本研究旨在利用一组不同的 HCC 细胞系研究索拉非尼的耐药机制。方法：对 HCC 细胞系进行持续的索拉非尼治疗，并分离出在索拉非尼作用下表现出持续生长的稳定细胞系（Huh 7.5 和 Huh 7PX）。耐药机制的研究包括对药物靶向信号转导通路（表皮生长因子受体/癌胚抗原/MEK/ERK/环素D）、索拉非尼吸收和药物吸收转运体膜表达的比较分析：结果：与IC50较低（2-4.8μM）的HCC细胞系相比，IC50较高（10μM）的HCC细胞系（Huh 7.5和Huh 7PX）更容易产生索拉非尼耐药性，这表明IC50的变化对初始治疗反应有潜在影响。我们的研究结果表明，Raf1激酶的活化过度表达和有机阳离子转运体-1（OCT1）膜表达减少导致的索拉非尼摄取障碍，是导致HCC培养物产生索拉非尼耐药性的原因。通过 cDNA 转染或腺病毒递送 OCT1 mRNA 使药物转运体 OCT1 稳定表达，增加了索拉非尼的吸收，成功克服了索拉非尼耐药性。此外，与HCC培养物中的索拉非尼耐药性一致，肝硬化相关人类HCC肿瘤通常表现出OCT1和OCT3膜表达受损：结论：研究发现了HCC细胞克隆之间的内在差异，这些差异会在Raf激酶、药物吸收和OCT1转运体的表达水平上影响索拉非尼的敏感性。这项研究强调了 HCC 肿瘤靶向 OCT1 表达增强索拉非尼治疗反应的潜力。

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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