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Maternal Brown Fat Thermogenesis Programs Glucose Tolerance in the Male Offspring

Rebecca Oelkrug, Christin Krause, Beate Herrmann, Julia Resch, Sogol Gachkar, Alexander T. El Gammal, Stefan Wolter, Oliver Mann, Henrik Oster, Henriette Kirchner, Jens Mittag

2020Cell Reports15 citationsDOIOpen Access PDF

Abstract

Environmental temperature is a driving factor in evolution, and it is commonly assumed that metabolic adaptations to cold climates are the result of transgenerational selection. Here, we show in mice that even minor changes in maternal thermogenesis alter the metabolic phenotype already in the next generation. Male offspring of mothers genetically lacking brown adipose tissue (BAT) thermogenesis display increased lean mass and improved glucose tolerance as adults, while females are unaffected. The phenotype is replicated in offspring of mothers kept at thermoneutrality; conversely, mothers with higher gestational BAT thermogenesis produce male offspring with reduced lean mass and impaired glucose tolerance. Running-wheel exercise reverses the offspring's metabolic impairments, pointing to the muscle as target of these fetal programming effects. Our data demonstrate that gestational BAT activation negatively affects metabolic health of the male offspring; however, these unfavorable fetal programming effects may be negated by active lifestyle.

Topics & Concepts

OffspringThermogenesisBrown adipose tissueEndocrinologyBiologyInternal medicineFetusPhenotypeGestationPregnancyAdipose tissueMedicineGeneticsGeneAdipose Tissue and MetabolismBirth, Development, and HealthCardiovascular Disease and Adiposity