A biological factor that inhibits the in vitro secretion of testin by Sertoli cells was purified to apparent homogeneity from conditioned medium of germ cells isolated using trypsin. Partial N-terminal amino acid sequence analysis of the purified germ cell factor revealed a sequence of NH2-IVGGYTXAAN. Comparison of the sequence with the existing protein database revealed that it is homologous to trypsin. Immunoprecipitation experiments using either [35S]-labeled germ or Sertoli cell proteins and a monospecific anti-trypsin antibody failed to demonstrate the synthesis and secretion of trypsin by these testicular cells, suggesting the isolated factor is the residuary trypsin that was used for isolating germ cells from seminiferous tubules. Subsequent experiments revealed that trypsin per se can inhibit the secretion of Sertoli cell testin and clusterin dose-dependently, whose effect can be prohibited by soybean trypsin inhibitor (STI). In view of these findings, a nonenzymatic procedure was deemed necessary to prepare germ cell conditioned medium (GCCM) to assess whether an authentic biological factor(s) is indeed present. Four batches of conditioned medium of germ cells isolated by a mechanical procedure without the use of trypsin were fractionated by sequential Mono Q anion exchange and C8 reversed-phase HPLC. When these fractions were monitored for testin modulatory activity using an in vitro bioassay with primary cultures of Sertoli cells, it was shown that GCCM prepared by this procedure indeed contained testin modulatory bioactivity. Since testin is a novel component of specialized junctions between Sertoli and germ cells, the identification of a germ cell factor(s) that affects its secretion by Sertoli cells suggests a dynamic biochemical relationship between these cell types in the seminiferous epithelium.
injections, nine of ten animals regained fertility, but the time taken for this depended upon the rate of decline of antibody titres. Re-boosting these monkeys with 100 \ g=m\ g oFSH after confirming that recovery had occurred revealed prompt increases in antibody titres followed once again by onset of oligo-azoospermia and infertility, underscoring the specificity of immunization effect. The immunized monkeys, apart from being acutely oligospermic, ejaculated spermatozoa that were markedly deficient in key acrosomal enzymes, such as acrosin and hyaluronidase, and motility as well as in their ability to penetrate a gel in vitro, suggesting that the infertility observed was due to gross reductions in the numbers of spermatozoa that could effectively interact with the oocyte and cause successful fertilization.
Testin is an authentic Sertoli cell secretory protein consisting of two molecular variants designated testin I (M(r) 35 000) and testin II (M(r) 37 000). N-Terminal amino acid sequence analysis revealed that testin I is identical to testin II except that testin II has three extra N-terminal amino acids of threonine-alanine-proline (TAP). Earlier studies by immunoflorescence microscopy have shown that testin is detected in the seminiferous epithelium consistent with localization in the junctions between Sertoli cells as well as Sertoli-germ cells, and that it appears to be a component of junctional complexes in the testis. In the present study, we have examined the localization of testin in different stages of the spermatogenic cycle of the adult rat testis when germ cells migrate from the basal portion of the seminiferous epithelium to the tubular lumen. In stages I-IV, testin was localized mainly in the basement laminae in the junctional complexes between adjacent Sertoli cells as well as between Sertoli cells, spermatogonia, and pachytene spermatocytes. When elongated spermatids were embedded into the seminiferous epithelium in stage VII of the cycle, testin was detected predominantly on the concave side of the elongated spermatids, but relatively few testin reaction products were seen in the round spermatids. In the beginning of stage VIII of the spermatogenic cycle, intense testin immunoreactive substances were detected around the heads of the elongated spermatids; these substances were virtually undetectable in late stage VIII after the release of the mature sperm into the tubular lumen, suggesting that testin may be a novel marker to divide stage VIII into stages VIIIa and VIIIb.(ABSTRACT TRUNCATED AT 250 WORDS)
A biological factor that inhibits the in vitro secretion of testin by Sertoli cells was purified to apparent homogeneity from conditioned medium of germ cells isolated using trypsin. Partial N-terminal amino acid sequence analysis of the purified germ cell factor revealed a sequence of NH2-IVGGYTXAAN. Comparison of the sequence with the existing protein database revealed that it is homologous to trypsin. Immunoprecipitation experiments using either [35S]-labeled germ or Sertoli cell proteins and a monospecific anti-trypsin antibody failed to demonstrate the synthesis and secretion of trypsin by these testicular cells, suggesting the isolated factor is the residuary trypsin that was used for isolating germ cells from seminiferous tubules. Subsequent experiments revealed that trypsin per se can inhibit the secretion of Sertoli cell testin and clusterin dose-dependently, whose effect can be prohibited by soybean trypsin inhibitor (STI). In view of these findings, a nonenzymatic procedure was deemed necessary to prepare germ cell conditioned medium (GCCM) to assess whether an authentic biological factor(s) is indeed present. Four batches of conditioned medium of germ cells isolated by a mechanical procedure without the use of trypsin were fractionated by sequential Mono Q anion exchange and C8 reversed-phase HPLC. When these fractions were monitored for testin modulatory activity using an in vitro bioassay with primary cultures of Sertoli cells, it was shown that GCCM prepared by this procedure indeed contained testin modulatory bioactivity. Since testin is a novel component of specialized junctions between Sertoli and germ cells, the identification of a germ cell factor(s) that affects its secretion by Sertoli cells suggests a dynamic biochemical relationship between these cell types in the seminiferous epithelium.
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