HIF1α/ATF3 partake in PGK1 K191/K192 succinylation by modulating P4HA1/succinate signaling in glioblastoma.

IF 16.4 1区医学 Q1 CLINICAL NEUROLOGY

Neuro-oncology Pub Date : 2024-08-05 DOI:10.1093/neuonc/noae040

Shixue Yang, Qi Zhan, Dongyuan Su, Xiaoteng Cui, Jixing Zhao, Qixue Wang, Biao Hong, Jiasheng Ju, Chunchao Cheng, Eryan Yang, Chunsheng Kang

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引用次数: 0

Abstract

Background: Hypoxia is a pathological hallmark in most cancers, including glioblastoma (GBM). Hypoxic signaling activation and post-translational modification (PTM) of oncogenic proteins are well-studied in cancers. Accumulating studies indicate glycolytic enzyme PGK1 plays a crucial role in tumorigenesis, yet the underlying mechanisms remain unknown.

Methods: We first used ChIP assays to uncover the crosstalk between HIF1α and ATF3 and their roles in P4HA1 regulation. Protein degradation analysis, LC-MS/MS, and in vitro succinate production assays were performed to examine the effect of protein succinylation on GBM pathology. Seahorse assay measured the effects of PGK1 succinylation at K191/K192 or its mutants on glucose metabolism. We utilized an in vivo intracranial mouse model for biochemical studies to elucidate the impact of ATF3 and P4HA1 on aerobic glycolysis and the tumor immune microenvironment.

Results: We demonstrated that HIF1α and ATF3 positively and negatively regulate the transcription of P4HA1, respectively, leading to an increased succinate production and increased activation of HIF1α signaling. P4HA1 expression elevated the succinate concentration, resulting in the enhanced succinylation of PGK1 at the K191 and K192 sites. Inhibition of proteasomal degradation of PGK1 by succinylation significantly increased aerobic glycolysis to generate lactate. Furthermore, ATF3 overexpression and P4HA1 knockdown reduced succinate and lactate levels in GBM cells, inhibiting immune responses and tumor growth.

Conclusions: Together, our study demonstrates that HIF1α/ATF3 participated in P4HA1/succinate signaling, which is the major regulator of succinate biosynthesis and PGK1 succinylation at K191 and K192 sites in GBM. The P4HA1/succinate pathway might be a novel and promising target for aerobic glycolysis in GBM.

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在胶质母细胞瘤中，HIF1α/ATF3通过调节P4HA1/琥珀酸信号转导，参与PGK1 K191/K192琥珀酰化。

背景：缺氧是包括胶质母细胞瘤（GBM）在内的大多数癌症的病理特征。癌症中的缺氧信号激活和致癌蛋白的翻译后修饰（PTM）已被广泛研究。越来越多的研究表明，糖酵解酶 PGK1 在肿瘤发生中起着至关重要的作用，但其潜在机制仍不清楚：方法：我们首先利用 ChIP 检测揭示了 HIF1α 和 ATF3 之间的相互影响及其在 P4HA1 调控中的作用。通过蛋白质降解分析、LC-MS/MS 和体外琥珀酸生成试验来研究蛋白质琥珀酰化对 GBM 病理学的影响。海马试验测定了 PGK1 在 K191/192 处琥珀酰化或其突变体对葡萄糖代谢的影响。我们利用体内颅内小鼠模型进行生化研究，以阐明 ATF3 和 P4HA1 对有氧糖酵解和肿瘤免疫微环境的影响：结果：我们证实，HIF1α和ATF3分别对P4HA1的转录起正向和负向调节作用，导致琥珀酸生成增加和HIF1α信号激活增强。P4HA1 的表达提高了琥珀酸浓度，导致 PGK1 在 K191 和 K192 位点的琥珀酰化增强。通过琥珀酸化抑制蛋白酶体降解 PGK1 能显著增加有氧糖酵解生成乳酸。此外，ATF3过表达和P4HA1敲除可降低GBM细胞中的琥珀酸和乳酸水平，从而抑制免疫反应和肿瘤生长：总之，我们的研究表明，HIF1α/ATF3参与了P4HA1/琥珀酸信号转导，而P4HA1/琥珀酸信号转导是GBM中琥珀酸生物合成和PGK1在K191和K192位点琥珀酰化的主要调节因子。P4HA1/琥珀酸途径可能是GBM有氧糖酵解的一个新的和有希望的靶点。

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

Neuro-oncology 医学-临床神经学

CiteScore

27.20

自引率

6.30%

发文量

1434

审稿时长

3-8 weeks

期刊介绍： Neuro-Oncology, the official journal of the Society for Neuro-Oncology, has been published monthly since January 2010. Affiliated with the Japan Society for Neuro-Oncology and the European Association of Neuro-Oncology, it is a global leader in the field. The journal is committed to swiftly disseminating high-quality information across all areas of neuro-oncology. It features peer-reviewed articles, reviews, symposia on various topics, abstracts from annual meetings, and updates from neuro-oncology societies worldwide.

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