The epididymal transcriptome and proteome provide some insights into new epididymal regulations.

Once shed from their fostering Sertoli cells, spermatozoa leave the testis and are transported passively by seminiferous fluid through the rete testis. Then, these immature cells enter the complex efferent duct system that is joined to the unique and convoluted epididymal duct. This epididymal duct, lined by a continuous layer of epithelial cells joined by tight junctions, is a tube several meters long (up to 60 m in domestic mammals) and forms an organ that is classically subdivided into 3 major anatomical regions: the head/caput, the corpus/body, and the tail/cauda. Spermatozoa travel throughout the duct for several days to weeks, depending on the species, and may be stored for even longer periods in the cauda part of the epididymis and vas deferens. During their journey the proportion of potentially "mature" spermatozoa increases, but it is only when they reach the cauda epididymidis that almost all spermatozoa have acquired their natural fertilizing ability, which involves progressive motility, the ability to undergo the postejaculatory events (capacitation and hyperactivation), and the capacity to recognize and to bind to the oocyte investments and egg plasma membrane. Recent secretomic, proteomic, and transcriptomic studies have provided new information on the functions and the regionalization of the epididymis and revealed some insights into the complexity of epididymal fluid. Among genes and proteins highly expressed by this tissue, many have roles related to sperm protection (such as oxidation), but a large number of new compounds related to innate immunity have also been discovered. This review will focus on possible new control mechanisms that these studies have suggested for this tissue.