Differential expression of complement regulatory proteins decay-accelerating factor (CD55), membrane cofactor protein (CD46) and CD59 during human spermatogenesis.

We have examined the distribution of the complement (C) regulatory proteins CD59, membrane cofactor protein (MCP) and decay-accelerating factor (DAF) on mature sperm and compared expression of these proteins in parallel both during spermatogenesis and in the prostate. Enhanced immunoperoxidase staining and radioimmunoassay confirmed that C regulators are differentially expressed on sperm; CD59 was strongly expressed on the surface of acrosome intact sperm while MCP and DAF appear to be located primarily on the inner acrosomal membrane. While the MW of CD59 on sperm is typical of other systems, we confirm that in addition to a novel 40,000-46,000 MW MCP protein, sperm also express a novel 55,000 MW DAF product. Examination of normal testis by immunostaining revealed that although C regulators are differentially expressed within the germinal epithelium, all three proteins were present on the acrosomal region of condensing spermatids. We show that novel, low MW forms of MCP and DAF are expressed in normal testis membranes but are absent from testis membranes obtained from patients undergoing gender reassignment surgery in whom the germinal epithelium is diminished. Novel MW C3 convertase regulators are therefore associated with differentiating germinal epithelium. Typical CD59 components were also present on normal testis membranes confirming that CD59 is acquired during spermatogenesis. We demonstrate that the prostatic epithelium, in addition to MCP, expresses CD59 but not DAF. By comparison with CD59, therefore, our studies suggest that DAF may be acquired only in the testis. Overall, our data suggest that, on leaving the testis, sperm express the repertoire of C regulators required for protection from C during their transit through the male and female reproductive tracts.