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Sex differences in kidney metabolism may reflect sex-dependent outcomes in human diabetic kidney disease.

Sergi Clotet-FreixasOlga ZaslaverMax KotlyarChiara PastrelloAndrew T QuaileCaitríona M McEvoyAninda D SahaSofia FarkonaAlex BoshartKatarina ZorcicSlaghaniya NeupaneKieran ManionMaya AllenMichael ChanXuqi ChenArthur P ArnoldPeggy SekulaInga SteinbrennerAnna KottgenAllison B DartBrandy Alexandra WicklowJon M McGavockTom David Blydt-HansenClara BarriosClara BarriosMaria José SolerAmandine IsenbrandtJérôme Lamontagne-ProulxSolène PradelouxKatherine CoulombeDenis SouletShravanthi RajasekarBoyang ZhangRohan JohnAman MehrotraAdam J GehringMaija PuhkaIgor JurisicaMinna WooJames W ScholeyHannes L RöstAna Konvalinka
Published in: Science translational medicine (2024)
Diabetic kidney disease (DKD) is the main cause of chronic kidney disease (CKD) and progresses faster in males than in females. We identify sex-based differences in kidney metabolism and in the blood metabolome of male and female individuals with diabetes. Primary human proximal tubular epithelial cells (PTECs) from healthy males displayed increased mitochondrial respiration, oxidative stress, apoptosis, and greater injury when exposed to high glucose compared with PTECs from healthy females. Male human PTECs showed increased glucose and glutamine fluxes to the TCA cycle, whereas female human PTECs showed increased pyruvate content. The male human PTEC phenotype was enhanced by dihydrotestosterone and mediated by the transcription factor HNF4A and histone demethylase KDM6A. In mice where sex chromosomes either matched or did not match gonadal sex, male gonadal sex contributed to the kidney metabolism differences between males and females. A blood metabolomics analysis in a cohort of adolescents with or without diabetes showed increased TCA cycle metabolites in males. In a second cohort of adults with diabetes, females without DKD had higher serum pyruvate concentrations than did males with or without DKD. Serum pyruvate concentrations positively correlated with the estimated glomerular filtration rate, a measure of kidney function, and negatively correlated with all-cause mortality in this cohort. In a third cohort of adults with CKD, male sex and diabetes were associated with increased plasma TCA cycle metabolites, which correlated with all-cause mortality. These findings suggest that differences in male and female kidney metabolism may contribute to sex-dependent outcomes in DKD.
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