Electrolyte and Water Transport in Rat Epididymis; Its Possible Role in Sperm Maturation

Abstract

Electrolyte and water transport in different regions of the rat epididymis has been studied using a microperfusion technique. The caput and proximal corpus epididymides were found to absorb NaCl and water and secrete K+ at a lower rate than the cauda epididymidis. The secretion rate of protein was the same in both regions. In the caput and proximal corpus, reabsorption of chloride was hypertonic. Reabsorption of sodium could not account for water reabsorption. In contrast, water reabsorption in the cauda epididymidis was dependent upon the intraluminal sodium ions. Amiloride inhibited both the Na+ and water reabsorption in this region. It was concluded that in the proximal regions of the rat epididymidis, water reabsorption may be secondary to an active transport of chloride, whereas in the cauda, a net transepithelial transport of sodium ions is the driving force for water reabsorption.Transport of electrolytes and water across the perfused rat cauda epididymidis has also been studied under various experimental conditions. Treatment of rats with alpha‐chlorohydrin (9 mg/kg/day) for 7 days inhibited the rate of sodium and water reabsorption without affecting the secretion of proteins. Ligation of the testicular efferent duct or the corpus epididymidis had no significant effect on the transport functions of the cauda epididymidis. When cyproterone acetate (10 mg/rat/day) was injected into male rats, the rate of sodium and water reabsorption was reduced. This effect was accompanied by a loss of sperm motility. It is concluded that the transport functions of the cauda do not require the normal flow of testicular fluid, but may depend on the supply of circulating androgen in the blood. Alpha‐chlorohydrin and cyproterone acetate may affect sperm maturation by disrupting the normal milieu of the epididymal duct.