Maternal obesity (MO) increases the risk of later-life liver disease in offspring, especially in males. This may be due to impaired cytochrome P450 (CYP) enzyme activity driven by an altered maternal-fetal hormonal milieu. MO increases fetal cortisol concentrations that may increase CYP activity; however, glucocorticoid receptor (GR)-mediated signaling can be modulated by alternative GR isoform expression. We hypothesized that MO induces sex-specific changes in GR isoform expression and localization that contribute to reduced hepatic CYP activity. Nonpregnant, nulliparous female baboons were assigned to either an ad libitum control diet or a high-fat, high-energy diet (HF-HED) at 9 months pre pregnancy. At 165 days' gestation (term = 180 days), fetal liver samples were collected (n = 6/sex/group). CYP activity was quantified using functional assays, and GR was measured using quantitative RT-PCR and Western blot. CYP3A activity was reduced in the HF-HED group, whereas CYP2B6 activity was reduced in HF-HED males only. Total GR expression was increased in the HF-HED group. Relative nuclear expression of the antagonistic GR isoform GRβ was increased in HF-HED males only. Reduced CYP activity in HF-HED males may be driven in part by dampened hepatic-specific glucocorticoid signaling via altered GR isoform expression. These findings highlight targetable mechanisms that may reduce later-life sex-specific disease risk.
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