MON-035 Does Androgen Exposure Result in Germline Transmission of PCOS-Like Phenotypes and Can It Be Reversed?

Abstract

Daughters of women with polycystic ovary syndrome (PCOS) are more likely to be diagnosed with PCOS, including reproductive and metabolic dysfunctions. Our recent research has demonstrated that dihydrotestosterone (DHT) exposure during late pregnancy results in transgenerational transmission of PCOS susceptibility to female offspring. But it remains unclear whether the transmission of the PCOS-like phenotypes is induced by in utero environment or via germ cell reprogramming, and whether treatment by exercise or androgen receptor blocker, flutamide, can prevent disease transmission. To model PCOS condition, donor mice were implanted with a continuous releasing DHT or vehicle pellet at 4 weeks of age. A subset of DHT exposed F0 donors had either free access to running wheels or were implanted with a slow-releasing flutamide pellet. Mice were exposed with or without treatment for either 6 weeks before IVF or 10 weeks prior to phenotypic testing. Here we present the phenotype of the F0 donors and the result of IVF to generate first (F1) and second (F2) generation offspring. Donors weigh more already after 2 weeks of DHT exposure and had more fat mass with larger adipocyte size, impaired glucose tolerance, and heavier kidney after 10 weeks of androgenization, which was reversed by both flutamide and exercise intervention. Moreover, DHT exposure increased circulating androgens and donors were completely acyclic. Simultaneous treatment with flutamide reversed the elevated androstenedione, testosterone, and restored estrus cyclicity, indicating that androgen receptor blocker can reverse hyperandrogenemia and reproductive dysfunction, whereas exercise failed to improve these phenotypes. After 6 weeks of exposure or treatment, donor oocytes were superovulated for IVF. Fewer oocytes per donor were found in androgenized + flutamide lineage, but no significant difference was observed in oocyte to two-cell embryo conversion rate after fertilization among all groups. Although the number of live offspring at weaning was similar among all groups, a trend of more F1 male than female offspring was found in both androgenized and androgenized + exercise lineage. Similar results were obtained in the F1 females when generating F2 offspring by IVF, which androgenized + flutamide lineage showed fewer oocytes per donor upon superovulation and more F2 male than female offspring was obtained in androgenized lineage at weaning. We here show that the androgenized donors develop clear PCOS-like phenotypes and give rise to more male than female F1 and F2 offspring. While blocking androgen receptor reverses both metabolic and reproductive disturbance in the donor, it also shows a negative impact on the donor and F1 female oocyte maturation process, although number of offspring via IVF is not affected. Excercise, however, only reverses the metabolic phenotypes in the F0 donor mice with no impact on IVF outcome.