Influence of insemination time on the fertility of sex sorted frozen-thawed Y-sperm in red deer.

The aim of this study was to assess the effect of insemination timing on pregnancy rates in red deer (Cervus elaphus) when using sex-sorted sperm samples. Semen was collected by electroejaculation from 8 mature stags and processed to obtain: Conventional samples, following standard freezing procedures for commercial purposes; Control sorted samples, diluted and handled as per sorted samples but without being submitted to the sorter passage; and Y Sex Sorted (YSS) samples. Hinds were synchronized via intravaginal CIDR (Controlled Internal Drug Release) placement and given eCG (Folligon® PMSG Serum Gonadotrophin) on day 12, upon CIDR removal. They were then inseminated with one of each sperm treatment, at the following post-eCG intervals: I_1, 55:01-55:30 h; I_2, 55:31-56:00 h; I_3, 56:01-56:30 h; or, I_4, 56:31-57:00 h. Pregnancy rates were assessed at parturition. Average pregnancy rates were highest (P < 0.05) for Conventional samples (77.6%), but similar between YSS (49.8%) and Control sorted (51.3%) samples. However, when insemination interval was taken into account, pregnancy rates within the YSS group, pregnancy rates were 80 and 83.1% for I_1 and I_2, respectively were obtained. Notably, these rates were similar (P > 0.05) to the average pregnancy rates obtained with Conventional samples (77.6%). As expected, YSS sperm yielded 94% male offspring contrasting with the 57% males obtained with Conventional and Control sorted samples. Our findings support the importance of developing specific insemination timing protocols to improve pregnancy rates when using frozen-thawed sex-sorted sperm. These findings provide the foundation for further investigations in order to determine why the YSS sperm are able to fertilize the oocyte in a shorter period of time than the conventional samples.

Optimization of protocols for Iberian red deer (Cervus elaphus hispanicus) sperm handling before sex sorting by flow cytometry.

Currently, sperm reproductive biotechnologies such as sex sorting and cryopreservation are undoubtedly valuable tools for improving the economic and biological efficiency of red deer production systems. In this context, and because of the particular characteristics of this species (extensive exploitation typically far from laboratory facilities), a key goal is to optimize the design of an adequate handling protocol of sperm samples before samples are subjected to sex sorting and cryopreservation procedures to obtain better outputs from the application of these technologies. The main aim of this paper was to design an adequate protocol for Iberian red deer sperm handling before sex sorting by flow cytometry to obtain optimal yields when sex sorting is used in this species. Semen samples from 11 adult males were obtained by electroejaculation during the breeding season. In this study, we tested different protocols for the handling of Iberian red deer spermatozoa before sorting by using different concentrations of sperm (400 or 800 × 106) and adding or not Hoechst 33342 before the transport of samples to the sorting facilities. Based on the results, the most adequate method used to handle samples before sorting was transportation at a high sperm concentration (800 × 106/mL) without Hoechst 33342. These transportation conditions in combination with Hoechst 33342 staining at 5.2 µL/mL once at the flow cytometry laboratory resulted in better (P < 0.05) sorting efficiency (99.9% of the samples showing split) than both, those samples transported at 400 × 106sperm/mL (between 51.2 and 55.2% of the samples showing split) and those samples stained before transport at a sperm concentration of 400 × 106sperm/mL (between 15.4 and 75.7% of the samples showing split). Sorting rates and sperm quality after sorting and cryopreservation was not affected (P > 0.05) by sperm handling before sorting. Moreover, the sorting yields were compatible with the practical application of these reproductive biotechnologies.

Seminal plasma affects sperm sex sorting in boars.

Two experiments were conducted in boar semen samples to evaluate how both holding time (24h) and the presence of seminal plasma (SP) before sorting affect sperm sortability and the ability of sex-sorted spermatozoa to tolerate liquid storage. Whole ejaculate samples were divided into three aliquots immediately after collection: one was diluted (1:1, v/v) in Beltsville thawing solution (BTS; 50% SP); the SP of the other two aliquots was removed and the sperm pellets were diluted with BTS + 10% of their own SP (10% SP) or BTS alone (0% SP). The three aliquots of each ejaculate were divided into two portions, one that was processed immediately for sorting and a second that was sorted after 24h storage at 15-17°C. In the first experiment, the ability to exhibit well-defined X- and Y-chromosome-bearing sperm peaks (split) in the cytometry histogram and the subsequent sorting efficiency were assessed (20 ejaculates). In contrast with holding time, the SP proportion influenced the parameters examined, as evidenced by the higher number of ejaculates exhibiting split and better sorting efficiency (P<0.05) in semen samples with 0-10% SP compared with those with 50% SP. In a second experiment, the quality (viability, total and progressive motility) and functionality (plasma membrane fluidity and intracellular generation of reactive oxygen species) of sex-sorted spermatozoa were evaluated after 0, 72 and 120h storage at 15-17°C (10 ejaculates). Holding time and SP proportion did not influence the quality or functionality of stored sex-sorted spermatozoa. In conclusion, a holding time as long as 24h before sorting did not negatively affect sex sorting efficiency or the ability of sorted boar spermatozoa to tolerate long-term liquid storage. A high proportion of SP (50%) in the semen samples before sorting reduced the number of ejaculates to be sorted and negatively influenced the sorting efficiency, but did not affect the ability of sex-sorted spermatozoa to tolerate liquid storage.

Intra- and interboar variability in flow cytometric sperm sex sorting.

To improve the efficiency of porcine sperm sex sorting using flow cytometry, the aims of the present study were to determine the relevance of inter- and intraboar variability in sperm sortability and to evaluate the significance of ejaculate semen characteristics in such variability. In addition, the variability among boars in the ability of sex-sorted spermatozoa to survive liquid storage at 15 °C to 17 °C was also evaluated. In total, 132 ejaculates collected from 67 boars of different breeds that were housed at an artificial insemination center were used in three experiments. X- and Y-chromosome-bearing sperm were simultaneously separated according to the Beltsville sperm-sorting technology using a high-speed flow cytometer. In the first experiment, interboar variability in the ability of the ejaculated spermatozoa to undergo the flow-based sex-sorting procedure was observed; the ejaculates of nearly 15% of the boars (n = 67) did not exhibit well-defined X- and Y-chromosome-bearing spermatozoa peaks in the histogram, and the ejaculate sperm concentration demonstrated good predictive value for explaining this variation, as indicated by the area under the receiver operating characteristics curve (0.88, P < 0.001). In the second experiment, a certain degree of intraboar variability was observed only in the boars that showed poor sperm sortability (measured according to the presence or not a well-defined split together with sperm sortability parameters) in the first ejaculate (n = 3). In contrast, boars classified as having good sperm sortability in the first ejaculate (n = 5) maintained this condition in five ejaculates collected over the subsequent 5 months. In the third experiment, sex-sorted spermatozoa from boars with good sperm sortability (n = 5) remained viable and motile (above 70% in all boars) after 48 hours of storage at 15 °C to 17 °C, which may facilitate the commercial application of sex-sorted spermatozoa in swine artificial insemination programs.

Successful laparoscopic insemination with a very low number of flow cytometrically sorted boar sperm in field conditions.

The aim of this study was to develop a useful procedure for laparoscopic insemination (LI) with sex-sorted boar spermatozoa that yields adequate fertility results in farm conditions. In experiment 1, we evaluated the effects of single (oviducts) and double (oviducts and tips of the uterine horns) LI with X-sorted sperm on the reproductive performance of sows. Sows (N = 109) were inseminated once as follows: (1) single LI with 0.5 × 10(6) unsorted sperm per oviduct; (2) single LI with 0.5 × 10(6) sex-sorted sperm per oviduct; or (3) double LI with 0.5 × 10(6) sex-sorted sperm per oviduct and 0.5 × 10(6) sex-sorted sperm per uterine horn. The farrowing rates were lower (P < 0.05) in sows inseminated with sex-sorted sperm (43.2% and 61.9% for the single and double insemination groups, respectively) than in sows from the unsorted group (91.3%). Within the sex-sorted groups, the farrowing rate tended (P = 0.09) to be greater in sows inseminated using double LI. There were no differences in the litter size among groups. In experiment 2, we evaluated the effect of the number of sex-sorted sperm on the reproductive performance of sows when using double LI. Sows (N = 109) were inseminated with sex-sorted sperm once using double LI with: (1) 0.5 × 10(6) sperm per oviduct and 1 × 10(6) sperm per uterine horn; or (2) 1 × 10(6) sperm per oviduct and 2 × 10(6) sperm per uterine horn. Similarly high pregnancy (90%) and farrowing (80%) rates were achieved in both groups. The sows inseminated with the highest number of sperm tended (P = 0.09) to have more piglets (10.8 ± 0.7 vs. 9.2 ± 0.6). A high female proportion (number of female births divided by the total of all births ≥0.92) was obtained in both experiments using X-sorted sperm. Our results indicate that the double LI procedure, using between 3 and 6 × 10(6) sex-sorted sperm per sow produces adequate fertility at the farm level, making sperm-sexing technology potentially applicable in elite breeding units.