A. Januskauskas

Subtle membrane changes in cryopreserved bull semen in relation with sperm viability, chromatin structure, and field fertility

This study investigated the use of annexin-V/PI assay to assess sub lethal changes in bull spermatozoa post-thawing, and to further relate these changes to results obtained by fluorometric assessment of sperm viability and sperm chromatin structure assay (SCSA), as well as field fertility (as 56-day non-return rates, 56-day NRR) after AI. Frozen-thawed semen samples were obtained from 18 Swedish Red and White bulls (one to three semen batches/bull) and fertility data was based on 6900 inseminations. The annexin-V/PI assay revealed that post-thaw semen samples contained on average 41.8+/-7.5% annexin-V-positive cells. Most of the annexin-V-positive cells were dying cells, i.e. also PI-positive. The incidence of annexin-V-positive cells was negatively related (r=-0.59, P<0.01) to the percentage of viable cells, as detected by fluorometry. The incidence of annexin-V-positive spermatozoa significantly correlated to the SCSA variable xalphat (r=0.53, P<0.05). The incidence of annexin-V-negative, dead cells was the only annexin-V/PI assay variable that correlated significantly with fertility both at batch (r=-0.40, P<0.05), and bull (r=-0.56, P<0.05) levels. Among sperm viability variables, subjectively assessed sperm motility (r=0.52-0.59, P<0.01), CASA-assessed sperm motility (r=0.43-0.61, P<0.05), and the incidence of live spermatozoa, expressed as total numbers (r=0.39-0.54, P<0.05), or percentage values (r=0.68-0.68, P<0.01), correlated significantly with field fertility both at batch, and bull levels. Among the SCSA variables, only the COMP alphat correlated significantly (r=0.33-0.51, P<0.05) with fertility results. The results indicate a certain proportion of bull spermatozoa express PS on their surface after thawing, e.g. they have altered membrane function, and that the incidence of such cells is inversely correlated to sperm viability, and positively correlated to abnormal sperm chromatin condensation since they eventually undergo necrosis.

Assessment of sperm quality through fluorometry and sperm chromatin structure assay in relation to field fertility of frozen-thawed semen from Swedish AI bulls.

We investigated fluorometry to study sperm viability and flow cytometry to study sperm chromatin structure. We also assessed sperm quality after thawing relative to field fertility after AI as shown by 56-day non-return rates (56-d NRR) Frozen-thawed semen samples were obtained from 20 Swedish Red and White bulls (1 to 3 semen batches/bull) and the fertility data were based on 6,369 AIs. Fluorometry enabled simultaneous detection of sperm viability and concentration in Hoechst 33258-stained semen samples. Sperm chromatin structure assay (SCSA) evaluated denaturability of sperm nuclear DNA in situ after acid treatment. The intensity of fluorescence in non-permeabilized samples was negatively (r = -0.60, P < 0.001) correlated with microscopically-assessed sperm viability, and the fluorescence of permeabilized semen samples significantly (r = 0.67, P < 0.001) correlated with sperm concentration as assessed by hemocytometry. From the fluorescence output, the calculated percentage of damaged cells was negatively (r = -0.71, P < 0.001) correlated with the number of live cells derived from the microscopic assessment of sperm viability and concentration. This variable was significantly correlated with fertility results both at batch (r = -0.39, P < 0.05), and bull (r = -0.57, P < 0.01) levels. The SCSA variables SDalphat and COMPalphat were significantly (r = -0.59-0.64, P < 0.001) correlated with sperm viability variables after thawing but only the COMPalphat correlated significantly (r = -0.53, P < 0.05) with fertility results and solely at the bull level. The results indicate that fluorometric assessment is in good agreement with other practiced procedures and can be performed with sufficient accuracy. The SCSA may be a valuable complement for routinely practiced microscopic evaluation of sperm morphology of AI bull semen

Effect of cooling rates on post-thaw sperm motility, membrane integrity, capacitation status and fertility of dairy bull semen used for artificial insemination in sweden

We studied the effects of 2 different cooling rates during equilibration of semen from room temperature to 4 degrees C, at 4.2 degrees C/min (control split sample) or at 0.1 degree C/min (treatment split sample) on in vitro sperm viability post thawing and fertility after AI. Forty batches of split-frozen semen from 14 dairy bulls (Swedish Red and White breed) aged 14 to 16 m.o. or 66 to 79 m.o. were evaluated post-thawing for sperm motility (visual and computer-assisted sperm analysis [CASA], membrane integrity (fluorescent microscopy and flow cytometry post-loading with the combined fluorophores Calcein AM/EthD-1 and SYBR-14/PI); acrosomal status (with Pisum sativum agglutinin [PSA] staining); and capacitation status (CTC-assay). Fertility values (56-d nonreturn rate) of the slow cooling batches (treatment) were 0.4% units higher than for faster cooled (control) batches, but the difference was not statistically significant. Fertility values for the older bulls were 1.6% units higher than for the group of younger sires. No statistically significant correlations were found between semen viability parameters assessed in vitro and 56-d nonreturn rate. Visually assessed sperm motility, membrane integrity, capacitation and acrosomal status post-thawing did not differ significantly between cooling procedures, however the percentage of motile spermatozoa and the kinetic characteristics of spermatozoa--average path velocity (VAP), straight path velocity (VSL) and curvilinear velocity (VCL)--assessed by CASA differed significantly between cooling procedures. The results indicate that most of the in vitro sperm viability parameters post-thawing and the fertility results for bulls after AI did not differ significantly between the 2 semen cooling procedures tested.

Assessment of sperm characteristics post-thaw and response to calcium ionophore in relation to fertility in Swedish dairy AI bulls

The present study examined the relationship between bull sperm characteristics post-thawing, after swim-up, and after challenge to calcium ionophore in relation to fertility (56-d nonreturn rates) after artificial insemination (AI). Spermatozoa from 25 semen batches derived from 15 Swedish Red and White AI bulls were evaluated with regard to post-thaw motility, membrane integrity, and migration through a swim-up procedure. The swim-up separated spermatozoa were assessed in terms of sperm concentration, viability and capacitation status as well as their response to exogenous calcium ionophore (A23187). Acrosome reactions were evaluated by fluorescence microscopy and flow cytometry. Sperm motility and viability post-thawing were significantly correlated with fertility. For the swim-up separated semen, significant correlations to nonreturn rates were found for concentration, viability, number of viable spermatozoa and sperm capacitation status (Pattern F and Pattern B). The only parameter significantly correlated to fertility after the ionophore challenge was the percentage of acrosome-reacted spermatozoa with remaining equatorial fluorescence, as assessed by fluorescence microscopy, but not by flow cytometry. The regression analysis showed that combining the results of sperm membrane integrity assessment post-thawing with those of capacitation status after swim-up provided the best prediction of fertility. The accuracy of prediction did not improve when these parameters were combined with the percentage of spermatozoa in which acrosome reaction was induced by ionophore challenge.