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.
Keywords: ATF3; HIF1α; P4HA1; PGK1; succinylation.
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