Gonadal Steroid Action and Brain Sex Differentiation in the Rat

Gonadal steroids that establish sexually dimorphic characteristics of brain morphology and physiology act at a particular stage of ontogeny. Testosterone secreted by the testes during late gestational and neonatal periods causes significant brain sexual dimorphism in the rat. This results in both sex-specific behaviour and endocrinology in adults. Sexual differentiation may be due to neurogenesis, migration or survival. Each mechanism appears to be uniquely regulated in a site-specific manner. Thus, the volume of an aggregate of neurones in the rat medial preoptic area (POA), termed the sexually dimorphic nucleus of the POA (SDN-POA), is larger in males than in females. The anteroventral periventricular nucleus (AVPV) is packed with neurones containing oestrogen receptor (ER)beta in female rats but, in males, ER beta-positive neurones scatter into the more lateral portion of the POA. POA neurones are born up to embryonic days 16-17 and not after parturition. Therefore, neurogenesis is unlikely to contribute to the larger SDN-POA in males. DNA microarray analysis for oestrogen-responsive genes and western blotting demonstrated site-specific regulation of apoptosis- and migration-related genes in the SDN-POA and AVPV.