Abstract

The mitochondrial protein NAD(P)+ transhydrogenase (NNT) has been implicated in the metabolic derangements observed in obesity. Mice with the C57BL/6J genetic background bear a spontaneous mutation in the Nnt gene and are known to exhibit increased susceptibility to diet-induced metabolic disorders. Most of the studies on NNT in the context of diet-induced obesity have compared C57BL/6J mice with other mouse strains, where differences in genetic background can serve as confounding factors. Moreover, these studies have predominantly employed a high-fat diet (HFD) consisting of approximately 60% of calories from fat, which may not accurately mimic real-world fat-rich diets. In this study, we sought to examine the role of NNT in diet-induced hypothalamic inflammation and metabolic syndrome by using a congenic mice model lacking NNT, along with a HFD providing approximately 45% of calories from fat. Our findings indicate that mice lacking NNT were more protected from HFD-induced weight gain but presented a worse performance on glucose tolerance test, albeit not in insulin tolerance test. Interestingly, the brown adipose tissue of HFD-fed Nnt +/+ mice presented a greater mass and a higher whole-tissue ex-vivo oxygen consumption rate. Also, HFD increased the expression of the inflammatory markers Il1β, Tlr4 and Iba1 in the hypothalamus of Nnt -/- mice. In conclusion, our study highlights the importance of NNT in the context of diet-induced obesity and metabolic syndrome, indicating its contribution to mitigate hypothalamic inflammation and suggesting its role in the brown adipose tissue increased mass.

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