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  • Maternal high-fat diet induces long-term obesity with sex-dependent metabolic programming of adipocyte differentiation, hypertrophy and dysfunction in the offspring.

Maternal high-fat diet induces long-term obesity with sex-dependent metabolic programming of adipocyte differentiation, hypertrophy and dysfunction in the offspring.

Clinical science (London, England : 1979) (2020-04-03)
Thorsten Litzenburger, Eva-Kristina Huber, Katharina Dinger, Rebecca Wilke, Christina Vohlen, Jaco Selle, Mazlum Kadah, Thorsten Persigehl, Carola Heneweer, Jörg Dötsch, Miguel A Alejandre Alcazar
ABSTRACT

Maternal obesity determines obesity and metabolic diseases in the offspring. The white adipose tissue (WAT) orchestrates metabolic pathways, and its dysfunction contributes to metabolic disorders in a sex-dependent manner. Here, we tested if sex differences influence the molecular mechanisms of metabolic programming of WAT in offspring of obese dams. To this end, maternal obesity was induced with high-fat diet (HFD) and the offspring were studied at an early phase [postnatal day 21 (P21)], a late phase (P70) and finally P120. In the early phase we found a sex-independent increase in WAT in offspring of obese dams using magnetic resonance imaging (MRI), which was more pronounced in females than males. While the adipocyte size increased in both sexes, the distribution of WAT differed in males and females. As mechanistic hints, we identified an inflammatory response in females and a senescence-associated reduction in the preadipocyte factor DLK in males. In the late phase, the obese body composition persisted in both sexes, with a partial reversal in females. Moreover, female offspring recovered completely from both the adipocyte hypertrophy and the inflammatory response. These findings were linked to a dysregulation of lipolytic, adipogenic and stemness-related markers as well as AMPKα and Akt signaling. Finally, the sex-dependent metabolic programming persisted with sex-specific differences in adipocyte size until P120. In conclusion, we do not only provide new insights into the molecular mechanisms of sex-dependent metabolic programming of WAT dysfunction, but also highlight the sex-dependent development of low- and high-grade pathogenic obesity.

MATERIALS
Product Number
Brand
Product Description

Millipore
NP-40 Alternative
Sigma-Aldrich
5-Bromo-4-chloro-3-indolyl β-D-galactopyranoside, ≥98%, powder
Sigma-Aldrich
Potassium hexacyanoferrate(III), ACS reagent, ≥99.0%
Sigma-Aldrich
Potassium hexacyanoferrate(II) trihydrate, ACS reagent, 98.5-102.0%