TY - JOUR KW - HIF-1α KW - LACC1 KW - PKRN KW - cholesterol KW - free fatty acid and xenophagy KW - immunometabolism KW - inflammasome KW - leprosy KW - parkin AU - Oliveira M AU - Medeiros RCA AU - Mietto B AU - Calvo T AU - Mendonça A AU - Rosa TLSA AU - da Silva D AU - de Vasconcelos K AU - Pereira A AU - de Macedo C AU - Pereira GMB AU - Moreira M AU - Pessolani M AU - Moraes M AU - Lara F AB -
Leprosy is a much-feared incapacitating infectious disease caused by Mycobacterium leprae or M lepromatosis, annually affecting roughly 200,000 people worldwide. During host-pathogen interaction, M leprae subverts the immune response, leading to development of disease. Throughout the last few decades, the impact of energy metabolism on the control of intracellular pathogens and leukocytic differentiation has become more evident. Mitochondria play a key role in regulating newly-discovered immune signaling pathways by controlling redox metabolism and the flow of energy besides activating inflammasome, xenophagy, and apoptosis. Likewise, this organelle, whose origin is probably an alphaproteobacterium, directly controls the intracellular pathogens attempting to invade its niche, a feature conquered at the expense of billions of years of coevolution. In the present review, we discuss the role of reduced host cell mitochondrial activity during M leprae infection and the consequential fates of M leprae and host innate immunity. Conceivably, inhibition of mitochondrial energy metabolism emerges as an overlooked and novel mechanism developed by M leprae to evade xenophagy and the host immune response.
BT - Immunological reviews C1 - https://www.ncbi.nlm.nih.gov/pubmed/33913182 DA - 04/2021 DO - 10.1111/imr.12962 J2 - Immunol Rev LA - eng N2 -Leprosy is a much-feared incapacitating infectious disease caused by Mycobacterium leprae or M lepromatosis, annually affecting roughly 200,000 people worldwide. During host-pathogen interaction, M leprae subverts the immune response, leading to development of disease. Throughout the last few decades, the impact of energy metabolism on the control of intracellular pathogens and leukocytic differentiation has become more evident. Mitochondria play a key role in regulating newly-discovered immune signaling pathways by controlling redox metabolism and the flow of energy besides activating inflammasome, xenophagy, and apoptosis. Likewise, this organelle, whose origin is probably an alphaproteobacterium, directly controls the intracellular pathogens attempting to invade its niche, a feature conquered at the expense of billions of years of coevolution. In the present review, we discuss the role of reduced host cell mitochondrial activity during M leprae infection and the consequential fates of M leprae and host innate immunity. Conceivably, inhibition of mitochondrial energy metabolism emerges as an overlooked and novel mechanism developed by M leprae to evade xenophagy and the host immune response.
PY - 2021 T2 - Immunological reviews TI - Reduction of host cell mitochondrial activity as Mycobacterium leprae's strategy to evade host innate immunity. SN - 1600-065X ER -