Reduced adipocyte glutaminase activity promotes energy expenditure and metabolic health.

Lecoutre S, Maqdasy S, Rizo-Roca D, Renzi G, Vlassakev I, Alaeddine LM, Higos R, Jalkanen J, Zhong J, Zareifi DS, Frendo-Cumbo S, Massier L, Hodek O, Juvany M, Moritz T, de Castro Barbosa T, Omar-Hmeadi M, López-Yus M, Merabtene F, Abatan JB, Marcelin G, El Hachem EJ, Rouault C, Bergo MO, Petrus P, Zierath JR, Clément K, Krook A, Mejhert N, Rydén M

Nat Metab 6 (7) 1329-1346 [2024-07-00; online 2024-07-15]

Glutamine and glutamate are interconverted by several enzymes and alterations in this metabolic cycle are linked to cardiometabolic traits. Herein, we show that obesity-associated insulin resistance is characterized by decreased plasma and white adipose tissue glutamine-to-glutamate ratios. We couple these stoichiometric changes to perturbed fat cell glutaminase and glutamine synthase messenger RNA and protein abundance, which together promote glutaminolysis. In human white adipocytes, reductions in glutaminase activity promote aerobic glycolysis and mitochondrial oxidative capacity via increases in hypoxia-inducible factor 1α abundance, lactate levels and p38 mitogen-activated protein kinase signalling. Systemic glutaminase inhibition in male and female mice, or genetically in adipocytes of male mice, triggers the activation of thermogenic gene programs in inguinal adipocytes. Consequently, the knockout mice display higher energy expenditure and improved glucose tolerance compared to control littermates, even under high-fat diet conditions. Altogether, our findings highlight white adipocyte glutamine turnover as an important determinant of energy expenditure and metabolic health.

Swedish Metabolomics Centre (SMC) [Collaborative]

PubMed 39009762

DOI 10.1038/s42255-024-01083-y

Crossref 10.1038/s42255-024-01083-y

pmc: PMC11272588
pii: 10.1038/s42255-024-01083-y


Publications 9.5.1