Downregulation and inhibition of TRPM2 calcium channel prevent oxidative stress-induced endothelial dysfunction in the EA.hy926 endothelial cells model - Preliminary studies.

IF 2.5 4区医学 Q3 MEDICINE, RESEARCH & EXPERIMENTAL Advances in medical sciences Pub Date : 2025-01-06 DOI:10.1016/j.advms.2025.01.002

Wioletta Arendt, Klaudia Piekarska, Marta Hałas-Wiśniewska, Magdalena Izdebska, Alina Grzanka, Maciej Gagat

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Abstract

Purpose: Proper functioning of the endothelial barrier is crucial for cardiovascular system homeostasis. Oxidative stress can lead to endothelial dysfunction (ED), damaging lipids, proteins, and DNA. Reactive oxygen species also increase cytoplasmic Ca²⁺ levels, activating transient receptor potential melastatin 2 (TRPM2), a membrane non-selective calcium channel. The study aimed to assess TRPM2's significance in vascular endothelial cells' response to oxidative stress and the potential use of TRPM2 direct and indirect inhibitors in the prevention of oxidative stress-induced ED.

Materials and methods: EA.hy926 endothelial cells were exposed to hydrogen peroxide for 24 h to mimic oxidative stress conditions. To assess the significance of TRPM2 in the response of EA.hy926 cells to hydrogen peroxide TRPM2 siRNA as well as direct (N-(p-Amylcinnamoyl)anthranilic acid, flufenamic acid) and indirect (3-aminobenzamide, 3,4-dihydro-5[4-(1-piperidinyl)butyl]-1(2H)-isoquinolinone) TRPM2 inhibitors were tested.

Results: Results showed that hydrogen peroxide-induced ED is alleviated by TRPM2 downregulation. Moreover, preincubation of cells with both direct and indirect TRPM2 inhibitors for 30 min before hydrogen peroxide treatment reduces its negative effects on cell viability, cell migration, and junctional proteins.

Conclusions: The obtained results suggest that TRPM2 channel may be a potential target in therapy and prevention of cardiovascular diseases connected with oxidative stress-induced ED. However, further research is needed for clinical applications of direct and indirect TRPM2 inhibitors.

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下调和抑制TRPM2钙通道可预防EA.hy926内皮细胞模型中氧化应激诱导的内皮功能障碍——初步研究

目的：内皮屏障的正常功能对心血管系统的稳态至关重要。氧化应激可导致内皮功能障碍（ED），损害脂质、蛋白质和DNA。活性氧也增加细胞质Ca2+水平，激活瞬时受体电位美拉抑素2 (TRPM2)，这是一种膜非选择性钙通道。本研究旨在评估TRPM2在血管内皮细胞对氧化应激反应中的意义，以及TRPM2直接和间接抑制剂在预防氧化应激诱导ed中的潜在应用。材料和方法：将EA.hy926内皮细胞暴露在过氧化氢环境中24小时，模拟氧化应激条件。为了评估TRPM2在EA.hy926细胞对过氧化氢TRPM2 siRNA以及直接（N-（对氨基肉桂基）苯甲酸、氟芬那酸）和间接（3-氨基苯甲酰胺、3,4-二氢-5[4-（1-哌替啶基）丁基]-1(2H)-异喹啉酮）TRPM2抑制剂反应中的意义。结果：过氧化氢诱导的ED可通过下调TRPM2得到缓解。此外，在过氧化氢处理前，将细胞与直接和间接TRPM2抑制剂一起预孵养30分钟，可以减少其对细胞活力、细胞迁移和连接蛋白的负面影响。结论：上述结果提示TRPM2通道可能是治疗和预防氧化应激性ED相关心血管疾病的潜在靶点，但TRPM2直接和间接抑制剂的临床应用还需进一步研究。

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

Advances in medical sciences 医学-医学：研究与实验

CiteScore

5.00

自引率

0.00%

发文量

审稿时长

25 days

期刊介绍： Advances in Medical Sciences is an international, peer-reviewed journal that welcomes original research articles and reviews on current advances in life sciences, preclinical and clinical medicine, and related disciplines. The Journal’s primary aim is to make every effort to contribute to progress in medical sciences. The strive is to bridge laboratory and clinical settings with cutting edge research findings and new developments. Advances in Medical Sciences publishes articles which bring novel insights into diagnostic and molecular imaging, offering essential prior knowledge for diagnosis and treatment indispensable in all areas of medical sciences. It also publishes articles on pathological sciences giving foundation knowledge on the overall study of human diseases. Through its publications Advances in Medical Sciences also stresses the importance of pharmaceutical sciences as a rapidly and ever expanding area of research on drug design, development, action and evaluation contributing significantly to a variety of scientific disciplines. The journal welcomes submissions from the following disciplines: General and internal medicine, Cancer research, Genetics, Endocrinology, Gastroenterology, Cardiology and Cardiovascular Medicine, Immunology and Allergy, Pathology and Forensic Medicine, Cell and molecular Biology, Haematology, Biochemistry, Clinical and Experimental Pathology.