Abstract

Polycystic ovary syndrome ( PCOS ) is the most common endocrinopathy in young women. In-utero, children of ~80% of PCOS women in the US are exposed to maternal “hyperandrogenemia and obesity”. It remains unclear whether this exposure affects their cardiovascular ( CV ) health later in life. Using a well-characterized rat model of maternal PCOS, the hyperandrogenemic obese ( HAO ) dams, we previously showed that adult male, not female, offspring ( HAO F1 ) have enhanced blood pressure ( BP ) response to chronic angiotensin ( Ang ) II compared to sex-matched control offspring ( CON F1 ), suggesting their increased risk of later CV disease. Sex steroids have the potential to modulate epigenetics. Histone deacetylase ( HDAC ) and histone acetyltransferase ( HAT ) are markers of epigenetic modifications. HDACs have been shown to promote tumor necrosis factor ( TNF )-α expression and play a role in Ang II-induced hypertension. The present study was designed to test the hypothesis that male HAO F1 have intra-renal activation of HDAC and increased TNF-α that could play a role in their Ang II BP response. Methods: At 4 weeks ( wks ) of age, female SD rats were implanted (s.c.) with either 5α-dihydrotestosterone pellets (7.5 mg/90 d; HAO) or placebo pellets (CON) and mated at 9-12 wks. Offspring were obtained and weaned at 3 wks. Serum testosterone ( T; by LC/MS-MS), renal cortical TNF-α (Bioplex) and renal cortical nuclear HDAC and HAT activities (colorimetric assays) were measured in male offspring (1/litter, 16-24 wks, n=5-9). Results: Male HAO F1 had significantly lower serum T, higher renal cortical HDAC activity and TNF-α (430.2±124 vs 120.6±14 ng/dl, 0.97±0.1 vs 4.51±0.96 OD/min/mg protein and 423.7±47 vs 579.8±47 pg/g tissue, in male CON F1 vs male HAO F1 , respectively, p<0.05), and no change in their renal cortical HAT activity (vs male CON F1 ). Conclusion: Male offspring born to HAO dams develop hypoandrogenemia that is associated with intra-renal activation of HDAC that could be mediating their increased intra-renal inflammation (TNF-α expression) and mediating their exaggerated BP response to Ang II. Future studies will determine the causative relationship between hypoandrogenemia, HDAC activation and TNF-a and their role in the exaggerated pressor response to Ang II in those male offspring. Funding: AHA-24DIVSUP1273026 (JA), NIH-NIGMS P20GM121334 (JFR, NMS), R01HL135089 & R01AG075963 (JFR), AHA-22CDA938320 and 2024 Dean Franklin Award (NMS).

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