Abstract
High-calorie diet-induced nutrient stress promotes thiol oxidative stress and the reprogramming of blood monocytes, giving rise to dysregulated, obesogenic, proatherogenic monocyte-derived macrophages. We report that in chow-fed, reproductively senescent female mice but not in age-matched male mice, deficiency in the thiol transferase glutaredoxin 1 (Grx1) promotes dysregulated macrophage phenotypes as well as rapid weight gain and atherogenesis. Grx1 deficiency derepresses distinct expression patterns of reactive oxygen species and reactive nitrogen species generators in male versus female macrophages, poising female but not male macrophages for increased peroxynitrate production. Hematopoietic Grx1 deficiency recapitulates this sexual dimorphism in high-calorie diet-fed LDLR-/- mice, whereas macrophage-restricted overexpression of Grx1 eliminates the sex differences unmasked by high-calorie diet-feeding and protects both males and females against atherogenesis. We conclude that loss of monocytic Grx1 activity disrupts the immunometabolic balance in mice and derepresses sexually dimorphic oxidative stress responses in macrophages. This mechanism may contribute to the sex differences reported in cardiovascular disease and obesity in humans.
Highlights
High-calorie diet-induced nutrient stress promotes thiol oxidative stress and the reprogramming of blood monocytes, giving rise to dysregulated, obesogenic, proatherogenic monocyte-derived macrophages
Our findings suggest that in addition to maintaining the immunometabolic balance by regulating the thiol redox status of the macrophage proteome[6,14], Grx[1] controls the production of reactive oxygen species (ROS) and reactive nitrogen species (RNS) in macrophages in a sexually dimorphic fashion
We recently demonstrated in baboons that even moderate highcalorie diet-induced elevations in blood cholesterol promote monocyte “priming” and dysfunction[19], i.e. the conversion of healthy blood monocytes into a hyper-chemotactic phenotype, which is reprogrammed and poised to differentiate into proinflammatory and proatherogenic macrophages[7,20]
Summary
High-calorie diet-induced nutrient stress promotes thiol oxidative stress and the reprogramming of blood monocytes, giving rise to dysregulated, obesogenic, proatherogenic monocyte-derived macrophages. How increased expression of NOS3 contributes to monocyte priming and macrophage dysfunction and the dramatic effects of Grx[1] deficiency in aged female mice is not clear, but reprogramming of the proteome in response to peroxynitritemediated protein S-glutathionylation is a likely mechanism[28,29].
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