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MYB sustains hypoxic survival of pancreatic cancer cells by facilitating metabolic reprogramming

Shashi Anand, Mohammad Aslam Khan, Haseeb Zubair, Sarabjeet Kour Sudan, Kunwar Somesh Vikramdeo, Sachin Kumar Deshmukh, Shafquat Azim, Sanjeev K. Srivastava, Seema Singh, Ajay P. Singh

2023EMBO Reports20 citationsDOIOpen Access PDF

Abstract

Extensive desmoplasia and poor vasculature renders pancreatic tumors severely hypoxic, contributing to their aggressiveness and therapy resistance. Here, we identify the HuR/MYB/HIF1α axis as a critical regulator of the metabolic plasticity and hypoxic survival of pancreatic cancer cells. HuR undergoes nuclear-to-cytoplasmic translocation under hypoxia and stabilizes MYB transcripts, while MYB transcriptionally upregulates HIF1α. Upon MYB silencing, pancreatic cancer cells fail to survive and adapt metabolically under hypoxia, despite forced overexpression of HIF1α. MYB induces the transcription of several HIF1α-regulated glycolytic genes by directly binding to their promoters, thus enhancing the recruitment of HIF1α to hypoxia-responsive elements through its interaction with p300-dependent histone acetylation. MYB-depleted pancreatic cancer cells exhibit a dramatic reduction in tumorigenic ability, glucose-uptake and metabolism in orthotopic mouse model, even after HIF1α restoration. Together, our findings reveal an essential role of MYB in metabolic reprogramming that supports pancreatic cancer cell survival under hypoxia.

Topics & Concepts

BiologyPancreatic cancerReprogrammingCancer researchMYBTranscription factorGene silencingCancer cellCell biologyHypoxia (environmental)CancerCellChemistryGeneGeneticsOrganic chemistryOxygenCancer, Hypoxia, and MetabolismPancreatic function and diabetesEpigenetics and DNA Methylation
MYB sustains hypoxic survival of pancreatic cancer cells by facilitating metabolic reprogramming | Litcius