Pharmacological inhibition of key metabolic pathways attenuates Leishmania spp infection in macrophages

Macrophages represent a fundamental component of the innate immune system that play a critical role in detecting and responding to pathogens as well as danger signals. Leishmania spp. infections lead to a notable alteration in macrophage metabolism, whereby infected cells display heightened energy m...

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Veröffentlicht in:	PLoS neglected tropical diseases 2025-01, Vol.19 (1), p.e0012763
Hauptverfasser:	de Oliveira, Elaine Carvalho, Tibúrcio, Rafael, Duarte, Gabriela, Lago, Amanda, de Melo, Léon, Nunes, Sara, Davanzo, Gustavo Gastão, Martins, Ana Júlia, Ribeiro, Bruno Vinagre, Mothé, Deborah, Menezes, Juliana B P, Veras, Patrícia, Tavares, Natalia, Moraes-Vieira, Pedro M, Brodskyn, Cláudia Ida
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Sprache:	eng
Schlagworte:	Animals Biology and Life Sciences Energy Metabolism - drug effects Glycolysis - drug effects Leishmania - drug effects Leishmania braziliensis - drug effects Leishmania mexicana - drug effects Leishmania mexicana - metabolism Leishmaniasis - drug therapy Leishmaniasis - parasitology Macrophages - drug effects Macrophages - metabolism Macrophages - parasitology Medicine and Health Sciences Metabolic Networks and Pathways - drug effects Mice Mice, Inbred C57BL Mitochondria - drug effects Mitochondria - metabolism Oxidative Phosphorylation - drug effects
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creator	de Oliveira, Elaine Carvalho Tibúrcio, Rafael Duarte, Gabriela Lago, Amanda de Melo, Léon Nunes, Sara Davanzo, Gustavo Gastão Martins, Ana Júlia Ribeiro, Bruno Vinagre Mothé, Deborah Menezes, Juliana B P Veras, Patrícia Tavares, Natalia Moraes-Vieira, Pedro M Brodskyn, Cláudia Ida
description	Macrophages represent a fundamental component of the innate immune system that play a critical role in detecting and responding to pathogens as well as danger signals. Leishmania spp. infections lead to a notable alteration in macrophage metabolism, whereby infected cells display heightened energy metabolism that is linked to the integrity of host mitochondria. However, little is known about how different species of Leishmania manipulate host metabolism. Here, we demonstrate that despite differences in their mechanisms for evading host immune responses, L. amazonensis and L. braziliensis induce comparable disruptions in key metabolic pathways. We found that infected macrophages exhibited an overall elevation in energy metabolism regardless of the parasite strain, evidenced by the elevation in glycolysis and oxygen consumption rates, along with increased proton leak and decreased ATP production. We also analyzed the effects of both Leishmania spp. strain infection on mitochondria function, further revealing that infected cells display heightened mitochondrial mass and membrane potential. To investigate the metabolic pathways required for Leishmania amastigotes to persist in BMDMs, we pre-treated cells with small molecule drugs that target major metabolic pathways, revealing that perturbations in several metabolic processes affected parasite survival in a strain-independent manner. Treatments with inhibitors of the oxidative phosphorylation and glycolysis substantially reduced parasite loads. Collectively, our findings suggest that L.amazonensis and L.braziliensis exploit host cell metabolic pathways similarly to survive in macrophages.
doi_str_mv	10.1371/journal.pntd.0012763
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Leishmania spp. infections lead to a notable alteration in macrophage metabolism, whereby infected cells display heightened energy metabolism that is linked to the integrity of host mitochondria. However, little is known about how different species of Leishmania manipulate host metabolism. Here, we demonstrate that despite differences in their mechanisms for evading host immune responses, L. amazonensis and L. braziliensis induce comparable disruptions in key metabolic pathways. We found that infected macrophages exhibited an overall elevation in energy metabolism regardless of the parasite strain, evidenced by the elevation in glycolysis and oxygen consumption rates, along with increased proton leak and decreased ATP production. We also analyzed the effects of both Leishmania spp. strain infection on mitochondria function, further revealing that infected cells display heightened mitochondrial mass and membrane potential. To investigate the metabolic pathways required for Leishmania amastigotes to persist in BMDMs, we pre-treated cells with small molecule drugs that target major metabolic pathways, revealing that perturbations in several metabolic processes affected parasite survival in a strain-independent manner. Treatments with inhibitors of the oxidative phosphorylation and glycolysis substantially reduced parasite loads. Collectively, our findings suggest that L.amazonensis and L.braziliensis exploit host cell metabolic pathways similarly to survive in macrophages.</abstract><cop>United States</cop><pub>Public Library of Science</pub><pmid>39775223</pmid><doi>10.1371/journal.pntd.0012763</doi><orcidid>https://orcid.org/0000-0003-3367-5365</orcidid><oa>free_for_read</oa></addata></record>
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subjects	Animals Biology and Life Sciences Energy Metabolism - drug effects Glycolysis - drug effects Leishmania - drug effects Leishmania braziliensis - drug effects Leishmania mexicana - drug effects Leishmania mexicana - metabolism Leishmaniasis - drug therapy Leishmaniasis - parasitology Macrophages - drug effects Macrophages - metabolism Macrophages - parasitology Medicine and Health Sciences Metabolic Networks and Pathways - drug effects Mice Mice, Inbred C57BL Mitochondria - drug effects Mitochondria - metabolism Oxidative Phosphorylation - drug effects
title	Pharmacological inhibition of key metabolic pathways attenuates Leishmania spp infection in macrophages
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