Heparin enhances protamine disulfide bond reduction during in vitro decondensation of human spermatozoa.

BACKGROUND: Human sperm nuclear decondensation in vivo involves protamine disulfide bond reduction by glutathione (GSH) and protamine/histone exchange, presumably with heparan sulfate (HS) as the protamine acceptor. The aim of the present study was to test the hypothesis that these two events occur simultaneously rather than sequentially, as has been hitherto accepted, and to test for the presence of HS in the human oocyte. METHODS: Spermatozoa and isolated sperm nuclei obtained from normal volunteers were exposed in vitro to heparin, the functional analogue of HS and either GSH or dithiothreitol (DTT) as the disulfide reducing agent. Decondensing reagents were added either simultaneously or sequentially. Percentage sperm nuclear decondensation was assayed by phase contrast microscopy. Thiol reduced status of isolated sperm nuclei was evaluated both indirectly [acridine orange (AO) staining of acid-denatured DNA] and directly [monobromobimane (mBBr) staining of protamine-free thiols]. The presence of HS in mature metaphase II (MII) human oocytes was analyzed by immunocytochemistry. RESULTS: Sequential addition of reagents always resulted in significantly lower decondensation if GSH was used as the disulfide bond reducer (P < 0.05 for sperm and P < 0.001 for nuclei), but only when heparin was used first, when DTT was the disulfide reducing agent (P < 0.05 for sperm and P < 0.01 for nuclei). Both AO staining of DNA and mBBr staining of protamines revealed that the addition of heparin to GSH but not to DTT significantly increased the thiol reduced status of sperm chromatin. HS was detected in the ooplasm of zona-free MII human oocytes. CONCLUSIONS: The results presented in this paper clearly show that heparin enhances the sperm chromatin thiol reducing activity of GSH in vitro, suggesting that in vivo thiol reduction and protamine/histone exchange could occur as simultaneous, rather than sequential, events. We also demonstrate for the first time the presence of HS in the human oocyte.

Neural cadherin is expressed in human gametes and participates in sperm-oocyte interaction events.

Neural cadherin (N-cadherin) is a transmembrane glycoprotein involved in calcium-dependent cell-cell adhesion and signalling events. The previous evidence shows N-cadherin expression in the human gonads and gametes; however, N-cadherin subcellular localization in human spermatozoa and oocytes, and its involvement in fertilization remain to be characterized. In this study, expression of N-cadherin in human spermatozoa and testis was confirmed by RT-PCR and protein forms were identified using Western immunoblotting. N-cadherin localization in testicular and ejaculated spermatozoa, in cells that had undergone capacitation and acrosomal exocytosis, as well as in oocytes was assessed using immunocytochemistry. Participation of the adhesion protein in fertilization was evaluated using the HemiZona Assay (HZA) and the zona pellucida (ZP)-free hamster oocyte sperm penetration assay (SPA). Both the N-cadherin transcript and the mature protein form (135 kDa) were found in spermatozoa and testis. The protein was mainly immunolocalized in the acrosomal region of testicular, non-capacitated and capacitated spermatozoa, and was found in the equatorial segment after acrosomal exocytosis. N-cadherin was also detected in oocytes, in conjunction with beta-catenin, a member of the adhesion complex. Sperm incubation with anti N-cadherin antibodies did not affect their ability to interact with homologous ZP in the HZA; by contrast, presence of the antibodies in the SPA led to a significant (p < 0.01) reduction in the percentage of penetrated oocytes. In conjunction, results indicate that N-cadherin is a sperm protein of testicular origin localized in cellular regions involved in gamete interaction. N-cadherin would not participate in sperm-ZP interaction, but it would have a role in sperm-oolemma adhesion/fusion events.

In vitro effects of endosulfan-based insecticides on mammalian sperm.

Endosulfan is an organochloride insecticide extensively used in several countries to protect crops from pests. As several studies indicate that endosulfan can affect human and animal development, the aim of this study was to analyse whether sperm parameters and the process of chromatin decondensation could be altered by endosulfan in mice sperm. Spermatozoa from cauda epididymis were obtained from mature male mice and incubated in the presence of two commercial formulations (CFs) of endosulfan (Master® and Zebra Ciagro®) or the active ingredient (AI) alone. A significant decrease in the percentage motility and viability of spermatozoa with respect to controls was found. In vitro decondensation was performed in the presence of glutathione and heparin. Spermatozoa incubated with the AI, endosulfan Master® and endosulfan Zebra Ciagro® showed an increase in chromatin decondensation. In addition, the TUNEL assay showed that DNA fragmentation was significantly higher when sperm were incubated with either one of the CFs when compared to the AI or controls. The ultrastructure analysis of sperm cells showed evident changes in the structure of the plasma and acrosome membranes of sperm incubated with endosulfan AI or the CFs. These results suggest that endosulfan can affect sperm integrity and in vitro chromatin decondensation as well as DNA fragmentation.