4-Octyl Itaconate Attenuates Cell Proliferation by Cellular Senescence via Glutathione Metabolism Disorders and Mitochondrial Dysfunction in Melanoma

衰老 谷胱甘肽 细胞生长 新陈代谢 线粒体 细胞生物学 化学 细胞 细胞衰老 细胞代谢 黑色素瘤 细胞代谢 癌症研究 生物化学 生物 表型 基因
作者
Yoshikazu Hayashi,Ayaka Saeki,Shohei Yoshimoto,Ena Yano,Atsushi Yasukochi,Soi Kimura,T. Utsunomiya,K Minami,Yuji Aso,Yuji Hatakeyama,Yi-Chen Lo,Masato Hirata,Eijiro Jimi,Tomoyo Kawakubo‐Yasukochi
出处
期刊:Antioxidants & Redox Signaling [Mary Ann Liebert, Inc.]
卷期号:42 (10-12): 547-565 被引量:3
标识
DOI:10.1089/ars.2024.0629
摘要

Aims: Itaconate (IA) is synthesized in the citric acid cycle via cis-aconitate decarboxylase (ACOD1); however, its biological significance in cancer remains incompletely understood. In previous studies, 4-octyl itaconate (OI) was used as a membrane-permeable form of IA, but little detailed verification of the difference in biological activities between IA and OI exists. Here, we investigated the direct effects of IA and OI on melanoma. Results: The proliferation of melanoma cells treated with OI was significantly suppressed in vitro, and our transcriptomic analysis revealed drastic changes in the expression of glutathione metabolism-related genes in OI-treated cells. Indeed, OI treatment decreased intracellular glutathione levels, followed by increased production of reactive oxygen species and expression of γH2AX, a marker of DNA damage, and β-galactosidase, a marker of cellular senescence. We further showed that the mitochondrial respiratory capacity in B16 cells was significantly decreased by OI treatment. OI administration also suppressed the growth of B16 tumor transplants in vivo, and the expression of γH2AX was increased in tumor tissues of OI-treated mice. In addition, minimal effects of OI treatment were observed in melanocytes and normal tissues. We also proved that not only exogenous IA, which enters intracellularly, but also endogenous IA has little effect on melanoma proliferation activity, via an investigation using Acod1-overexpressing transfectants and Acod1-deficient mice. Conclusion: This work revealed that OI disrupts the antioxidant system via the collapse of glutathione metabolism and inhibits cancer cell proliferation. Antioxid. Redox Signal. 42, 547-565.
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