Glycosyl phosphatidylinositol-anchored ceruloplasmin is expressed by rat Sertoli cells and is concentrated in detergent-insoluble membrane fractions.

The copper-binding protein, ceruloplasmin, is both a serum component and a secretory product of Sertoli cells. Studies on serum ceruloplasmin have demonstrated it to be a ferroxidase that is essential for iron transport throughout the body. We report here that a glycosyl phosphatidylinositol (GPI)-anchored form of ceruloplasmin is expressed by Sertoli cells. Sertoli cell GPI-anchored proteins were selectively released by phosphatidylinositol-specific phospholipase C and were analyzed by Western blotting. A 135-kDa band was identified as ceruloplasmin by multiple antibody recognition and by amino acid sequence analysis. The presence of the GPI anchor on ceruloplasmin was confirmed by Triton X-114 phase partitioning experiments and by recognition with an antibody to the GPI anchor. GPI-anchored ceruloplasmin was enriched in detergent-insoluble glycolipid-enriched membrane microdomains (DIGs) of Sertoli cells. This is the first report of GPI-anchored ceruloplasmin in Sertoli cells and the first study of GPI-anchored ceruloplasmin in DIGs. We suggest that GPI-anchored ceruloplasmin may be the dominant form expressed by Sertoli cells and that Sertoli cell DIGs may play a role in iron metabolism within the seminiferous tubule.

Dolichol and N-linked oligosaccharide synthesis in the rat testis: interaction between Sertoli and spermatogenic cells, evidence for paracrine effects.

The relative contribution of the Sertoli cell and the pachytene spermatocyte to dolichol and N-linked oligosaccharide biosynthesis within the seminiferous tubule was investigated. Evidence is presented to show that the interaction between these two cell types affects dolichol and N-linked oligosaccharide biosynthesis. Analysis of the dolichol content of Sertoli cultures confirms earlier data suggesting that the Sertoli cell constitutes the major pool of dolichols within the seminiferous tubule. [14C]Acetate incorporation studies suggest that the Sertoli cell in culture synthesizes dolichol much more rapidly than does the isolated pachytene spermatocyte. This information, in addition to previous data in the literature, infers an interactive effect whereby the presence of the spermatogenic cell in the tubule stimulates dolichol synthesis in the Sertoli cell. The absence of normal Sertoli-spermatocyte interactions in in vitro incubations may also limit dolichol synthesis in the pachytene spermatocyte. The distribution of dolichol kinase between the Sertoli and the pachytene spermatocyte was also examined. The concentration of this enzyme in the Sertoli cell suggests the presence of an active salvage pathway within that cell. The correlation between the appearance of the pachytene spermatocyte and the previously described peak of dolichol kinase activity in the seminiferous tubules of the prepubertal animal implies cell-cell interactions. Radiolabelling studies of N-linked oligosaccharides were conducted using [3H]mannose and concanavalin A affinity chromatography to identify multiantennary, biantennary, and high-mannose oligosaccharide pools. An in vitro bicameral coculture system was used to demonstrate that pachytene spermatocytes stimulate incorporation of [3H]mannose into Sertoli cell oligosaccharides.(ABSTRACT TRUNCATED AT 250 WORDS)

Sertoli cell glycosylation patterns as affected by culture age and extracellular matrix.

This study evaluated the responsiveness of Sertoli cell glycosylation in vitro to changes in culture age and to the presence of a reconstituted basement membrane (Matrigel) or collagen IV/laminin substrata. Primary Sertoli cell cultures were prepared from 20-day-old rats and incubated with [3H]mannose, a monosaccharide specific for asparagine-linked oligosaccharides. The cells were harvested on Days 4, 6, or 10 of culture life. A supernatant enriched in cell-surface glycopeptides (the trypsinate) and a cell pellet stripped of surface glycoconjugates were evaluated separately. Glycopeptides derived from a Pronase digest of the two samples were fractionated using concanavalin-A lectin affinity chromatography into three major classes: multiantennary complex-type, biantennary complex-type, and high-mannose-type oligosaccharide structures. The proportion of radiolabeled glycopeptides appearing in each of the three classes did not differ between Days 4 and 6 of culture. In contrast, a significant increase in the percentage of radiolabeled glycopeptides containing multiantennary complex-type oligosaccharides was observed in cells harvested from the 10-day-old cultures. In other experiments, Sertoli cells were grown on various substrata: plastic; collagen IV/laminin; or Matrigel, a reconstituted basement membrane (RBM) composed of laminin, collagen IV, proteoglycan sulfate, entactin, and nidogen. Growth on RBM significantly increased multiantennary complex-type oligosaccharide formation compared to plastic, whereas the high-mannose-type glycopeptides increased in cells grown on collagen IV/laminin. These studies suggest that environmental and physiological conditions such as culture age and the presence of extracellular matrix significantly affect glycosylation patterns in Sertoli cell cultures.

Dolichol kinase activity in the developing rat testis.

Dolichyl phosphate concentrations, a primary factor in regulating the rate of N-glycosidically linked glycoprotein synthesis, are dependent upon a cytidine triphosphate (CTP)-dependent dolichol kinase. This study examines dolichol kinase in rat testicular microsomes and defines assay conditions. As with dolichol kinases from other tissues, addition of 2-mercaptoethanol increased activity 60%. Inclusion of NaF, an inhibitor of testicular dolichyl phosphate phosphatase activity, also resulted in a 38% increase in activity. Triton X-100 was necessary for phosphorylation of both endogenous and exogenous dolichol; however, concentrations of detergent in excess of 0.25-0.35% were inhibitory. A 2- to 5-fold stimulation of kinase activity was obtained by addition of 50-100 microM exogenous dolichol. The high level of nucleoside triphosphatase activity in testicular microsomes mandated the inclusion of high levels of uridine triphosphate (UTP) to protect the [gamma-32 P] CTP. Increasing UTP concentrations up to 50 mM resulted in increased product formation. A clear requirement for divalent cations was observed; 5 mM ethylenediaminetetraacetate (EDTA) abolished activity. The following order of cation effectiveness was observed: Mn greater than or equal to Ca greater than Cd greater than Zn much greater than Mg. Ten mM optima were established for Ca2+ and Mn2+; the presence of UTP, however, results in significantly reduced concentrations of free Ca2+. Ion combination studies demonstrated interactive inhibitory effects between Ca2+ and other stimulatory divalent cations. Addition of 2 microM brain calmodulin, in the presence of 10 mM Ca2+, resulted in a 75-100% stimulation of activity.(ABSTRACT TRUNCATED AT 250 WORDS)

Rat testicular dolichols: distribution and accumulation with age.

Dolichols, linear isoprenoids essential in the biosynthesis of N-glycosylated glycoproteins, are abundant in testicular tissue. This study investigated the distribution of dolichols among testicular cell and subcellular fractions. In addition, the accumulation of dolichol within the rat testis as a function of age was investigated. Dolichol content expressed either as total dolichol/testicle or as dolichol/mg protein exhibited a marked and continuous increase between 14 and 60 days of age. The 4-, 6-, 9-, and 12-mo-old animals exhibited only minor increases in testicular dolichol content. Mean value for retired breeders was 279 ng dolichol/mg protein. Although previous studies have suggested that dolichol synthesis occurs primarily within the spermatogenic cell, elutriation-purified spermatogenic cell fractions showed very low concentrations of dolichol. Pachytene spermatocyte and round spermatid fractions contained 25.8 and 36.5 ng dolichol/mg protein, respectively. Washed epididymal sperm also had a very low dolichol content (18.8 ng dolichol/mg protein). Recovery studies during elutriation purification of spermatogenic cells showed that the majority of dolichol was contained within the Sertoli-rich tubular fragments. Microsomal fractions isolated from whole testis exhibited a small enrichment (1.6-fold) in dolichol content, whereas Golgi apparatus fractions exhibited a large (12-fold) enrichment over that of the initial homogenate. These studies suggest that, although dolichols may be synthesized within the spermatogenic cell, they accumulate within the Sertoli cell.

Involvement of dolichol phosphates as intermediates in the mannosyl and galactosyl transferases of rat testicular germ cell Golgi apparatus membranes.

Isolated Golgi apparatus membranes from the germinal elements (spermatocytes and early spermatids) of rat testis were examined for their ability to incorporate [14C]mannose and [14C]galactose into glycolipid and glycoprotein fractions. Transfer of mannose from GDP-[14C]mannose into a Lipid I fractions (GPD:MPP mannosyl transferase activity), identified as mannosyl phosphoryl dolichol, showed optimal activity at 1.5 mM manganese and at pH 7.5. Low concentrations of Triton X-100 (0.1%) stimulated transferase activity in the presence of exogenous dolichol phosphate (Dol-P); however, inhibition occurred at Triton X-100 concentrations greater than 0.1%. Maximal activity of this GDP:MPP mannosyl transferase occurred at 25 microM Dol-P. Activity using endogenous acceptor was 2.34 pmole/min/mg, whereas in the presence of 25 microM Dol-P the specific activity was 284 pmole/min/mg, a stimulation of 125-fold. Incorporation of mannose into a Lipid II (oligosaccharide pyrophosphoryl dolichol) and a glycoprotein fraction was also examined. In the absence of exogenous Dol-P, rapid incorporation into Lipid I occurred with a subsequent rise in Lipid II and glycoprotein fractions suggesting precursor-product relationships. Addition of exogenous Dol-P to galactosyl transferase assays showed only a minor stimulation, less than twofold, in all fractions. Over the concentration range of 9.4 to 62.5 micrograms/ml Dol-P, only 1% of radioactive product accumulated in the combined lipid fractions. These observations suggest that the mannose transfer involves Dol-P intermediates and also that spermatocyte Golgi membranes may be involved in formation of the oligosaccharide core as well as in terminal glycosylations.

Isolation of germ cell Golgi apparatus from seminiferous tubules of rat testes.

Intact Golgi apparatus have been isolated with good purity from rat testis by a simplified sucrose gradient technique. The procedure is inherently selective in that most of the Golgi apparatus in the isolate are from germ cells in late spermatocyte or early spermatid development. No Sertoli cell Golgi apparatus are present in the fraction. Biochemical analyses showed that the enzyme N-acetylglucosamine galactosyltransferase is enhanced in the band containing Golgi apparatus. Because they are easy to isolate, and because they are involved with the formation of a specific internal cellular component (the acrosome), these Golgi apparatus will be useful objects for comparison with other kinds of Golgi apparatus and for other studies leading to a better understanding of the basic functioning of Golgi apparatus.

Vitamin A: concentration in the rat liver Golgi apparatus.

Vitamin A compounds (principally as retinyl esters) are concentrated in Golgi apparatus fractions from rat liver. The amounts vary with the vitamin A status of the liver and show an inverse relation to the concentration of ubiubinone. The results suggest a specific role of the Golgi apparatus in the mobilization or action, or both, of vitamin A compounds.