Abstract
In brief Neuroendocrine dysfunction and transgenerational susceptibility associated with polycystic ovary syndrome (PCOS) suggest that programmed changes within the brain contribute to adult development of the syndrome. This review discusses a potentially important role for microglia in mediating prenatal androgen-programmed changes in the female brain that contribute to PCOS-like features. Abstract Several lines of evidence support a role for the brain in both the development and maintenance of polycystic ovary syndrome (PCOS), the most common cause of anovulatory infertility worldwide. Persistently elevated luteinizing hormone secretion and impaired gonadal steroid hormone feedback in PCOS patients suggest impairments within the neuronal networks that regulate the reproductive axis. Evidence from preclinical models has linked androgen excess during prenatal life with altered structure and function of the developing female brain that might underpin syndrome development in adulthood. Studies investigating the mechanisms by which excess androgens program changes in the female brain have highlighted an important role for microglia. This review discusses how these non-neuronal cells shape the developing female brain in response to excess androgens and focuses on how microglia may be involved in the development of the neuroendocrine dysfunctions associated with PCOS.