J Neurophysiol (January 1, 2003). 10.1152/jn.00479.2002
Submitted on Submitted 27 August 2002; accepted in final form 9 September 2002

Postnatal Maturational Changes in Rat Pelvic Autonomic Ganglion Cells: A Mixture of Steroid-Dependent and -Independent Effects

 ¹Prince of Wales Medical Research Institute, University of New South Wales, Sydney 2031; and  ²Department of Physiology and Pharmacology, University of Queensland, Brisbane 4072, Australia

Kanjhan, R., P. B. Osborne, M. Ouyang, and J. R. Keast. Postnatal Maturational Changes in Rat Pelvic Autonomic Ganglion Cells: A Mixture of Steroid-Dependent and -Independent Effects. J. Neurophysiol. 89: 315-323, 2003. Androgens have potent effects on the maturation and maintenance of a number of neural pathways involved in reproductive behaviors in males. Most studies in this area have focused on central pathways, but androgen receptors are expressed by many peripheral neurons innervating reproductive organs, and previous studies have demonstrated structural and chemical changes in these neurons at puberty and after castration. We have performed the first electrophysiological comparison of pelvic autonomic ganglion neurons in male rats before and after puberty and following pre- or postpubertal castration. Studies were performed in vitro on intact ganglia with hypogastric and pelvic nerves attached to allow synaptic activation of sympathetic or parasympathetic neurons, respectively. Pelvic ganglion neurons underwent many changes in their passive and active membrane properties over the pubertal period, and some of these changes were dependent on exposure to circulating androgens. The most pronounced steroid-dependent effects were on membrane capacitance (soma size) in sympathetic neurons and duration of the action potential afterhyperpolarization in tonic neurons. Our study also showed that rat pelvic ganglion cells and their synaptic inputs were more diverse than previously reported. In conclusion, this study demonstrated that rat pelvic ganglion neurons undergo considerable postnatal changes in their electrophysiological properties. The steroid dependence of some of these changes indicates that circulating androgens may influence reproductive behaviors at many locations within the nervous system not just in the brain and spinal cord.