Mitochondrial and Cytosolic One-Carbon Metabolism Is a Targetable Metabolic Vulnerability in Cisplatin-Resistant Ovarian Cancer.

IF 5.3 2区 医学 Q1 ONCOLOGY Molecular Cancer Therapeutics Pub Date : 2024-06-04 DOI:10.1158/1535-7163.MCT-23-0550
Adrianne Wallace-Povirk, Carrie O'Connor, Aamod S Dekhne, Xun Bao, Md Junayed Nayeen, Mathew Schneider, Jade M Katinas, Jennifer Wong-Roushar, Seongho Kim, Lisa Polin, Jing Li, Jessica B Back, Charles E Dann, Aleem Gangjee, Zhanjun Hou, Larry H Matherly
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Abstract

One-carbon (C1) metabolism is compartmentalized between the cytosol and mitochondria with the mitochondrial C1 pathway as the major source of glycine and C1 units for cellular biosynthesis. Expression of mitochondrial C1 genes including SLC25A32, serine hydroxymethyl transferase (SHMT) 2, 5,10-methylene tetrahydrofolate dehydrogenase 2, and 5,10-methylene tetrahydrofolate dehydrogenase 1-like was significantly elevated in primary epithelial ovarian cancer (EOC) specimens compared with normal ovaries. 5-Substituted pyrrolo[3,2-d]pyrimidine antifolates (AGF347, AGF359, AGF362) inhibited proliferation of cisplatin-sensitive (A2780, CaOV3, IGROV1) and cisplatin-resistant (A2780-E80, SKOV3) EOC cells. In SKOV3 and A2780-E80 cells, colony formation was inhibited. AGF347 induced apoptosis in SKOV3 cells. In IGROV1 cells, AGF347 was transported by folate receptor (FR) α. AGF347 was also transported into IGROV1 and SKOV3 cells by the proton-coupled folate transporter (SLC46A1) and the reduced folate carrier (SLC19A1). AGF347 accumulated to high levels in the cytosol and mitochondria of SKOV3 cells. By targeted metabolomics with [2,3,3-2H]L-serine, AGF347, AGF359, and AGF362 inhibited SHMT2 in the mitochondria. In the cytosol, SHMT1 and de novo purine biosynthesis (i.e., glycinamide ribonucleotide formyltransferase, 5-aminoimidazole-4-carboxamide ribonucleotide formyltransferase) were targeted; AGF359 also inhibited thymidylate synthase. Antifolate treatments of SKOV3 cells depleted cellular glycine, mitochondrial NADH and glutathione, and showed synergistic in vitro inhibition toward SKOV3 and A2780-E80 cells when combined with cisplatin. In vivo studies with subcutaneous SKOV3 EOC xenografts in SCID mice confirmed significant antitumor efficacy of AGF347. Collectively, our studies demonstrate a unique metabolic vulnerability in EOC involving mitochondrial and cytosolic C1 metabolism, which offers a promising new platform for therapy.

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线粒体和细胞膜一碳代谢是顺铂耐药卵巢癌的一个可靶向代谢漏洞。
一碳(C1)代谢在细胞质和线粒体之间分区,线粒体 C1 途径是细胞生物合成中甘氨酸和 C1 单位的主要来源。与正常卵巢相比,原发性上皮性卵巢癌(EOC)标本中线粒体 C1 基因(包括 SLC25A32、丝氨酸羟甲基转移酶(SHMT)2、5,10-亚甲基四氢叶酸脱氢酶 2 和 5,10-亚甲基四氢叶酸脱氢酶 1-like)的表达明显升高。5-取代吡咯并[3,2-d]嘧啶类抗酚类化合物(AGF347、AGF359、AGF362)可抑制顺铂敏感型(A2780、CaOV3、IGROV1)和耐药型(A2780-E80、SKOV3)EOC细胞的增殖。在 SKOV3 和 A2780-E80 细胞中,集落形成受到抑制。AGF347 可诱导 SKOV3 细胞凋亡。在 IGROV1 细胞中,AGF347 通过叶酸受体(FR)α 转运。AGF347 还通过质子偶联叶酸转运体(SLC46A1)和还原叶酸载体(SLC19A1)转运到 IGROV1 和 SKOV3 细胞中。AGF347 在 SKOV3 细胞的细胞质和线粒体中积累到很高的水平。通过使用[2,3,3-2H]L-丝氨酸进行靶向代谢组学研究,AGF347、AGF359 和 AGF362 抑制了线粒体中的 SHMT2。在细胞质中,SHMT1 和新嘌呤生物合成(即甘氨酰胺核糖核苷酸酰基转移酶、5-氨基咪唑-4-甲酰胺核糖核苷酸酰基转移酶)是靶标;AGF359 还能抑制胸苷酸合成酶。对 SKOV3 细胞进行抗叶酸处理会耗尽细胞中的甘氨酸、线粒体 NADH 和谷胱甘肽,与顺铂联合使用时对 SKOV3 和 A2780-E80 细胞有协同抑制作用。用 SCID 小鼠皮下 SKOV3 EOC 异种移植物进行的体内研究证实,AGF347 具有显著的抗肿瘤疗效。总之,我们的研究证明了 EOC 独特的代谢脆弱性,涉及线粒体和细胞质 C1 代谢,为治疗提供了一个前景广阔的新平台。
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来源期刊
CiteScore
11.20
自引率
1.80%
发文量
331
审稿时长
3 months
期刊介绍: Molecular Cancer Therapeutics will focus on basic research that has implications for cancer therapeutics in the following areas: Experimental Cancer Therapeutics, Identification of Molecular Targets, Targets for Chemoprevention, New Models, Cancer Chemistry and Drug Discovery, Molecular and Cellular Pharmacology, Molecular Classification of Tumors, and Bioinformatics and Computational Molecular Biology. The journal provides a publication forum for these emerging disciplines that is focused specifically on cancer research. Papers are stringently reviewed and only those that report results of novel, timely, and significant research and meet high standards of scientific merit will be accepted for publication.
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