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DAB2IP inhibits glucose uptake by modulating HIF-1α ubiquitination under hypoxia in breast cancer

Hongliang Dong, Weiyi Jia, Weijian Meng, Rui Zhang, Zhihong Qi, Zhuo Chen, Sophia Xie, Jiang Min, Liang Liu, Jie Shen

2024Oncogenesis12 citationsDOIOpen Access PDF

Abstract

Metabolic reprogramming has become increasingly important in tumor biology research. The glucose metabolic pathway is a major energy source and is often dysregulated in breast cancer. DAB2IP is widely reported to be a tumor suppressor that acts as a scaffold protein to suppress tumor malignancy in breast cancer. Interestingly, DAB2IP has also been found to be a potential regulator of glucose uptake; however, the exact mechanism remains unclear. In this study, we found that DAB2IP inhibited glucose uptake under hypoxia conditions in breast cancer cells by suppressing HIF-1α signals. Mechanically, DAB2IP interacted with the E3 ubiquitin ligase STUB1 via its PER domain, thus triggering STUB1 mediated HIF-1α ubiquitylation and degradation, and inhibit glucose metabolism and tumor progression. Deleting the PER domain abrogated the DAB2IP-related inhibitory effects on glucose uptake, intracellular ATP production, and lactic acid production in breast cancer cells. These findings elucidate the biological roles of DAB2IP in cancer-related glucose metabolism as well as a novel mechanism by which STUB1-driven HIF-1α ubiquitylated degradation is regulated in breast cancer.

Topics & Concepts

Ubiquitin ligaseUbiquitinReprogrammingCell biologyWarburg effectCancer researchBreast cancerChemistryCancer cellGlucose uptakeRegulatorCullinCancerSuppressorBiologyGlycolysisMetabolismBiochemistryEndocrinologyCellGeneticsInsulinGeneCancer, Hypoxia, and MetabolismMetabolism, Diabetes, and CancerUbiquitin and proteasome pathways