Jaime Eduardo Bernal Villegas scite author profile

Nitrosative stress is produced by high levels of reactive nitrogen species (RNS). The RNS include peroxynitrite, a highly reactive free radical produced from a diffusion-controlled reaction between nitric oxide and superoxide anion. Peroxynitrite causes nitration and oxidation of lipids, proteins and DNA, and is thus considered an important pathogenic mechanism in various diseases. Although high levels of peroxynitrite are associated with astenozoospermia, few reports exist regarding the in vitro effect of high levels of this RNS on human sperm. The aim of this study was to evaluate the in vitro effect of nitrosative stress caused by peroxynitrite on the viability, motility and mitochondrial membrane potential of human spermatozoa. To do this, human spermatozoa from healthy donors were exposed in vitro to 3-morpholinosydnonimine (SIN-1), a molecule that generates peroxynitrite. Incubations were done at 378C for up to 4 h with SIN-1 concentrations between 0.2 and 1.0 mmol/l. Generation of peroxynitrite was confirmed using dihydrorhodamine 123 (DHR) by spectrophotometry and flow cytometry. Sperm viability was assessed by propidium iodide staining; sperm motility was analyzed by CASA, and the state of mitochondrial membrane potential (DCm) by JC-1 staining. Viability and DCm were measured by flow cytometry. The results showed an increase in DHR oxidation, demonstrating the generation of peroxynitrite through SIN-1. Peroxynitrite decreased progressive and total motility, as well as some sperm kinetic parameters. Mitochondrial membrane potential also decreased. These alterations occurred with no decrease in sperm viability. In conclusion, peroxynitriteinduced nitrosative stress impairs vital functions in the male gamete, possibly contributing to male infertility.

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Bacteria induce expression of apoptosis in human spermatozoa

Villegas

et al. 2005

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An increased number of sperm undergoing apoptosis has been observed during inflammatory processes in the male genital tract, which might be associated with elevated reactive oxygen species (ROS) levels. However, another factor to stimulate apoptosis could be the direct contact with bacteria or its products, even in the absence of ROS. The aim of this study was to investigate whether bacteria can directly initiate apoptosis in human spermatozoa. Human spermatozoa selected by density gradient centrifugation were incubated with polymorphonuclear granulocytes (PMN) isolated from blood and/or E. faecalis, E. coli or S. aureus. As ROS inductor in PMN, phorbol-12-myristate-13-acetate was used. After incubating the cells for 60 min at 37 degrees C, ROS were determined by chemiluminescence and phosphatidyl serine (PS) externalization was analyzed by flow cytometry with Annexin V-FITC and propidium iodide (PI). The increase in the percentage of spermatozoa Annexin V-FITC-positive/ PI-negative (early event of late apoptosis) was significant after the incubation with PMN plus PMA, PMN plus E. coli and E. coli alone. The percentage of spermatozoa Annexin V-FITC-positive/ PI-positive (apoptosis/necrosis) increased significantly in sperm incubated with E. coli and S. aureus (20.3% +/- 3 and 13.6% +/- 3.2 compared to sperm alone, 6% +/- 0.5). Sperm incubated with PMN-PMA activated showed only a relative increase in apoptosis/necrosis (8.4% +/- 1). Our results show that bacteria directly increase the PS externalisation in ejaculated human sperm. This way of inducing apoptosis does not require external ROS and may result from anyone of the molecular mechanisms that account for changes in motility, vitality and DNA integrity, that are characteristics of spermatozoa in male genital tract infection.

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Canine sperm vitrification with sucrose: effect on sperm function

Sánchez

Risopatrón

Schulz

et al. 2011

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The ability of sucrose to protect spermatozoa against mitochondrial damage, artificial acrosome reaction and DNA fragmentation during ultra-rapid cryopreservation in canine sperm was investigated. Swim-up selected spermatozoa of second-fraction semen were vitrified with different concentrations of sucrose (0.1, 0.25 and 0.4 m) in proportion 1 : 1 v/v with HTF-BSA 1%. From each group, 30-μl suspensions of cells were dropped directly into liquid nitrogen and stored for at least 24 h. Cells were thawed by submerging the spheres in HTF with 1% BSA at 37 °C. The number of progressively motile spermatozoa was significantly higher in the sucrose 0.25 m + HTF-BSA 1% (42.5 ± 2.3%, P < 0.01) than in HTF only (1.66 ± 0.3%). The same combination of sucrose 0.25 m + HTF-BSA 1% (42.7 ± 1.5%) had a stronger cryoprotective effect on the integrity of mitochondrial membrane potential (P < 0.05) and decreased the DNA fragmentation (2.8 ± 0.5%) as compared with HTF only (1.93 ± 0.6% and 5.6 ± 0.6% respectively). With respect to acrosome-reacted spermatozoa, no significant difference was found between the groups investigated (P > 0.05). It is concluded that sucrose, a nonpermeable cryoprotectant, can effectively preserve important physiological parameters such as mitochondrial membrane potential and DNA integrity during ultra-rapid cryopreservation.

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Effect of Escherichia coli and its soluble factors on mitochondrial membrane potential, phosphatidylserine translocation, viability, and motility of human spermatozoa

Schulz

Sánchez

Soto

et al. 2010

Fertility and Sterility

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Integrity of mitochondrial membrane potential reflects human sperm quality

Espinoza

Schulz

Sánchez

et al. 2009

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Summary The aim of this work was to evaluate intracellular reactive oxygen species (ROS) levels, phosphatidylserine (PS) externalisation and mitochondrial membrane potential integrity in the spermatozoa of healthy donors and outpatients who consulted for infertility and to correlate the results with the classic sperm parameters. For the evaluation of intracellular ROS levels, PS externalisation and mitochondrial membrane potential integrity, the fluorescent compounds dihydroethidium, annexin V‐FITC and JC‐1, respectively, were used and analysed by using flow cytometry. Conventional seminal analysis, including motility, viability, morphology, sperm count and volume, was performed according to the WHO criteria. The mitochondrial membrane potential and ROS results showed significant differences between the spermatozoa of individuals with a normal semen analysis and those of the group presenting abnormality in at least one of the sperm parameters. Mitochondrial membrane potential showed a significant and direct correlation with all the sperm parameters analysed. ROS were inversely correlated with motility, viability and morphology. PS externalisation, however, did not show any differences between the two groups, nor was it correlated with the sperm parameters examined. The evaluation of mitochondrial membrane potential integrity is a test that reflects sperm quality, which makes it highly recommendable to be applied as a complement to routine sperm analyses.

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