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TOR functions as a molecular switch connecting an iron cue with host innate defense against bacterial infection

Yicheng Ma, Lili Dai, Bei-Bei Qiu, Ying Zhou, Yu Zhao, Ran Yu, Ke‐Qin Zhang, Cheng‐Gang Zou

2021PLoS Genetics16 citationsDOIOpen Access PDF

Abstract

As both host and pathogen require iron for survival, iron is an important regulator of host-pathogen interactions. However, the molecular mechanism by which how the availability of iron modulates host innate immunity against bacterial infections remains largely unknown. Using the metazoan Caenorhabditis elegans as a model, we demonstrate that infection with a pathogenic bacterium Salmonella enterica serovar Typhimurium induces autophagy by inactivating the target of rapamycin (TOR). Although the transcripts of ftn-1 and ftn-2 encoding two H-ferritin subunits are upregulated upon S. Typhimurium infection, the ferritin protein is kept at a low level due to its degradation mediated by autophagy. Autophagy, but not ferritin, is required for defense against S. Typhimurium infection under normal circumstances. Increased abundance of iron suppresses autophagy by activating TOR, leading to an increase in the ferritin protein level. Iron sequestration, but not autophagy, becomes pivotal to protect the host from S. Typhimurium infection in the presence of exogenous iron. Our results show that TOR acts as a regulator linking iron availability with host defense against bacterial infection.

Topics & Concepts

AutophagyBiologyInnate immune systemCaenorhabditis elegansSalmonella entericaFerritinHost (biology)SalmonellaPathogenMicrobiologyImmunityDownregulation and upregulationRegulatorCell biologyBacteriaGeneGeneticsImmune systemBiochemistryApoptosisIron Metabolism and DisordersGenetics, Aging, and Longevity in Model OrganismsCRISPR and Genetic Engineering