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Metabolism of Gluconeogenic Substrates by an Intracellular Fungal Pathogen Circumvents Nutritional Limitations within Macrophages

Qian Shen, Stephanie C. Ray, Heather M. Evans, George S. Deepe, Chad A. Rappleye

2020mBio29 citationsDOIOpen Access PDF

Abstract

Histoplasma is a primary human fungal pathogen that survives and proliferates within host immune cells, particularly within the macrophage phagosome compartment. The phagosome compartment is a nutrient-limited environment, requiring Histoplasma yeasts to be able to assimilate available carbon sources within the phagosome to meet their nutritional needs. In this study, we showed that Histoplasma yeasts do not utilize fatty acids or hexoses for growth within macrophages. Instead, Histoplasma yeasts consume gluconeogenic substrates to proliferate in macrophages. These findings reveal the phagosome composition from a nutrient standpoint and highlight essential metabolic pathways that are required for a phagosomal pathogen to proliferate in this intracellular environment.

Topics & Concepts

PhagosomeHistoplasmaBiologyIntracellularPathogenMicrobiologyMacrophageIntracellular parasiteImmune systemVacuoleMetabolismCell biologyHistoplasma capsulatumHistoplasmosisBiochemistryImmunologyCytoplasmIn vitroFungal Infections and StudiesAntifungal resistance and susceptibilityPlant-Microbe Interactions and Immunity
Metabolism of Gluconeogenic Substrates by an Intracellular Fungal Pathogen Circumvents Nutritional Limitations within Macrophages | Litcius