Reduction of cryopreservation-induced structural, functional and molecular damages in ram sperm by hydrated C60 fullerene.

This study aimed to investigate the morphological, functional and molecular changes in frozen-thawed ram sperm using an extender containing different concentrations of hydrated carbon 60 fullerene (C60 HyFn), a nanotechnological product. Semen taken from each of the seven Akkaraman rams were pooled. Semen collection was done twice a week and it continued for 3 weeks. Each pooled semen sample was divided into six equal groups and diluted with tris + egg yolk extender including 0 (control), 200, 400, 800 nM, 1 and 5 µM concentrations of C60 HyFn at 37°C. They were then frozen in liquid nitrogen vapour at -140°C, stored in liquid nitrogen container (-196°C) and thawed at 37°C for 25 s before analysis. In comparison with control, C60 HyFn addition prior to freezing procedure provided significant increases in total and progressive motility rates, glutathione peroxidase, catalase activities and percentage of highly active mitochondria, and significant decreases in dead and abnormal sperm rates, lipid peroxidation, caspase-3 and DNA fragmentation levels in frozen-thawed ram semen. When compared to control, C60 HyFn supplementation significantly down-regulated the expression levels of miR-200a and KCNJ11, and significantly up-regulated the expression levels of miR-3958-3p (at the concentrations of 200, 400, 800 nM and 1 µM), CatSper1 (at the concentrations of 200, 400 nM and 5 µM), CatSper2 (at the concentrations of 1 and 5 µM), CatSper3 (at the concentrations of 200, 400 nM, 1 and 5 µM), CatSper4 (at all concentrations), ANO1 (at the concentrations of 800 nM, 1 and 5 µM) and TRPV5 (at the concentrations of 200, 400 and 800 nM). The addition of C60 HyFn had no effect on global DNA methylation rates. As a result, C60 HyFn supplementation to ram semen extenders may be beneficial in reducing some of the functional, structural and molecular damages in sperm induced by the freeze-thawing procedure.

Effect of hydrated C60 fullerene on lipid, vitamin and amino acid composition in frozen-thawed ram semen.

This study was conducted to investigate the effect of different doses of hydrated C60 fullerene (C60HyFn) on freeze-thawing process-induced changes in lipid, vitamin and amino acid composition and also in motility, kinematic, sperm quality and oxidative stress parameters in ram semen. Semen was collected from seven rams twice a week for 3 weeks, so six repetitions were performed. The semen collected in each repetition was pooled. Each pooled sample was diluted with tris + egg yolk extender with (200 nM, 400 nM, 800 nM, 1 µM and 5 µM) and without (control) C60HyFn and they were frozen in mini straws. The doses of 800 nM, 1 µM and 5 µM had higher total, progressive motility, sperm membrane functionality rates, glutathione-peroxidase and catalase activities. All doses of C60HyFn significantly reduced dead and total abnormal sperm rates and malondialdehyde levels. Significant increases in vitamin A (400 and 800 nM doses), vitamin K1 (400 nM, 800 nM and 1 µM doses), total amino acid (all doses) levels, but significant decreases in vitamin D2 (800 nM, 1 and 5 µM doses), vitamin D3 (1 and 5 µM doses) and vitamin E (200 nM, 1 and 5 µM) levels were observed compared to control. In conclusion, the addition of C60HyFn to ram semen at 200 nM - 5 µM range, especially at a dose of 800 nM, provides a positive contribution to the protection of motility, vitamins A, K and total amino acid levels, and oxidant/antioxidant balance after freeze-thawing.

Effect of Hydrated Carbon 60 Fullerene on Frozen Ram Semen Quality.

The aim of this study was to evaluate the effect of hydrated carbon 60 fullerene (C60HyFn) on ram semen quality during cryopreservation. Three ejaculates from each of seven Akkaraman rams were collected using an artificial vagina during the nonbreeding season and pooled. Pooled semen samples were divided into 10 equal parts and diluted with tris + egg yolk extender not containing (control) and containing 100, 200, 400, and 800 nM and 1, 5, 10, 20, and 40 µM C60HyFn at 37°C. After addition of 5% glycerol and an equilibration process for 3 hours, the samples were frozen in 0.25-mL straws in an automatic freezing device at -140°C and stored in a liquid nitrogen container. Straws were thawed 24 hours after freezing and analyzed immediately with no incubation period. Motility, kinematic parameters, abnormality, vitality, hypo-osmotic swelling test (HOST), and oxidative stress levels were analyzed in thawed semen. Compared with the control, 200, 400, and 800 nM and 1 and 5 µM C60HyFn doses increased motility and HOST values and decreased the dead sperm rate. When compared with the control, addition of C60HyFn significantly decreased malondialdehyde levels (between 200 nM and 40 µM doses) and significantly increased glutathione peroxidase (between 800 nM and 40 µM doses) and catalase (between 1 and 40 µM doses) activities. In conclusion, results of this study show that the C60HyFn nanoparticles are nontoxic to ram semen and their supplementation in the extender is beneficial to sperm motility and membrane integrity after freeze-thawing.

Effect of freeze-thawing process on lipid peroxidation, miRNAs, ion channels, apoptosis and global DNA methylation in ram spermatozoa.

This study was carried out to investigate the effect of the semen freeze-thawing process on the functionality and molecular structure of ram spermatozoa. The temperature of pooled and diluted semen at 38°C (group 1, control) was lowered to 5°C (group 2), and it was subjected to glycerolisation-equilibration (group 3), frozen and thawed (group 4). Compared to the control, deterioration in spermatological parameters and significant increases in lipid peroxidation and global DNA methylation levels were observed in groups 3 and 4. When compared with the control, significant downregulation in the levels of miR-485 of group 2, miR-29a of group 3 and let-7a, miR-485 and miR-29a of group 4, and significant upregulation in the levels of miR-107 of group 3 and miR-127 of groups 3 and 4 were detected. In comparison to the control, significant upregulation in the levels of CatSper1, CatSper2, CatSper3, CatSper4, ANO1 and TRPM3 of group 2, CatSper4, ANO1 and TRPM3 of group 3 and KCNJ11 of group 4, and significant downregulation in the CatSper 3 level of group 4 were determined. As a result, the semen freeze-thawing process causes motility and morphological disorders in rams. This may be due to molecular changes associated with lipid peroxidation in spermatozoa.

Carbamazepine-induced sperm disorders can be associated with the altered expressions of testicular KCNJ11/miR-let-7a and spermatozoal CFTR/miR-27a.

Male infertility is a global health problem, and the underlying molecular mechanisms are not clearly known. Ion channels and microRNAs (miRNAs), known to function in many vital functions in cells, have been shown to play a significant role in male infertility through changes in their expressions. The study aimed to evaluate the alterations of testicular and/or spermatozoal potassium voltage-gated channel subfamily J member 11 (KCNJ11), Cystic fibrosis transmembrane conductance regulator (CFTR), miR-let-7a and miR-27a expressions in carbamazepine-related male infertility. Here, we showed that carbamazepine reduced sperm motility, increased abnormal sperm morphology, and impaired hormonal balance as well as increased relative testis weight and decreased relative seminal vesicle weight. On the other hand, downregulated KCNJ11 and upregulated miR-let-7a expressions were determined in testis (p < .05). Also, downregulated KCNJ11 and upregulated CFTR and miR-27a expressions were found in spermatozoa (p < .05). Interestingly, altered testicular KCNJ11 and miR-let-7a expressions were correlated with decreased sperm motility and elevated sperm tail defect. Besides, spermatozoal CFTR and miR-27a expressions positively correlated with sperm tail defects. The results indicated a significant relationship between ion channel and/or miRNA expression alterations and impaired sperm parameters due to carbamazepine usage.