Glucose intolerance as a consequence of hematopoietic stem cell dysfunction in offspring of obese mice

Maternal obesity is increasingly common and negatively impacts offspring health. Children of mothers with obesity are at higher risk of developing diseases linked to hematopoietic system abnormalities and metabolism such as type 2 diabetes. Interestingly, disease risks are often dependent on the offspring's sex, suggesting sex-specific reprogramming effect of maternal obesity on offspring hematopoietic stem and progenitor cell (HSPC) function. However, the impact of maternal obesity exposure on offspring HSPC function, and the capability of HSPC to regulate offspring metabolic health is largely understudied. This study aims to test the hypothesis that offspring of obese mice exhibit sex-differences in HSPC function that affect offspring's metabolic health. We first assessed bone marrow hematopoietic stem and progenitor cell phenotype using postnatal day 21 (P21) and 8-week-old C57BL/6J mice born to control and diet-induced obese dams. We also sorted HSPC (Lineage-, Sca1+, cKit + cells) from P21 mice for competitive primary and secondary transplant, as well as transcriptomic analysis. Body weight, adiposity, insulin tolerance test and glucose tolerance tests were performed in primary and secondary transplant recipient animals. We discovered sex-differences in offspring HSPC function in response to maternal obesity exposure, where male offspring of obese dams (MatOb) showed decreased HSPC numbers and engraftment, while female MatOb offspring remained largely unaffected. RNA-seq revealed immune stimulatory pathways in female MatOb offspring. Finally, only recipients of male MatOb offspring HSPC exhibited glucose intolerance. This study demonstrated the lasting effect of maternal obesity exposure on offspring HSPC function and implicates HSPC in metabolic regulation. [Display omitted] •Maternal obesity induces sex-specific changes in offspring hematopoietic stem and progenitor cell (HSPC).•HSPCs from male offspring of obese mice had reduced engraftment during transplantation, while female HSPCs were unaffected.•Recipient animals mirrored glucose intolerance seen in donor offspring, highlighting HSPC's role in glucose metabolism