Recent experimental data show that incubating bovine sperm with cholesterol-loaded cyclodextrin (CLC) before cryopreservation increases the percentages of motile and viable cells recovered after freezing and thawing, compared with control sperm. In the present study, we report the effect of incubating bovine sperm with CLC on the subzero water transport response and the membrane permeability parameters (reference membrane permeability (L pg ) and activation energy (E Lp )). Water transport data during freezing of bovine sperm cell suspensions were obtained at a cooling rate of 20 8C/min under three different conditions: 1. in the absence of cryoprotective agents (CPAs); 2. in the presence of 0.7 M glycerol; and 3. in the presence of 1.5 mg/ml CLC and 0.7 M glycerol. With previously published values, the bovine sperm cell was modeled as a cylinder of length 39.8 mm and radius 0.4 mm, with osmotically inactive cell volume (V b ) of 0.61 V o , where V o is the isotonic cell volume. By fitting a model of water transport to the experimentally obtained data, the best-fit water transport parameters (L pg and E Lp ) were determined. The predicted best-fit permeability parameters ranged from L pg 5 0.02 to 0.036 mm/min-atm and E Lp 5 26.4 to 42.1 kcal/mol. These subzero water transport parameters are significantly different from the suprazero membrane permeability values (obtained in the absence of extracellular ice) reported in the literature. Calculations made of the theoretical response of bovine spermatozoa at subzero temperatures suggest that the optimal cooling rate to cryopreserve bovine spermatozoa is 45-60 8C/min, agreeing quite closely with experimentally determined rates of freezing bovine spermatozoa.
Quercetin has been reported to be an efficient antioxidant which protects chicken spermatogonial cells from oxidative damage through increasing intracellular antioxidants and decreasing lipid peroxidation. Exposure to diethylstilboestrol (DES) could cause reproductive damage in males, which is associated with oxidative stress. This study was conducted to investigate the protective effects of quercetin on DES-induced oxidative damage in cultured hamster spermatogenic cells. The cells were treated with different concentrations of DES, and their growth status was observed under inverted microscope. The viability of spermatogenic cells was detected by 3-(4, 5-dimethylthiazol-2-yl)-2,5-diphenyl-tetrazolium bromide (MTT). The contents of superoxide dismutase (SOD) in supernatants and glutathione peroxidase (GSH-Px) in cells were detected with spectrophotography. The results showed that quercetin significantly inhibited the DES-induced damage on spermatogenic cells, with the exception of the low-dose group in which no significant difference was observed. The cell survival rate increased significantly in the middle- and high-dose groups. The contents of SOD and GSH-Px were significantly elevated after medication with quercetin (P < 0.01). It can be concluded that quercetin protects spermatogenic cells against DES-induced oxidative damage through increasing intracellular antioxidants and decreasing lipid peroxidation. Quercetin plays a very important role in ameliorating reproductive toxicity induced by environmental oestrogens.
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