Isoforms of angiotensin I-converting enzyme in the development and differentiation of human testis and epididymis
K. Pauls, R. Metzger,
K. Steger,
T. Klonisch,
S. Danilov,
F. E. Franke,
R. Metzger
Department of Pediatric Surgery, Ludwig Maximilians University, Munich, Germany;
Search for more papers by this authorK. Steger
Department of Veterinary Anatomy, Justus Liebig University, Giessen, Germany;
Search for more papers by this authorT. Klonisch
Department of Anatomy and Cell Biology, Martin Luther University, Halle, Germany;
Search for more papers by this authorS. Danilov
Department of Anesthesiology, University of Illinois, Chicago, IL, USA;
Search for more papers by this authorF. E. Franke
Department of Pathology, Justus Liebig University, Giessen, Germany
Search for more papers by this authorK. Pauls, R. Metzger,
K. Steger,
T. Klonisch,
S. Danilov,
F. E. Franke,
R. Metzger
Department of Pediatric Surgery, Ludwig Maximilians University, Munich, Germany;
Search for more papers by this authorK. Steger
Department of Veterinary Anatomy, Justus Liebig University, Giessen, Germany;
Search for more papers by this authorT. Klonisch
Department of Anatomy and Cell Biology, Martin Luther University, Halle, Germany;
Search for more papers by this authorS. Danilov
Department of Anesthesiology, University of Illinois, Chicago, IL, USA;
Search for more papers by this authorF. E. Franke
Department of Pathology, Justus Liebig University, Giessen, Germany
Search for more papers by this author Dr Folker E. Franke, Department of Pathology, Justus Liebig University, Langhansstrasse 10, D-35392 Giessen, Germany. Tel.: +49 641 99 41132; fax: +49 641 99 41109; e-mail: [email protected]
Summary.
Angiotensin I-converting enzyme (ACE; CD143, Kininase II, EC 3.4.15.1) is known to be crucial for male fertility in animal models. We therefore studied its testicular (tACE) and somatic (sACE) isoforms in foetal and adult human testis and epididymis using monoclonal antibodies and cRNA probes. During spermatogenesis, tACE was found only in differentiating germ cells and was the only isoform within the seminiferous tubules of adult men. Although tACE mRNA was present in spermatocytes, tACE protein was initially found in post-meiotic step 3 spermatids and increased markedly during further differentiation. The enzyme was strictly confined to the adluminal membrane site of elongating spermatids and was localized at the neck and midpiece region of released and ejaculated spermatozoa. In contrast, sACE was expressed heterogeneously in Leydig cells and endothelial cells of the testicular interstitium, and homogeneously along the luminal surface of epithelial cells lining the ductuli efferentes, corpus and cauda of epididymis, and vas deferens. The cell- and site-restricted pattern of sACE corresponded to that found in foetal tissues except an additional and transient expression of sACE in foetal germ cells and foetal Sertoli cells. Our study documents for the first time in humans the regulation and unique cellular distribution of ACE isoforms during the ontogenesis of the lower male genital tract.
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