Immune modulation in xenotransplantation.

The use of animals as donors of tissues and organs for xenotransplantations may help in meeting the increasing demand for organs for human transplantations. Clinical studies indicate that the domestic pig best satisfies the criteria of organ suitability for xenotransplantation. However, the considerable phylogenetic distance between humans and the pig causes tremendous immunological problems after transplantation, thus genetic modifications need to be introduced to the porcine genome, with the aim of reducing xenotransplant immunogenicity. Advances in genetic engineering have facilitated the incorporation of human genes regulating the complement into the porcine genome, knockout of the gene encoding the formation of the Gal antigen (α1,3-galactosyltransferase) or modification of surface proteins in donor cells. The next step is two-fold. Firstly, to inhibit processes of cell-mediated xenograft rejection, involving natural killer cells and macrophages. Secondly, to inhibit rejection caused by the incompatibility of proteins participating in the regulation of the coagulation system, which leads to a disruption of the equilibrium in pro- and anti-coagulant activity. Only a simultaneous incorporation of several gene constructs will make it possible to produce multitransgenic animals whose organs, when transplanted to human recipients, would be resistant to hyperacute and delayed xenograft rejection.

Fertilizing potential of ejaculated human spermatozoa during in vitro semen bacterial infection.

OBJECTIVE: To assess the in vitro effect of three bacterial isolates (Escherichia coli, serotype O75:HNT, Staphylococcus haemolyticus, and Bacteroides ureolyticus) and/or leukocytes on sperm motility, subcellular changes in sperm plasma membranes, and sperm fertilizing potential. DESIGN: An in vitro model of semen bacterial infection. SETTING: Basic research laboratory. PATIENT(S): Healthy normozoospermic volunteers and healthy blood donors. INTERVENTION(S): None. MAIN OUTCOME MEASURE(S): Sperm plasma membrane stability was evaluated with a LIVE/DEAD Sperm Viability Kit and with the merocyanine 540 (M540) test both performed using flow cytometry. An oxiSelect TBARS Assay Kit was used for quantitative measurement of malondialdehyde content. Functional ability of spermatozoa was assessed by hypo-osmotic swelling (HOS) test and sperm penetration assay (SPA). RESULT(S): The incubation of sperm with bacteria and/or leukocytes was associated with the reduction of their fertilizing potential demonstrated in both the HOS test and SPA, and this effect can be considered as a natural consequence of diminished motility and sperm membrane injury of lipid bilayers. Bacteroides ureolyticus demonstrated the most significant detrimental effect on sperm structure and function. CONCLUSION(S): Sperm motility and lipid sperm membrane status might be the earliest and the most sensitive indicators of sperm damage with negative consequences for male factor fertility, which can be attributed to both bacteria and leukocytes action.

Chromatin structure analysis of spermatozoa from reciprocal chromosome translocation (RCT) carriers with known meiotic segregation patterns.

The presence of reciprocal chromosome translocations (RCTs), as well as sperm chromatin disturbances, is known to exert negative influence on male fertility. The aim of this study was to identify an association between chromosome structural rearrangements in male RCT carriers and sperm seminological parameters (concentration, motility, morphology), chromatin status (fragmentation and maturity), meiotic segregation pattern and observed chromosomal hyperhaploidy. Sperm samples originated from ten male RCT carriers with reproductive failure/success. TUNEL assay (DNA fragmentation) and chromomycin A3 (CMA3)/aniline blue (AB) staining (chromatin maturity) were used to analyze sperm chromatin status while fluorescent in situ hybridization (FISH) was applied to observe meiotic segregation patterns and hyperhaploidy in spermatozoa. We found that the mean level of sperm DNA fragmentation in the RCT carrier group (18.0 ± 11.9%) was significantly higher (p=0.0006) than the mean of the control group (7.5 ± 4.3%). There was no correlation observed between sperm DNA fragmentation levels (5.6-38.0%) and the frequency of genetically normal/balanced gametes (34.3-62.4%), sperm seminological quality or revealed reproductive failure. In contrast, a correlation between the frequencies of genetically normal/balanced spermatozoa and of gametes with mature chromatin was observed (CMA3: R=0.4524, p=0.2604; AB: R=0.5238, p=0.1827). A statistically significant increase in the hyperhaploidy level of selected chromosomes in all analyzed RCT carriers was documented but was not correlated to sperm seminology or fertility status. Further evaluation and additional assays toward sperm chromatin quality assessment in RCT carriers is suggested to explain the complexity of genomic structural rearrangements and its possible relevance to reproductive success or failure.