Calcium and lipid exchange machinery in Sertoli cells

Abstract

Sperm production (spermatogenesis) takes place in the seminiferous tubules of the testis. Specialized junction complexes termed ‘ectoplasmic specializations' (ESs) in the seminiferous epithelium have several key functions. ESs between Sertoli cells disassemble during the movement of early spermatogenic cells towards the apex of the epithelium and those ESs between a Sertoli cell and late stage spermatids disassemble during sperm release. There is evidence that structures called ‘Tubulobulbar Complexes' (TBCs) are endocytic structures responsible for the internalization and eventual degradation of junctions associated with ESs, allowing for early spermatocyte translocation from the basal epithelium and release of late spermatids from the apical epithelium. One key feature of both ESs and TBCs is their extensive association with peripheral ER. ESs are tripartite in structure consisting of Sertoli cell plasma membrane (PM), a layer of actin bundles, and an overlying leaflet of ER. TBCs are double membrane invaginations that appear as ESs are beginning to break down. They are long, endocytic in‐growths, with a swelled bulb region that contains an extensive ER‐PM contact site. TBC bulbs eventually ‘bud’, fuse, and become endosomes. Little is understood about the function of the ER at both ESs and TBCs, though it is well established that ER contact sites in other cells function in both calcium signalling and lipid exchange. If ER in ESs and ER‐TBC contacts function in calcium and lipid exchange, then known calcium signalling machinery and lipid exchange proteins should be localized to these structures. Using confocal imaging, we localized the CACNA1H voltage gated calcium channel to the PM of apical ESs, and the VAPA integral ER protein, which is associated with lipid synthesis and exchange machinery, to the apical ER as well as the ER in basal regions known to contain ESs. This data adds further weight to the hypothesis that calcium exchange is integral to regulation of ES and TBC structure, as well as begins our exploration into the possible role of lipid exchange at these sites.Support or Funding InformationThis work was supported by the Natural Sciences and Engineering Research Council (NSERC) of Canada (155397‐2013 to A. Wayne Vogl)This abstract is from the Experimental Biology 2018 Meeting. There is no full text article associated with this abstract published in The FASEB Journal.