Abstract
It is known that hormones influence significantly the prostate tissue. However, we reported that mating induces an increase in androgen receptors, revealing a neural influence on the gland. These data suggested that somatic afferents (scrotal and genitofemoral nerves) and autonomic efferents (pelvic and hypogastric nerves) could regulate the structure of the prostate. Here we assessed the role of these nerves in maintaining the histology of the gland. Hence, afferent or efferent nerves of male rats were transected. Then, the ventral and dorsolateral regions of the prostate were processed for histology. Results showed that afferent transection affects prostate histology. The alveoli area decreased and increased in the ventral and dorsolateral prostate, respectively. The epithelial cell height increased in both regions. Efferent denervation produced dramatic changes in the prostate gland. The tissue lost its configuration, and the epithelium became scattered and almost vanished. Thus, afferent nerves are responsible for spinal processes pertaining to the trophic control of the prostate, activating its autonomic innervation. Hence, our data imply that innervation seems to be synergic with hormones for the healthy maintenance of the prostate. Thus, it is suggested that some prostate pathologies could be due to the failure of the autonomic neural pathways regulating the gland.
Highlights
The prostate is the largest sexual gland in the male reproductive tract, and its structure and function have been widely investigated by a number of authors
It has been reported that these autonomic efferents are driven by a complex circuit of central neurons stationed in different brain nuclei, all of which are involved in the control of male rat sexual behavior (Huddleston et al 2007)
Our data indicate that there is a circuit between somatic afferents (Sc and Gf nerves) and autonomic efferents (Pv and Hg nerves) that has two levels of integration, the first at the spinal cord and the second at the major pelvic ganglion
Summary
The prostate is the largest sexual gland in the male reproductive tract, and its structure and function have been widely investigated by a number of authors. The prostate is innervated by postganglionar fibers emerging from the major pelvic ganglion that, in turn, is innervated by both the hypogastric nerve and the viscerocutaneous branch of the pelvic nerve (Hulsebosch and Coggeshall 1982, Langworthy 1965, Pacheco et al 1989). This nerve complex regulates the function of the prostate via cholinergic, noradrenergic, and peptidergic pathways (Kepper and Keast 1995, Nadelhaft 2003, Pennefather et al 2000). In this study we investigated the effects produced on the prostate tissue following the lesion of afferent or efferent nerves in the pelvic area
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