Disruption of the protein C inhibitor gene results in impaired spermatogenesis and male infertility
Pavel Uhrin, … , Bernd R. Binder, Margarethe Geiger
Pavel Uhrin, … , Bernd R. Binder, Margarethe Geiger
Published December 15, 2000
Citation Information: J Clin Invest. 2000;106(12):1531-1539. https://doi.org/10.1172/JCI10768.
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Article

Disruption of the protein C inhibitor gene results in impaired spermatogenesis and male infertility

Abstract

Protein C inhibitor (PCI) is a nonspecific, heparin-binding serpin (serine protease inhibitor) that inactivates many plasmatic and extravascular serine proteases by forming stable 1:1 complexes. Proteases inhibited by PCI include the anticoagulant activated protein C, the plasminogen activator urokinase, and the sperm protease acrosin. In humans PCI circulates as a plasma protein but is also present at high concentrations in organs of the male reproductive tract. The biological role of PCI has not been defined so far. However, the colocalization of high concentrations of PCI together with several of its target proteases in the male reproductive tract suggests a role of PCI in reproduction. We generated mice lacking PCI by homologous recombination. Here we show that PCI–/– mice are apparently healthy but that males of this genotype are infertile. Infertility was apparently caused by abnormal spermatogenesis due to destruction of the Sertoli cell barrier, perhaps due to unopposed proteolytic activity. The resulting sperm are malformed and are morphologically similar to abnormal sperm seen in some cases of human male infertility. This animal model might therefore be useful for analyzing the molecular bases of these human conditions.

Authors

Pavel Uhrin, Mieke Dewerchin, Mario Hilpert, Peter Chrenek, Christian Schöfer, Margareta Zechmeister-Machhart, Gerhard Krönke, Anja Vales, Peter Carmeliet, Bernd R. Binder, Margarethe Geiger

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Histological analysis of male reproductive organs of PCI+/– and PCI–/– m...
Histological analysis of male reproductive organs of PCI+/– and PCI–/– mice. (af) Testes of PCI+/– (a, c) and PCI–/– (b, df) mice are shown. (a, b) Semithin sections of seminiferous tubules. (c, d) Electron micrographs of seminiferous tubules. Whereas the seminiferous tubule of the PCI+/– mouse shows normal morphology (a), the seminiferous tubule of the PCI–/– mouse (b) has several unusual characteristics. The lumen is filled with immature spermatogenetic cells. The cytoplasm of Sertoli cells appears degenerated (arrows in b and d). Necrotic cells are found in the tubule wall (arrowhead in b) and in the tubule lumen. In c and d, arrows mark the cytoplasm of Sertoli cells. TUNEL assay (e) reveals spermatogenic cells that are positive for apoptosis (arrows), whereas Sertoli cells are devoid of such a signal (arrowhead). Electron micrograph of Sertoli cells of PCI–/– mice (f) shows disrupted Sertoli cell barrier of (upper panel). The nucleus lacks characteristic morphologic features of apoptosis (lower panel). (gi) Cauda epididymis of PCI+/– (g) and of PCI–/– mice (h and i). In h, the lumen is filled with immature and malformed cells and with cell fragments. The lining cells appear irregular and are occasionally absent (asterisk). TUNEL assay (i) shows many apoptotic cells in the lumen but not in the lining epithelium. The seminal vesicles of both PCI+/– mice (k) and PCI–/– mice (l) appear normal.