Storage lipid studies in tuberculosis reveal that foam cell biogenesis is disease-specific.

Journal:
PLoS pathogens, Volume: 14, Issue: 8
Published:
August 30, 2018
PMID:
30161232
Authors:
Valentina Guerrini V, Brendan Prideaux B, Landry Blanc L, Natalie Bruiners N, Riccardo Arrigucci R, Sukhwinder Singh S, Hsin Pin Ho-Liang HP, Hugh Salamon H, Pei-Yu Chen PY, Karim Lakehal K, Selvakumar Subbian S, Paul O'Brien P, Laura E Via LE, Clifton E Barry CE, VĂ©ronique Dartois V, Maria Laura Gennaro ML
Abstract:

Foam cells are lipid-laden macrophages that contribute to the inflammation and tissue damage associated with many chronic inflammatory disorders. Although foam cell biogenesis has been extensively studied in atherosclerosis, how these cells form during a chronic infectious disease such as tuberculosis is unknown. Here we report that, unlike the cholesterol-laden cells of atherosclerosis, foam cells in tuberculous lung lesions accumulate triglycerides. Consequently, the biogenesis of foam cells varies with the underlying disease. In vitro mechanistic studies showed that triglyceride accumulation in human macrophages infected with Mycobacterium tuberculosis is mediated by TNF receptor signaling through downstream activation of the caspase cascade and the mammalian target of rapamycin complex 1 (mTORC1). These features are distinct from the known biogenesis of atherogenic foam cells and establish a new paradigm for non-atherogenic foam cell formation. Moreover, they reveal novel targets for disease-specific pharmacological interventions against maladaptive macrophage responses.


Courtesy of the U.S. National Library of Medicine