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Essential role for epithelial HIF-mediated xenophagy in control of Salmonella infection and dissemination

Alexander S. Dowdell, Ian M. Cartwright, David Kitzenberg, Rachael Kostelecky, Omemh Mahjoob, Bejan Saeedi, Nichole Welch, Louise Glover, Sean P. Colgan

2022Cell Reports13 citationsDOIOpen Access PDF

Abstract

The intestinal mucosa exists in a state of "physiologic hypoxia," where oxygen tensions are markedly lower than those in other tissues. Intestinal epithelial cells (IECs) have evolved to maintain homeostasis in this austere environment through oxygen-sensitive transcription factors, including hypoxia-inducible factors (HIFs). Using an unbiased chromatin immunoprecipitation (ChIP) screen for HIF-1 targets, we identify autophagy as a major pathway induced by hypoxia in IECs. One important function of autophagy is to defend against intracellular pathogens, termed "xenophagy." Analysis reveals that HIF is a central regulator of autophagy and that in vitro infection of IECs with Salmonella Typhimurium results in induction of HIF transcriptional activity that tracks with the clearance of intracellular Salmonella. Work in vivo demonstrates that IEC-specific deletion of HIF compromises xenophagy and exacerbates bacterial dissemination. These results reveal that the interaction between hypoxia, HIF, and xenophagy is an essential innate immune component for the control of intracellular pathogens.

Topics & Concepts

SalmonellaBiologySalmonella infectionInfection controlCell biologyMicrobiologyMedicineGeneticsBacteriaIntensive care medicineCancer Research and TreatmentsAutophagy in Disease and TherapyEndoplasmic Reticulum Stress and Disease