PKM2 决定了 PFKFB3 启动子的染色质状态,从而促进了乳腺癌的进展。

NAR Cancer Pub Date : 2023-06-28 eCollection Date: 2023-09-01 DOI:10.1093/narcan/zcad032
Madhura R Pandkar, Adarsh Raveendran, Kajal Biswas, Srinivas Abhishek Mutnuru, Jharna Mishra, Atul Samaiya, Tyler Malys, Alexander Y Mitrophanov, Shyam K Sharan, Sanjeev Shukla
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引用次数: 0

摘要

缺氧环境是有氧糖酵解的一个关键调节器,但缺氧癌细胞中关键糖酵解酶之间的调节机制在很大程度上尚未被揭示。尤其是丙酮酸激酶(PKM2)的 M2 异构体,它是糖酵解的限速酶,已知在缺氧条件下具有适应性优势。在此,我们报告了非经典 PKM2 在 PFKFB3 低氧反应元件(HRE)上介导 HIF-1α 和 p300 富集,导致其上调。因此,PKM2 的缺失激活了 HIF-2α 的机会性占据,同时 PFKFB3 HREs 相关染色质也获得了静止状态。这种静止状态限制了 HIF-2α 对 PFKFB3 的诱导,同时允许其通过多种组蛋白修饰维持基础水平的表达。此外,该研究还通过证明 Shikonin 可阻断 PKM2 的核转位以抑制 PFKFB3 的表达,探讨了其临床意义。此外,TNBC 患者衍生的器官组织和 MCF7 细胞衍生的小鼠异种移植瘤在接受 Shikonin 治疗后表现出显著的生长抑制作用,凸显了靶向 PKM2 的生命力。总之,这项工作提供了关于 PKM2 在调节缺氧转录组中的贡献以及缺氧乳腺癌细胞为确保维持 PFKFB3 表达而表现出的一种之前未报道过的表观遗传策略的新见解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

PKM2 dictates the poised chromatin state of <i>PFKFB3</i> promoter to enhance breast cancer progression.

PKM2 dictates the poised chromatin state of <i>PFKFB3</i> promoter to enhance breast cancer progression.

PKM2 dictates the poised chromatin state of <i>PFKFB3</i> promoter to enhance breast cancer progression.

PKM2 dictates the poised chromatin state of PFKFB3 promoter to enhance breast cancer progression.

The hypoxic milieu is a critical modulator of aerobic glycolysis, yet the regulatory mechanisms between the key glycolytic enzymes in hypoxic cancer cells are largely unchartered. In particular, the M2 isoform of pyruvate kinase (PKM2), the rate-limiting enzyme of glycolysis, is known to confer adaptive advantages under hypoxia. Herein, we report that non-canonical PKM2 mediates HIF-1α and p300 enrichment at PFKFB3 hypoxia-responsive elements (HREs), causing its upregulation. Consequently, the absence of PKM2 activates an opportunistic occupancy of HIF-2α, along with acquisition of a poised state by PFKFB3 HREs-associated chromatin. This poised nature restricts HIF-2α from inducing PFKFB3 while permitting the maintenance of its basal-level expression by harboring multiple histone modifications. In addition, the clinical relevance of the study has been investigated by demonstrating that Shikonin blocks the nuclear translocation of PKM2 to suppress PFKFB3 expression. Furthermore, TNBC patient-derived organoids and MCF7 cells-derived xenograft tumors in mice exhibited substantial growth inhibition upon shikonin treatment, highlighting the vitality of targeting PKM2. Conclusively, this work provides novel insights into the contributions of PKM2 in modulating hypoxic transcriptome and a previously unreported poised epigenetic strategy exhibited by the hypoxic breast cancer cells for ensuring the maintenance of PFKFB3 expression.

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