Androgen regulates synaptic input to motoneurons of the adult rat spinal cord

Abstract

Adult male rats (Sprague-Dawley) were castrated and implanted subcutaneously with Silastic capsules containing testosterone or nothing. Sham-castrated males served as controls. Four weeks following castration, cholera toxin-horseradish peroxidase (CT-HRP) was injected bilaterally into the bulbocavernosus muscles and animals were sacrificed 2 d later. The spinal cords containing the spinal nucleus of the bulbocavernosus (SNB) were dissected, processed with a modified tetramethylbenzidine (TMB) method for visualization of retrogradely transported CT-HRP, and examined at the ultrastructural level. Neuronal structures apposing the membranes of 150 TMB-labeled SNB neurons were analyzed by measuring the percentage of somatic and proximal dendritic membranes covered by synaptic contacts, synaptoid contacts, and neuron-neuron contacts. Most of the neuronal structures in the control and experimental SNB motoneurons consisted of synaptic contacts. The mean percentage of somatic and proximal dendritic membranes covered by synapses 4 weeks after castration was reduced to approximately 30% of those in control animals. However, treatment with testosterone for 4 weeks after castration prevented this decline. Castration and testosterone treatment also influenced the size and number of synaptic contacts per unit length of somatic and proximal dendritic membranes, and the incidence of neuron-neuron contacts and double synapses onto SNB motoneurons. These results indicate that androgen is critical for maintaining the organization of synaptic inputs to these spinal motoneurons in adult male rats.