Metabolic reprogramming of the myeloid lineage by Schistosoma mansoni infection persists independently of antigen exposure

Macrophages have a defined role in the pathogenesis of metabolic disease and cholesterol metabolism where alternative activation of macrophages is thought to be beneficial to both glucose and cholesterol metabolism during high fat diet induced disease. It is well established that helminth infection...

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Published in:	PLoS pathogens Vol. 17; no. 1; p. e1009198
Main Authors:	Cortes-Selva, Diana, Gibbs, Lisa, Maschek, J Alan, Nascimento, Marcia, Van Ry, Tyler, Cox, James E, Amiel, Eyal, Fairfax, Keke C
Format:	Journal Article
Language:	English
Published:	United States Public Library of Science 08-01-2021 Public Library of Science (PLoS)
Subjects:	Acidification Amino acids Animals Antigens Antigens - immunology Apolipoprotein E Arteriosclerosis Atherosclerosis Biology and Life Sciences Bone marrow Cardiovascular disease Cell Lineage Cells (biology) Cellular Reprogramming Cholesterol Cytokines Diabetes Diet, High-Fat - adverse effects Energy requirements Fatty acids Female Gene expression Glucose Glycolysis Health aspects Homeostasis Hyperglycemia Infections Insulin Insulin resistance Lipid Metabolism Macrophages Macrophages - immunology Macrophages - metabolism Macrophages - parasitology Male Males Medicine and Health Sciences Metabolic Diseases - immunology Metabolic Diseases - parasitology Metabolic Diseases - prevention & control Metabolic disorders Metabolism Metabolome Mice Mice, Knockout, ApoE Mitochondria Monocytes Mortality Myeloid Cells - immunology Myeloid Cells - metabolism Myeloid Cells - parasitology Obesity Oxidation Oxidative phosphorylation Oxygen consumption Phosphorylation Progenitor cells Respiration Rodents Schistosoma mansoni Schistosoma mansoni - immunology Schistosoma mansoni - metabolism Schistosomiasis Schistosomiasis mansoni - immunology Schistosomiasis mansoni - metabolism Schistosomiasis mansoni - parasitology Substrates Tricarboxylic acid cycle United States
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Summary:	Macrophages have a defined role in the pathogenesis of metabolic disease and cholesterol metabolism where alternative activation of macrophages is thought to be beneficial to both glucose and cholesterol metabolism during high fat diet induced disease. It is well established that helminth infection protects from metabolic disease, but the mechanisms underlying protection are not well understood. Here, we investigated the effects of Schistosoma mansoni infection and cytokine activation in the metabolic signatures of bone marrow derived macrophages using an approach that integrated transcriptomics, metabolomics, and lipidomics in a metabolic disease prone mouse model. We demonstrate that bone marrow derived macrophages (BMDM) from S. mansoni infected male ApoE-/- mice have dramatically increased mitochondrial respiration compared to those from uninfected mice. This change is associated with increased glucose and palmitate shuttling into TCA cycle intermediates, increased accumulation of free fatty acids, and decreased accumulation of cellular cholesterol esters, tri and diglycerides, and is dependent on mgll activity. Systemic injection of IL-4 complexes is unable to recapitulate either reductions in systemic glucose AUC or the re-programing of BMDM mitochondrial respiration seen in infected males. Importantly, the metabolic reprogramming of male myeloid cells is transferrable via bone marrow transplantation to an uninfected host, indicating maintenance of reprogramming in the absence of sustained antigen exposure. Finally, schistosome induced metabolic and bone marrow modulation is sex-dependent, with infection protecting male, but not female mice from glucose intolerance and obesity. Our findings identify a transferable, long-lasting sex-dependent reprograming of the metabolic signature of macrophages by helminth infection, providing key mechanistic insight into the factors regulating the beneficial roles of helminth infection in metabolic disease.
Bibliography:	new_version ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23 Current address: Janssen Biotherapeutics, Janssen R&D, Spring House, Pennsylvania, USA The authors have declared that no competing interests exist.
ISSN:	1553-7374 1553-7366 1553-7374
DOI:	10.1371/journal.ppat.1009198