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RNAi 筛选揭示了癌细胞中 ATP 合酶和 PFK1 之间的一种合成的化学生物遗传相互作用。

RNAi screening reveals a synthetic chemical-genetic interaction between ATP synthase and PFK1 in cancer cells.

机构信息

Seed Compounds Exploratory Unit for Drug Discovery Platform, RIKEN Center for Sustainable Resource Science, Saitama, Japan.

Laboratory of Oncology, School of Life Sciences, Tokyo University of Pharmacy and Life Sciences, Tokyo, Japan.

出版信息

Cancer Sci. 2023 Apr;114(4):1663-1671. doi: 10.1111/cas.15713. Epub 2023 Jan 24.

DOI:10.1111/cas.15713
PMID:36601784
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10067418/
Abstract

To meet cellular bioenergetic and biosynthetic demands, cancer cells remodel their metabolism to increase glycolytic flux, a phenomenon known as the Warburg effect and believed to contribute to cancer malignancy. Among glycolytic enzymes, phosphofructokinase-1 (PFK1) has been shown to act as a rate-limiting enzyme and to facilitate the Warburg effect in cancer cells. In this study, however, we found that decreased PFK1 activity did not affect cell survival or proliferation in cancer cells. This raised a question regarding the importance of PFK1 in malignancy. To gain insights into the role of PFK1 in cancer metabolism and the possibility of adopting it as a novel anticancer therapeutic target, we screened for genes that caused lethality when they were knocked down in the presence of tryptolinamide (TLAM), a PFK1 inhibitor. The screen revealed a synthetic chemical-genetic interaction between genes encoding subunits of ATP synthase (complex V) and TLAM. Indeed, after TLAM treatment, the sensitivity of HeLa cells to oligomycin A (OMA), an ATP synthase inhibitor, was 13,000 times higher than that of untreated cells. Furthermore, this sensitivity potentiation by TLAM treatment was recapitulated by genetic mutations of PFK1. By contrast, TLAM did not potentiate the sensitivity of normal fibroblast cell lines to OMA, possibly due to their reduced energy demands compared to cancer cells. We also showed that the PFK1-mediated glycolytic pathway can act as an energy reservoir. Selective potentiation of the efficacy of ATP synthase inhibitors by PFK1 inhibition may serve as a foundation for novel anticancer therapeutic strategies.

摘要

为了满足细胞的生物能量学和生物合成需求,癌细胞重塑其代谢以增加糖酵解通量,这种现象被称为沃伯格效应,被认为有助于癌症的恶性程度。在糖酵解酶中,磷酸果糖激酶-1(PFK1)已被证明作为限速酶,促进癌细胞中的沃伯格效应。然而,在本研究中,我们发现降低 PFK1 活性不会影响癌细胞的存活或增殖。这就提出了一个关于 PFK1 在恶性肿瘤中的重要性的问题。为了深入了解 PFK1 在癌症代谢中的作用以及将其作为新型抗癌治疗靶点的可能性,我们筛选了在存在 PFK1 抑制剂色氨酸酰胺(TLAM)时被敲低会导致致死的基因。该筛选揭示了编码 ATP 合酶(复合物 V)亚基的基因与 TLAM 之间存在合成的化学生物遗传相互作用。事实上,TLAM 处理后,HeLa 细胞对三磷酸腺苷合酶抑制剂寡霉素 A(OMA)的敏感性比未经处理的细胞高 13000 倍。此外,TLAM 处理通过 PFK1 基因的遗传突变可再现这种敏感性增强。相比之下,TLAM 不会增强正常成纤维细胞系对 OMA 的敏感性,这可能是由于与癌细胞相比,它们的能量需求降低。我们还表明,PFK1 介导的糖酵解途径可以作为能量储备。PFK1 抑制选择性增强 ATP 合酶抑制剂的疗效可能为新型抗癌治疗策略奠定基础。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4ec5/10067418/ac2bc1d295b2/CAS-114-1663-g005.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4ec5/10067418/ac2bc1d295b2/CAS-114-1663-g005.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4ec5/10067418/5f04a9693a54/CAS-114-1663-g003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4ec5/10067418/bd1428fb51d6/CAS-114-1663-g006.jpg
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