Anatomical background of the sensory function in the urethra: involvement of endocrine paraneurons and afferent nerves in divergent urogenital functions. A review.

The urethra is ontogenetically derived from the cloaca together with distal parts of the large intestine, and serotonin cells are predominant among dispersed endocrine/paracrine cells in the epithelia of both tissues. Analysis of urethral endocrine cells thus helps us to understand the functions of gut endocrine cells and their communication with the nervous system, due to the fact that the urethra is a simple tubular organ, where only urine without microflora rapidly passes through. A certain number of urethral endocrine cells display unique, complicated shapes with dendritic processes, reminiscent of neurons. Characteristically, urethral endocrine cells-often called paraneurons-have direct contact with sensory nerves within the epithelium, unlike gut endocrine cells lacking in direct contact with nerves. These traits encourage us to focus on the urethral paraneurons as ideal endocrine/paracrine cells. A topographical complex of urethral paraneurons and afferent nerve fibers is sensitive to the passage of urine or the distention of the urethral lumen. The urethra-bladder excitatory reflex facilitates micturition via the release of serotonin from the paraneurons, ultimately ensuring complete voiding of the bladder. This reflex may also influence sexual behaviors such as ejaculation or the female orgasm. Urethral brush cells as well as paraneurons are responsible for continuous monitoring of the mucosal surface, especially for pathogens entering via the external urethral orifice.