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HOXA1 promotes aerobic glycolysis and cancer progression in cervical cancer

Zihui Zhang, Jiaxin Peng, Bingshu Li, Zhi Wang, Haoyu Wang, Ying Wang, Hong Li

2023Cellular Signalling43 citationsDOIOpen Access PDF

Abstract

As a hallmark for cancer, aerobic glycolysis, also known as the Warburg effect contributes to tumor progression. However, the roles of aerobic glycolysis on cervical cancer remain elusive. In this work, we identified transcription factor HOXA1 as a novel regulator of aerobic glycolysis. High expression of HOXA1 is closely associated with poor outcome of patients. And, altered HOXA1 expression enhance or reduce aerobic glycolysis and progression in cervical cancer. Mechanistically, HOXA1 directly regulates the transcriptional activity of ENO1 and PGK1, thus induce glycolysis and promote cancer progression. Moreover, therapeutic knockdown of HOXA1 results in reduce aerobic glycolysis and inhibits cervical cancer progression in vivo and in vitro. In conclusion, these data indicate a therapeutic role of HOXA1 inhibits aerobic glycolysis and cervical cancer progression.

Topics & Concepts

Anaerobic glycolysisGlycolysisWarburg effectCancer researchTumor progressionCancerGene knockdownBiologyCancer cellCervical cancerMedicineInternal medicineMetabolismBiochemistryApoptosisCancer, Hypoxia, and MetabolismCancer-related molecular mechanisms researchCancer-related Molecular Pathways
HOXA1 promotes aerobic glycolysis and cancer progression in cervical cancer | Litcius