Jennifer J. Linfor scite author profile

The objective of this study was to examine the effect of reactive oxygen species (ROS) and cryopreservation on DNA fragmentation of equine spermatozoa. In experiment 1, equine spermatozoa were incubated (1 hour, 38 degrees C) according to the following treatments: 1) sperm alone; 2) sperm + xanthine (X, 0.3 mM)-xanthine oxidase (XO, 0.025 U/mL); 3) sperm + X (0.6 mM)-XO (0.05 U/mL); and 4) sperm + X (1 mM)-XO (0.1 U/mL). In experiment 2, spermatozoa were incubated (1 hour, 38 degrees C) with X (1 mM)-XO (0.1 U/mL) and either catalase (200 U/mL), superoxide dismutase (SOD, 200 U/mL), or reduced glutathione (GSH, 10 mM). Following incubation, DNA fragmentation was determined by the single cell gel electrophoresis (comet) assay. In experiment 3, equine spermatozoa were cryopreserved, and DNA fragmentation was determined in fresh, processed, and postthaw sperm samples. In experiment 1, incubation of equine spermatozoa in the presence of ROS, generated by the X-XO system, increased DNA fragmentation (P <.005). In Experiment 2, the increase in DNA fragmentation associated with X-XO treatment was counteracted by the addition of catalase and GSH but not by SOD, suggesting that hydrogen peroxide and not superoxide appears to be the ROS responsible for such damage. In experiment 3, cryopreservation of equine spermatozoa was associated with an increase (P <.01) in DNA fragmentation when compared with fresh or processed samples. This study indicates that ROS and cryopreservation promote DNA fragmentation in equine spermatozoa; the involvement of ROS in cryopreservation-induced DNA damage remains to be determined.

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Equine Sperm Membrane Phase Behavior: The Effects of Lipid-Based Cryoprotectants1

Ricker

Linfor

Delfino

et al. 2006

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The plasma membrane of sperm can undergo lipid phase separation during freezing, resulting in irreversible damage to the cell. The objective of our study was to examine the membrane phase behavior of equine spermatozoa in the absence and presence of lipid-based cryoprotectants. Biophysical properties of sperm membranes were investigated with Fourier-transform infrared spectroscopy. Compared to fresh untreated sperm, postthaw untreated sperm showed extensive lipid phase separation and rearrangement. In contrast, postthaw sperm that were cryopreserved in egg phosphatidylcholine (egg PC)- or soy phosphatidylcholine (soy PC)-based diluents showed similar lipid phase behavior to that of fresh, untreated sperm. Studies with a deuterium-labeled PC lipid (POPCd-31) suggest that exogenous lipid from the diluents are strongly associated with the sperm membrane, and scanning electron microscopy images of treated sperm show the presence of lipid aggregates on the membrane surface. Thus, the exogenous lipid does not appear to be integrated into the sperm membrane after cryopreservation. When compared to a standard egg-yolk-based diluent (INRA 82), the soy and egg PC media preserved viability and motility equally well in postthaw sperm. A preliminary fertility study determined that sperm cryopreserved in the soy PC-based medium were capable of fertilization at the same rate as sperm frozen in the conventional INRA 82 medium. Our results show that pure lipid-based diluents can prevent membrane damage during cryopreservation and perform as well as a standard egg-yolk-based diluent in preserving sperm viability, motility, and fertility.

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Assessment of the cryopreservation of equine spermatozoa in the presence of enzyme scavengers and antioxidants

Baumber

Ball²,

Linfor³

2005

ajvr

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The addition of antioxidants to the cryopreservation extender did not improve the quality of equine spermatozoa after thawing, which suggests that the role of oxidative stress in cryopreservation-induced damage of equine spermatozoa requires further investigation. Our data suggest that solubilizing alpha-tocopherol in ethanol may affect spermatozoal viability; consequently, water-soluble analogues of alpha-tocopherol may be preferred for future investigations.

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Detection of DNA Damage in Response to Cooling Injury in Equine Spermatozoa Using Single‐Cell Gel Electrophoresis

Linfor

Meyers

2002

Journal of Andrology

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Single-cell gel electrophoresis (SCGE), or comet assay, has the ability to detect damage at the single cell level and has not been reported for equine sperm. The ability to detect nuclear damage at the single cell level could aid in the advancement of protocols for optimal semen preservation. The goals of these experiments were to adapt this assay for use with equine sperm and to utilize the assay for determining the integrity of equine sperm DNA following treatments with storage at various decreased temperatures (Ϫ20ЊC and 5ЊC). Results from experiments in which sperm were frozen (Ϫ20ЊC) in the absence of cryoprotectants revealed that significantly more cells with fragmented tails of DNA, or comets, occurred among those exposed to 1, 3, and 5 freeze-thaw cycles (65% Ϯ 6%, 76% Ϯ 11%, 92% Ϯ 6%, respectively) compared with fresh, untreated sperm (19% Ϯ 16%, P Ͻ .05). In addition, DNA damage was different (P Ͻ .05) between the three freeze-thaw treatments. Sensitivity of SCGE on equine sperm was further tested with known ratios of frozen-thawed and fresh cells. The amount of detectable DNA damage was positively correlated with the percentage of cryodamaged cells in each treatment (r 2 ϭ 0.92, P Ͻ .05). Potential damage as a result of cooled storage was also investigated and results revealed that sperm stored for 48 hours (at 5ЊC) had a higher percentage of comets than that of fresh sperm (63% Ϯ 13.9% and 28% Ϯ 15.6%, respectively, P Ͻ .05). The percentage of viable sperm also decreased linearly over time and was inversely correlated with percent of comets (r 2 ϭ 0.805, P Ͻ .001). Detection of sublethal and/or uncompensable fertility factors in semen, such as DNA fragmentation, could be useful for detecting male differences in semen for cooling or cryopreservation potential and could provide a tool for monitoring and preserving fertility for individual stallions.

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Capacitation and acrosomal exocytosis are enhanced by incubation of stallion spermatozoa in a commercial semen extender

2002

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