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The Tumor Necrosis Factor Alpha and Interleukin 6 Auto-paracrine Signaling Loop Controls Mycobacterium avium Infection via Induction of IRF1/IRG1 in Human Primary Macrophages

Alexandre Gidon, Claire Louet, Lisa Marie Røst, Per Bruheim, Trude Helen Flo

2021mBio36 citationsDOIOpen Access PDF

Abstract

The prevalence of lung diseases caused by nontuberculous mycobacteria, such as Mycobacterium avium, is increasing in countries where tuberculosis is not endemic, most likely because of an aging population that is immunocompromised from underlying disease or immunosuppressive therapy. Our study contributes to the understanding of mycobacterial survival and killing in human macrophages and, more broadly, to the impact of immunometabolism during infection. We show evidence of an antimicrobial program in human primary macrophages where activation of the transcription factor IRF1 and expression of the mitochondrial enzyme IRG1 restrict the intracellular growth of M. avium, possibly by directed delivery of itaconate to M. avium phagosomes. The study also sheds light on why patients on immunosuppressive therapy are more susceptible to mycobacterial infections, since TNF-α and IL-6 contribute to driving the described antimycobacterial program.

Topics & Concepts

Tumor necrosis factor alphaImmunologyTuberculosisParacrine signallingMycobacterium tuberculosisMacrophageNontuberculous mycobacteriaMedicinePopulationMicrobiologyMycobacteriumBiologyPathologyReceptorInternal medicineIn vitroEnvironmental healthBiochemistryTuberculosis Research and EpidemiologyMycobacterium research and diagnosisHelicobacter pylori-related gastroenterology studies
The Tumor Necrosis Factor Alpha and Interleukin 6 Auto-paracrine Signaling Loop Controls Mycobacterium avium Infection via Induction of IRF1/IRG1 in Human Primary Macrophages | Litcius