Molecular signaling pathways that regulate prostate gland development.

Prostate gland development is a complex process that involves coordination of multiple signaling pathways including endocrine, paracrine, autocrine, juxtacrine and transcription factors. To put this into proper context, the present manuscript will begin with a brief overview of the stages of prostate development and a summary of androgenic signaling in the developing prostate, which is essential for prostate formation. This will be followed by a detailed description of other transcription factors and secreted morphogens directly involved in prostate formation and branching morphogenesis.

Embryonic origin of mate choice in a lizard with temperature-dependent sex determination.

Individual differences in the adult sexual behavior of vertebrates are rooted in the fetal environment. In the leopard gecko (Eublepharis macularius), a species with temperature-dependent sex determination (TSD), hatchling sex ratios differ between incubation temperatures, as does sexuality in same-sex animals. This variation can primarily be ascribed to the temperature having direct organizing actions on the brain.

Normally occurring intersexuality and testosterone induced plasticity in the copulatory system of adult leopard geckos.

The copulatory neuromuscular system of lizards is highly sexually dimorphic. Adult males possess bilateral penises called hemipenes, which are independently controlled by two muscles, the retractor penis magnus (RPM) and transversus penis (TPN). These structures are not obvious in adult females.

The role of prolactin in the prostatic inflammatory response to neonatal estrogen.

Estrogen exposure in the neonatal rat has been shown to disrupt the normal morphology and development of the prostate gland. The response to this exposure is manifest in adulthood as epithelial dysplasia and chronic inflammation. This inflammatory response consists of infiltrating T-lymphocytes and macrophages, which is typically observed in chronic prostatitis in both rodents and humans.