Effect of liquid storage on sorted boar spermatozoa

A routine use of boar sexed semen is far from being a reality due to many limiting factors among which is the long sorting time necessary to obtain the adequate number of sexed spermatozoa for artificial insemination and the high susceptibility to damages induced by cryopreservation.The aim of this study was to evaluate the modification induced by 24-26 h storage on sorted boar spermatozoa on the basis of their viability, acrosome status, Hsp70 presence, and in vitro fertilizing ability. The percentage of viable cells, according to SYBR green/PI staining, was negatively affected (P < 0.05) by sorting procedure. Moreover, liquid storage significantly (P < 0.05) reduced membrane integrity of sorted spermatozoa as compared to all the other groups. Neither sorting nor storage influenced the percentage of live cells with reacted acrosome, according to FITC-PNA/PI staining. Sorted samples, after 24-26 h storage, were characterized by an increase (P < 0.05) of sperm cells negative for Hsp70, as observed by immunofluorescence, and by a decrease (P < 0.05) in Hsp70 content, as evidenced by western blot. While sorting procedure did not adversely affect both penetration rate and total efficiency of fertilization, these parameters were negatively (P < 0.05) influenced by storage after sorting. In order to minimize damages that compromise fertility and function of sex-sorted boar spermatozoa, the mechanisms by which sorting and liquid storage cause these injures require further study.     

Can bovine in vitro-matured oocytes selectively process X- or Y-sorted sperm differentially?

It has been reported that the mammalian female could have a preconceptual influence on the sex of her offspring, and it has been hypothesized that this influence could go some way toward accounting for the reported lower fertility following insemination with sex-sorted sperm. To test whether in vitro matured oocytes are able to select X- or Y-bearing spermatozoa following in vitro fertilization (IVF), we fertilized in vitro 1788 oocytes with X-sorted semen, Y-sorted semen, a mix of X- and Y-sorted semen, and unsorted semen from the same bull, and cultured until Day 9. Fertility was assessed by recording cleavage rate at 48 h postinsemination (hpi) and blastocyst development until Day 9. Embryos were sexed at the two- to four-cell stage and the blastocyst stage. The proportion of zygotes cleaving at 48 hpi was not different between X- and Y-sorted groups and the mix of X- and Y-sorted semen group; however, all were significantly lower than the unsorted group (P < 0.001). Blastocyst yield on Day 6 was significantly higher (P < or = 0.01) in the control group compared with the rest of the groups. Cumulative blastocyst yields on Days 7, 8, and 9 were also significantly higher (P < or = 0.01) in the unsorted group compared with the sorted groups. The proportion of female and male two- to four-cell embryos obtained following IVF with X- and Y-sorted sperm was 88% and 89%, respectively and the sex ratio at the two- to four-cell stage was not different following IVF with unsorted or sorted/recombined sperm (56.9% males vs. 57% males, respectively). At the blastocyst stage, similar percentages were obtained. In conclusion, the differences in cleavage and blastocyst development using sorted versus unsorted sperm are not due to the oocyte preferentially selecting sperm of one sex over another, but are more likely due to spermatic damage caused by the sorting procedure.     

Microisolation and microcloning of bovine X-chromosomes for identification of sorted buffalo (Bubalus bubalis) spermatozoa

Flow-cytometry sorting technology has been successfully used to separate the X- and Y-chromosome bearing spermatozoa for production of sex-preselected buffalo. However, an independent technique should be employed to validate the sorting accuracy. In the present study, X-chromosomes of bovine were micro-dissected from the metaphase spreads by using glass needles. Then X-chromosomes were then amplified by PCR and labelled with Cy3-dUTP for use as a probe in hybridization of the unsorted and sorted buffalo spermatozoa -chromosome. The results revealed that 47.7% (594/1246) of the unsorted buffalo spermatozoa were positive for X- chromosome probe, which was conformed to the sex ratio in buffalo (X:Y spermatozoa=1:1); 9.6% (275/2869) of the Y-sorted buffalo spermatozoa and 86.1% (1529/1776) of the X-sorted buffalo spermatozoa showed strong X-chromosome FISH signals. Flow cytometer re-analysis revealed that the proportions of X- and Y-bearing spermatozoa in the sorted X and Y semen was 89.6% and 86.7%, respectively. There were no significant differences between results assayed by flow-cytometry re-analysis and by FISH in this study. In conclusion, FISH probe derived from bovine X- chromosomes could be used to verify the purity of X and Y sorted spermatozoa in buffalo.     

Boar spermatozoa encapsulated in barium alginate membranes: a microdensitometric evaluation of some enzymatic activities during storage at 18 degrees C

The customary dilution of boar semen for subsequent artificial insemination (AI) procedures damages the cell membrane of spermatozoa, resulting in a loss of enzymes and other cytoplasmic contents and acrosomal reactions. We encapsulated non-diluted boar semen in barium alginate membranes to optimize AI procedures and to improve the functional integrity of spermatozoal membranes during storage. The percentage of non-reacted acrosomes (NRA) and measurements of enzyme leakage (cytochrome c oxidase (COX), lactate dehydrogenase (LDH), and glucose-6-phosphate dehydrogenase (G6PDH)) were used as indices of the functional status of diluted, unencapsulated and encapsulated spermatozoa, stored for 72 h at 18 degrees C. Enzymatic activity was assessed in situ by microdensitometry, and non-reacted acrosomes were microscopically determined by staining. The percentage of acrosome integrity and the intracellular enzymatic activities during storage were different for unencapsulated and encapsulated semen. Semen dilution caused a rapid decline in enzymatic activities and concomitant acrosomal reactions. Encapsulated spermatozoa had significantly higher acrosome integrity (77% versus 55%; P < 0.01 after 72 h) and an overall higher in situ enzymatic activity. For cytochrome c oxidase and lactate dehydrogenase the greatest differences between encapsulated and unencapsulated spermatozoa were present after 72 h whereas for glucose-6-phosphate dehydrogenase significant differences were found within 24h of storage. The encapsulation process maintains a better preservation environment for boar spermatozoa and could be a promising, innovative technique to improve storage of these cells.     

Flow sorting of X and Y chromosome-bearing mammalian sperm: Activation and pronuclear development of sorted bull,boar, and ram sperm microinjected into hamster oocytes

Flow cytometric techniques were used to measure relative DNA content of X and Y chromosome-bearing bull, boar, and ram sperm populations and to separate the two sex-determining populations. Neat semen was prepared for flow cytometric analysis by washing, light sonication, and staining with 9 μM Hoechst 33342. Computer analysis of the bimodal histograms showed mean X-Y DNA differences of 3.9, 3.7, and 4.2% for bull, boar, and ram, respectively. Flow cytometric reanalysis of sorted bull, boar, and ram sperm showed purities greater than 90%. Bull, boar, and ram sperm nuclei were microinjected into hamster oocytes. Microinjected sperm were either unsorted, sorted, unsorted plus dithio-threitol (DTT) exposure, or sorted plus DTT exposure. Following microinjection, eggs were incubated 3 hr, fixed, and stained. A total of 579 eggs was observed for sperm activation (decondensation or formation of a male pronucleus). A lower percentage of sorted than unsorted (3 vs. 23%) boar sperm was activated (P <.05). However, sorted and unsorted DTT-exposed boar sperm or sorted and unsorted bull or ram sperm, regardless of DTT treatment, did not differ significantly. Sorted sperm nuclei of both rams and bulls exhibited higher activation rates than sorted boar sperm (P <.05). Treatment of sperm with DTT increased the activation rate (P < .05) for sorted boar sperm but not for bull or ram sperm. These data represent the first separation of bull, boar, and ram X and Y chromosome-bearing sperm populations and the first evidence that sperm of domestic animals sorted on the basis of DNA by flow cytometric procedures have the ability to decondense and to form pronuclei upon injection into a hamster egg.     

Influence of storage time on functional capacity of flow cytometrically sex-sorted boar spermatozoa

Sex-sorting of boar spermatozoa is an emerging biotechnology, still considered suboptimal owing to the slowness of the process, which requires long sorting periods to obtain an adequate number of spermatozoa to perform a non-surgical insemination. This period involves storage of sorted cells that could impair their functional capacity. Here, we have studied how the storage of sex-sorted boar spermatozoa affects their functional capacity. Sorted spermatozoa were assessed at various times (0, 2, 5h or 10h) during storage after sorting and compared with diluted and unsorted spermatozoa for sperm motility patterns, plasma membrane and acrosomal integrity and their ability to penetrate homologous IVM oocytes. Sex-sorted sperm motility and membrane integrity only decreased significantly (p<0.05) by the end of the storage period (10h) compared to unsorted spermatozoa. Sperm velocity, ALH and Dance increased significantly (p<0.05), immediately post-sorting, returning to unsorted sperm values during storage. Acrosome integrity was not seriously affected by the sorting process, but decreased (p<0.05) during storage after sorting. Sorted spermatozoa stored 2h after sorting did not differ from unsorted in penetration rates and numbers of spermatozoa per oocyte, reaching the highest (p<0.05) penetration rates and sperm numbers per oocyte, when co-cultured for 6 or more hours. Non-storage or storage for 5h or 10h negatively (p<0.05) affected sperm penetration ability. In conclusion, although flow cytometrically sex-sorted spermatozoa are able to maintain motility, viability and acrosomal integrity at optimal levels until 10h of storage after sorting, fertilizing ability is maintained only over shorter storage times (<5h).     

Chlortetracycline analysis of boar spermatozoa after incubation,flow cytometric sorting,cooling, or cryopreservation

In this study, the effects of staining procedure with chlortetracycline (CTC) and method of analysis of boar spermatozoa after staining were examined. The hypothesis that incubation, flow cytometric sorting, cooling, and cryopreservation cause changes to boar sperm membranes which resemble capacitation and the acrosome reaction was also tested. Membrane status was evaluated by flow cytometry and by fluorescence microscopy after staining with CTC, and acrosome integrity was checked by flow cytometry after staining with FITC-pisum sativum agglutenin and propidium iodide (PI). Flow cytometry was also used to assess viability (percentages of live and dead cells) of boar sperm after staining with SYBR-14 and PI. Staining of spermatozoa with CTC alone and in combination with PI and/or Hoechst 33342 had no effect on the proportion of spermatozoa allocated to the F (uncapacitated), B (capacitated), or AR (acrosome-reacted) CTC fluorescent staining categories. The mean percentages of acrosome-intact and acrosome-reacted cells were 88.4 and 6.8 or 0.8 and 96.5 in semen treated with 0 or 100 μg/ml lysophosphatidylchloine (LPC), respectively (P < 0.001). Most spermatozoa were also in the AR CTC-stained category after treatment with LPC compared with a small proportion in the controls. Using flow cytometry to examine sperm suspensions stained with CTC, a gated population of spermatozoa with low fluorescence (population 1) comprised predominantly F-pattern cells (F-pattern: population 1 vs. population 2, 80.5 vs. 14.4%; P < 0.001), whereas population 2 (high fluorescence) comprised mainly B-pattern cells (B-pattern: population 1 vs. population 2, 8.5 vs. 62.3%; P < 0.001). Incubation (38°C, 4 hr), flow sorting, cooling (to 15 or 5°C) and freezing reduced the proportion of F-pattern and live spermatozoa, and increased the proportion of B-, AR-pattern, and dead spermatozoa, in comparison with fresh semen. There were more membrane changes in spermatozoa cooled to 5°C (30.4, 48.5, 21.1%) than in those cooled to 15°C (56.1, 32.6, 11.5% F-, B-, and AR-pattern spermatozoa, respectively). Mol. Reprod. Dev. 46:408–418, 1997. © 1997 Wiley-Liss, Inc.     

In vitro production of cat blastocysts of predetermined sex using flow cytometrically sorted semen

Sex preselection in cats can have applications for both breeding purposes and as an experimental model for endangered felids. The present study examined the ability to produce cat embryos from in vitro fertilization (IVF) of in vitro matured (IVM) cat oocytes with flow cytometrically sorted spermatozoa and to verify the sex of the embryos obtained from sexed spermatozoa by PCR. In the first experiment, a total of 224 oocytes were fertilized with spermatozoa from six ejaculates sorted without sex separation. The sorting process did not influence the cleavage rate (sorted 44.0% versus unsorted 46.1%), day 6 morula-blastocyst rate (sorted 26.6% versus unsorted 29.6%) and day 7 blastocyst rate (sorted 16.5% versus unsorted 16.5%). In the second experiment, a total of 84 IVM oocytes were fertilized with sorted X- and Y-chromosome bearing spermatozoa from four ejaculates in order to obtain embryos of preselected sex. Embryonic sex determination by PCR revealed that 21 out of 24 embryos reaching morula/blastocyst stage (87.5%) were of the desired sex. In particular 12 out of 14 embryos (85.7%) derived from X-bearing spermatozoa were female and 9 embryos out of 10 (90%) derived from Y-bearing spermatozoa were male. Our results show, for the first time, that X- and Y-chromosome bearing spermatozoa sorted by high-speed flow cytometry can be successfully used in an IVM-IVF system to obtain cat embryos of a predetermined sex.     

牛分离精子对其IVF胚胎染色体影响的研究

本研究采用传统的细胞遗传学方法,研究了由流式细胞仪分离的、染色未分离的及作为对照用的未染色未分离的分别来自于3头公牛的精子IVF（in vitro fertilization, IVF)后产生的6~8 d囊胚的染色体异常情况,以确定流式细胞仪分离精子的过程及染色对胚胎染色体异常的影响。结果显示,分离精子、染色未分离精子和未染色未分离精子的胚胎中,染色体组成为异常,即嵌合体的胚胎分别占40.7%（59/145）、35.8%（38/106）和37.0%（37/100）,三者染色体异常的比例无显著差异。胚胎染色体异常的频率在不同公牛之间存在差异（33.0% 比 44.6%）（p<0.05）。本研究的结果证明,染料和分离过程没有影响精子的DNA进而影响胚胎的染色体组成;胚胎染色体异常的频率在不同公牛之间存在差异。     

Flow cytometric sorting of fresh and frozen-thawed spermatozoa in the western lowland gorilla (Gorilla gorilla gorilla)

We adapted flow cytometry technology for high-purity sorting of X chromosome-bearing spermatozoa in the western lowland gorilla (Gorilla gorilla gorilla). Our objectives were to develop methodologies for liquid storage of semen prior to sorting, sorting of liquid-stored and frozen-thawed spermatozoa, and assessment of sorting accuracy. In study 1, the in vitro sperm characteristics of gorilla ejaculates from one male were unchanged (P > 0.05) after 8 hr of liquid storage at 15 degrees C in a non-egg yolk diluent (HEPES-buffered modified Tyrode's medium). In study 2, we examined the efficacy of sorting fresh and frozen-thawed spermatozoa using human spermatozoa as a model for gorilla spermatozoa. Ejaculates from one male were split into fresh and frozen aliquots. X-enriched samples derived from both fresh and frozen-thawed human semen were of high purity, as determined by fluorescence in situ hybridization (FISH; 90.7%+/-2.3%, overall), and contained a high proportion of morphologically normal spermatozoa (86.0%+/-1.0%, overall). In study 3, we processed liquid-stored semen from two gorillas for sorting using a modification of methods for human spermatozoa. The sort rate for enrichment of X-bearing spermatozoa was 7.3+/-2.5 spermatozoa per second. The X-enriched samples were of high purity (single-sperm PCR: 83.7%) and normal morphology (79.0%+/-3.9%). In study 4 we examined frozen-thawed gorilla semen, and the sort rate (8.3+/-2.9 X-bearing sperm/sec), purity (89.7%), and normal morphology (81.4%+/-3.4%) were comparable to those of liquid-stored semen. Depending on the male and the type of sample used (fresh or frozen-thawed), 0.8-2.2% of gorilla spermatozoa in the processed ejaculate were present in the X-enriched sample. These results demonstrate that fresh or frozen-thawed gorilla spermatozoa can be flow cytometrically sorted into samples enriched for X-bearing spermatozoa.     

Sex ratio determination in bovine semen: a new approach by quantitative real time PCR

Sex preselection of livestock offspring in cattle represents, nowadays, a big potential for genetic improvement and market demand satisfaction. Sperm sorting by flow cytometer provides a powerful tool for artificial insemination and production of predefined sexed embryos but, an accurate verification of the yield of sperm separation remains essential for a field application of this technique or for improvement and validation of other related semen sexing technologies. In this work a new method for the determination of the proportion of X- and Y-bearing spermatozoa in bovine semen sample was developed by real time PCR. Two sets of primers and internal TaqMan probes were designed on specific X- and Y-chromosome genes. To allow a direct quantification, a standard reference was established using two plasmid cDNA clones (ratio 1:1) for the specific gene targets. The method was validated by a series of accuracy, repeatability and reproducibility assays and by testing two sets of sorted and unsorted semen samples. A high degree of accuracy (98.9%), repeatability (CV=2.58%) and reproducibility (CV=2.57%) was shown. The results of X- and Y-sorted semen samples analysed by real time PCR and by flow cytometric reanalysis showed no significant difference (P>0.05). The evaluation of X-chromosome bearing sperms content in unsorted samples showed an average of 51.11+/-0.56% for ejaculates and 50.17+/-0.58% for the commercial semen. This new method for quantification of the sexual chromosome content in spermatozoa demonstrated to be rapid and reliable, providing a valid support to the sperm sexing technologies.     

Effect of staining and sorting on boar sperm membrane integrity, mitochondrial activity and in vitro blastocyst development

The objective of this study was to determine the effects of staining with Hoechst 33342 and of the entire sorting procedure on boar sperm membrane integrity (using Annexin-V/PI), mitochondrial activity (using JC-1/SYBR/PI) and blastocyst development in vitro; the effect of storage at 17 degrees C for 24h prior to Hoechst staining and sorting was also investigated. The Hoechst staining and the whole sorting procedure reduced the percent of live spermatozoa in both fresh (day 0) and stored (day 1) semen, as determined by both assays; nevertheless, there was no increase in live sperm cells showing signs of early damage (Annexin-V positive, propidium negative), whose percentages remained nearly zero. The majority of Annexin-V positive cells were propidium positive, therefore dead. JC-1 staining evidenced a correlation between mitochondrial activity and viability. However, a significant difference between viable sperm cells and sperm cells with active mitochondria was detected in control and stained sperm, whereas almost all viable sorted spermatozoa had active mitochondria. No significant differences in the in vitro produced blastocysts both on day 0 and 1 were observed. In conclusion, despite the damages induced by sorting procedures, semen sorted as fresh or after storage at 17 degrees C can be successfully used for in vitro production of pig embryos.     

Flow cytometric sperm sorting: effects of varying laser power on embryo development in swine.

This study was conducted to determine fertilization rate and embryo development using the Beltsville Sperm Sexing Technology with two different laser power outputs, 25 and 125 milliwatts (mW). Freshly ejaculated boar semen was diluted; one aliquot was not stained or sorted (nonsort) and a second aliquot was stained with Hoechst 33342 and sorted as a complete population, not separated into X and Y populations (all-sort). Ovulation controlled gilts were surgically inseminated with 2 x 10(5) spermatozoa (44-46 hr after human chorionic gonadotropin (hCG)) into the isthmus of each oviduct, one oviduct receiving nonsort and the other all-sort at 25 or 125 mW. A total of 426 embryos were flushed from oviducts at slaughter 43 hr after laparotomy and prepared for determination of fertilization and cleavage rates using confocal laser microscopy for analysis of actin cytoskeleton and chromatin configuration. The percentage of fertilized eggs and embryos was less for the 25 mW all-sort compared to nonsort or the 125 mW all-sort (77.9 vs. 96.3 and 96.2%, P < 0.05). The percentage of fragmented embryos was greater for the 25 mW all-sort than the nonsort (15.2 vs. 4.5%, P < 0.05), but did not differ significantly from 125 mW all-sort mean (7.2%). The percentage of normal embryos (80.4% overall) did not differ (P > 0.05) among treatments. However, the rate of embryo development was slower (P < 0.05) after insemination with the 25 mW all-sort spermatozoa compared to nonsort spermatozoa. Embryos in the 3-4 and 5-9 cell stages for the 25-mW all-sort and nonsort were 78 and 20% vs. 49 and 50%, respectively. The embryo percentages for the 125 mW (3-4 and 5-9 cell stages, 59 and 35%) did not differ significantly (P > 0.05) from the nonsort or 25 mW all-sort. We conclude that the use of 125 mW laser power for sorting boar spermatozoa is advantageous to maintain high resolution separation and has no detrimental effect on embryo development compared to 25 mW.     

Effect of storage on sperm membrane integrity and other functional characteristics of canine spermatozoa: In vitro bioassay for canine semen

The effect of storage of canine semen on sperm membrane integrity, as determined by the hypoosmotic swelling test, and on other functional characteristics of the canine spermatozoa was evaluated by established procedures. The results of this study indicated that storage of canine semen at a chilling temperature of 5 degrees C for 24 h did not significantly impair the physical and functional characteristics of the canine spermatozoa. The overall mean percentage of motility, hypo-osmotic swelling response, which assessed sperm membrane integrity, acrosome-reacted spermatozoa, acrosomal defects, and the percentage of live spermatozoa, did not significantly differ between the fresh and chilled semen samples. However, storage altered the rate of motility and acrosome reaction. The percentage of acrosome reaction in the canine capacitating medium peaked earlier in chilled than in fresh semen. It is probable that storing semen at 5 degrees C initiated/triggered the acrosome reaction. This did not amount to impairment of functional properties. Significant correlations were observed between hypo-osmotic swelling vs motility (r=0.98, P<0.002); hypo-osmotic swelling vs acrosome reaction (r=0.83, P<0.08); and acrosome reaction vs motility (R=0.89, P<0.04) in the fresh semen, and between hypo-osmotic swelling vs motility (r=0.87, P<0.05) and hypo-osmotic swelling vs acrosome reaction (r=0.56, P<0.05) in the chilled semen. It was concluded: that 1) storage of canine semen at 5 degrees C for 24 h did not significantly impair the physical and functional integrity of the spermatozoa; 2) the significant association between motility or acrosome reaction vs hypo-osmotic swelling indicates their value in assessing sperm viability; and 3) the hypo-osmotic swelling assay could have predictive value in screening out subfertile males with apparently normal spermiograms.     

Embryo production from superovulated Holstein-Friesian dairy heifers and cows after insemination with frozen-thawed sex-sorted X spermatozoa or unsorted semen

The aim of this study was to evaluate embryo production in superovulated Holstein-Friesian dairy heifers and cows inseminated with either X-sorted spermatozoa (2 million/dose) or unsorted semen (15 million/dose). Experiment 1 at the research farm involved eight heifers, six cows and semen of one Holstein bull. All transferable embryos were diagnosed for sex. Experiment 2 included embryo collections on commercial dairy farms: X-sorted spermatozoa from three Holstein bulls were used for 59 collections on 28 farms and unsorted semen from 32 Holstein bulls were used for 179 collections on 79 farms. Superovulations were induced by eight declining doses of FSH (total of 12 ml for heifers and 19 ml for cows) starting on days 8-12 of the estrus cycle. Inseminations began 12h after the onset of estrus and were performed two to four times at 9-15 h intervals. Low-dose X-sorted inseminates were deposited into uterine horns and unsorted semen was placed into the uterine body. In Experiment 1, on average 70.3 and 75.0% of embryos recovered from heifers, and 48.4 and 100% of embryos recovered from cows were of transferable quality in X-sorted and unsorted groups, respectively. The proportion of transferable female embryos produced approximately doubled when insemination was with X-sorted spermatozoa compared to insemination with unsorted semen (heifers 96.4% versus 41.1%; cows 81.1% versus 39.8%). In Experiment 2, estimated 53.9 and 65.5% of embryos recovered from heifers, and 21.1 and 64.5% of embryos recovered from cows were of transferable quality in X-sorted and unsorted groups, respectively. Proportions of unfertilized oocytes were 21.1 and 10.6% for heifers and 56.0 and 14.4% for cows in X-sorted and unsorted groups, respectively. Consequently, cows inseminated with X-sorted spermatozoa produced significantly smaller proportions of transferable embryos (p<0.005) and significantly larger proportions of unfertilized oocytes (p<0.001) than those inseminated with unsorted semen. Proportions of quality 1 or degenerated embryos were similar for the two treatments in both heifers and cows. Within treatments, bulls did not significantly affect the proportions of transferable, unfertilized or degenerated oocytes/embryos. It was concluded that using low-dose X-sorted spermatozoa rather than normal-dose unsorted semen for the insemination of superovulated embryo donors can improve the proportion of transferable female embryos produced but this potential may not be achieved in commercial practice, particularly in cows, because of reduced fertilization rates when using low doses of X-sorted spermatozoa.     

Flow cytometric assessment of fresh and frozen-thawed Canada goose (Branta canadensis) semen

The present study was conducted to investigate spermatozoal membrane integrity, acrosome integrity, mitochondrial activity, and chromatin structure in fresh and frozen-thawed Canada goose (Branta canadensis) semen with the use of the flow cytometry. The experiment was carried out on ten, 2-year-old, Canada goose ganders. The semen was collected twice a week, by a dorso-abdominal massage method, then pooled and subjected to cryopreservation in straws, in a programmable freezing unit with the use of dimethyloformamide (DMF) as a cryoprotectant. Frozen samples were thawed in a water bath at 60 °C. The freezing procedure was performed ten times. For the cytometric analysis the fresh and the frozen-thawed semen was extended with EK extender to a final concentration of 50 million spermatozoa per mL. Sperm membrane integrity was assessed with SYBR-14 and propidium iodide (PI), acrosomal damage was evaluated with the use of PNA-Alexa Fluor^®488 conjugate, mitochondrial activity was estimated with Rhodamine 123 (R123), and spermatozoal DNA integrity was measured by the sperm chromatin structure assay (SCSA). The cryopreservation of Canada goose semen significantly decreased the percentage of live cells, from 76.3 to 50.4% (P < 0.01). Moreover, we observed the significant decrease in the percentage of live spermatozoa with intact acrosomes (P < 0.01), but we did not detect significant changes in the percentage of live spermatozoa with ruptured acrosomes. However, after thawing 50% of Canada goose live spermatozoa retained intact acrosomes. Furthermore, the percentage of live spermatozoa with active mitochondria was significantly lower in the frozen-thawed semen than in the fresh semen (P < 0.05). Nevertheless, after thawing the mitochondria remained active in almost 50% of live cells. In the present study, we observed no changes in the percentage of sperm with fragmented DNA after freezing-thawing of Canada goose semen. In conclusion, the present study indicates that even the fresh Branta canadensis semen might have poor quality, the cryopreservation of its semen did not provoke spermatozoal DNA defragmentation and half of the spermatozoa retained intact acrosomes and active mitochondria after freezing-thawing.     

Liquid storage of flow cytometrically sorted ram spermatozoa

This study investigated the optimum short-term storage conditions for ram spermatozoa before and after flow cytometric sorting. Prior to sorting, semen from four rams (n = 3 ejaculates per ram) was diluted in either a Tris-based diluent (TRIS) or AndroHep (AH) and stored at 5, 15 or 21 degrees C for 0, 6 or 24h. Sperm characteristics were assessed during storage and after sorting, freeze-thawing and incubation (6h, 37 degrees C). Functional capacity and migration ability in artificial cervical mucus (sperm migration test (SMT)) of stored, sorted and non-sorted (control) spermatozoa were assessed after freeze-thawing. After sorting, semen from three rams (n = 3 ejaculates per ram) was diluted in four different extenders: ultra-heat-treated (UHT) long life milk, TRIS containing 10% (v/v) egg yolk (TRIS-EY), AH (pH 7.4), or TEST buffer containing 10% (v/v) egg yolk (TYB). Sorted and non-sorted (control) spermatozoa were stored at 15 degrees C for 24h or 5 degrees C for 6 days. Sperm characteristics were evaluated at 0, 6 and 24h for samples stored at 15 degrees C and daily for samples stored at 5 degrees C. The SMT was performed on sorted and non-sorted (control) spermatozoa after 6h and 3 days storage at 15 and 5 degrees C, respectively. Spermatozoa stored in TRIS were sorted more efficiently, had higher motility after sorting, freezing, thawing and incubation and had greater numbers of spermatozoa penetrating into the SMT than spermatozoa stored in AH prior to sorting. Spermatozoa stored in UHT at both temperatures had higher motility, acrosome integrity and traveled greater distances in the SMT than spermatozoa stored in all other diluents. In summary, storage in TRIS at 21 degrees C was optimal for transport of ram spermatozoa to the sorting site, and storage of spermatozoa in UHT diluent (after sorting) preserved sperm viability and migration ability best at both 15 and 5 degrees C.     

The possibility of obtaining intergeneric hybrids via White Kołuda (Anser anser L.) goose insemination with fresh and frozen-thawed Canada goose (Branta canadensis L.) gander semen

The objective of the present experiments was to produce the intergeneric hybrids of domesticated and wild goose via artificial insemination with fresh and frozen-thawed semen. The experiments were carried out during two successive goose reproductive seasons, on eight five-year-old Canada Goose (Branta canadensis L.) males used as semen donors and 16 two-year-old White Ko?uda geese designated to fertility tests. Pooled semen was collected twice a week by the dorso-abdominal massage. In freshly collected semen, ejaculate volume, color, consistency, degree of fecal or blood contamination, spermatozoa concentration, motility, and morphology were evaluated. Part of the semen collected in the first year of the experiment (Experiment 1) was used for geese insemination with fresh semen, while the remainder was frozen. In Experiment 2 all samples were subjected exclusively to freezing procedure. Geese were inseminated once a week with fresh semen in a dose of 80 μl or 160 μl, and twice a week with frozen-thawed semen in a dose of 80 μl (160 μl per wk) or 100 μl (200 μl per wk). Eggs were set weekly and incubated up to hatching.The volume of ejaculates varied from 0.100 to 0.470 ml; spermatozoa concentration from 140 to 310 million ml⁻¹; progressive movement was observed in 40 to 60% of spermatozoa; the percentage of total live spermatozoa ranged from 69.3 to 92.0%, the highest percentage (34.0-68.3) was represented by live normal spermatozoa and those with bulb-head (13.3-41.0). Cryopreservation caused a decrease in percentage of motile cells to 30%; total live spermatozoa contribution by 27.2%p, including those live normal by 15.9%p (in relation to the fresh semen), bulb-head spermatozoa by 10.9%p, and increase (by 5.9%p) in number of spermatozoa with other deformations. Goose insemination 1×/week with fresh semen containing about 10.3 million live normal spermatozoa resulted in 66.7% of fertile eggs and with dose higher by 2.8 million spermatozoa (on average) the fertility increased by 20.9%p (up to 87.6% on average). Hatchability from set and fertile eggs was 55.9% and 83.9% vs. 66.3% and 75.6%, respectively. After twice a week insemination with frozen-thawed semen containing about 10.2 million live normal cells 58.2% eggs were fertile; hatchability from set eggs was 42.8% and from fertile eggs 71.7%, while insemination dose increase by 2.7 million spermatozoa per week caused a fertilization increase by 3.8%p (62.0% on average), this increase was not statistically significant, but hatchability from the fertile eggs (95.4%), was significantly (P < 0.05) higher.The use of AI with fresh semen in the creation of intergeneric hybrids of Canada goose males and White Ko?uda females allows a high level of egg fertility to be obtained. Furthermore, one limitation which is the short reproductive season of the Canada goose may be overcome by the use of cryopreserved semen.     

Assessment of in vitro sperm characteristics after flow cytometric sorting of frozen-thawed bull spermatozoa

The effect of processing prior to sex-sorting, re-freezing and thawing of frozen-thawed bull spermatozoa on in vitro sperm characteristics was investigated. Frozen-thawed bull spermatozoa (three bulls; three ejaculates per bull) were prepared for sorting by washing (FT-WASH) or gradient centrifugation (FT-GRADIENT) and evaluated for motility and forward progressive motility (FPM) after processing, staining, sorting and incubation (3 h; 37 degrees C). After frozen-thawed samples were processed and analyzed using a high-speed cell sorter, aliquots were removed and re-frozen and thawed (FTF-WASH; FTF-GRADIENT). Non-sorted frozen-thawed spermatozoa (FT-CONTROL) were also re-frozen and thawed (FTF-CONTROL). Spermatozoa from all treatments were assessed for penetration of an artificial cervical mucus at 0 h after sorting or thawing, and for motility, FPM and acrosomal status after 3-h incubation (37 degrees C). Frozen-thawed spermatozoa prepared by gradient centrifugation before sorting were sorted more efficiently than washed samples (P < 0.05). However, after sorting (FT) or thawing (FTF) and incubation, the percentage of motile spermatozoa and FPM rating was lower for GRADIENT than WASH (21.5 +/- 3.39%; 1.4 +/- 0.16 FPM versus 48.6 +/- 4.02%, 2.6 +/- 0.16 FPM; P < 0.01). Frozen-thawed sorted spermatozoa (FT) penetrated in greater numbers (151.0 +/- 19.50 spermatozoa) and distance (56.3 +/- 5.11 mm) in the artificial cervical mucus and had a higher proportion of motile spermatozoa (65.5 +/- 2.77%) and FPM rating (2.8 +/- 0.12) after incubation than spermatozoa that had been re-frozen and thawed after sorting (FTF: 14.0 +/- 3.67 spermatozoa, 21.6 +/- 3.05 mm, 12.2 +/- 1.31% and 1.2 +/- 0.10 FPM, respectively; P < 0.001). Regardless of processing prior to sorting, frozen-thawed sorted and non-sorted spermatozoa migrated similar distances in the artificial cervical mucus (FT-WASH: 60.0 +/- 1.2 mm; FT-GRADIENT: 57.2 +/- 0.76 mm; FT-CONTROL: 51.7 +/- 0.69 mm). The results of this preliminary study suggested that frozen-thawed bull spermatozoa can be efficiently sorted into high purity X- and Y-chromosome enriched samples with retained functional capacity.     

Feasibility of sex-sorting sperm from the white and the black rhinoceros (Ceratotherium simum, Diceros bicornis)

The objective of these studies was to investigate the practicality of flow cytometric sex-sorting for spermatozoa from the white and the black rhinoceros (Ceratotherium simum, Diceros bicornis). In Experiment 1, four semen extenders were tested regarding their suitability for liquid preservation of spermatozoa before sorting. Dilution in MES-HEPES-based semen extender followed by incubation generated best sperm quality parameters (motility, viability, and acrosome integrity). In Experiment 2, the effect of staining method (15 °C for 4 to 6 h during transport or 37 °C for 1 to 1.5 h) on sort efficiency and sperm quality was investigated. Staining at 15 °C during transport resulted in a higher percentage of sperm samples showing a resolution of X- and Y-chromosome-bearing populations (60%) compared with that for staining at 37 °C after transport (33%) and resulted in superior sperm integrity after staining (43.8 ± 11.3% vs. 19.6 ± 12.1%). Sort rate was 300 to 700 cells/sec and sort purity, determined for one sorted sample, was 94% for X-chromosome-bearing spermatozoa. In Experiment 3, the highly viscous component of rhinoceros seminal plasma, which complicates the process of sperm sorting, was examined by gel electrophoresis and mass spectrometry. Results suggested a 250-kDa glycoprotein (most likely originating from the bulbourethral gland) to be responsible for the characteristic viscosity of ejaculates. In Experiment 4, viscosity of seminal plasma, as measured by electron spin resonance spectroscopy, was significantly decreased after addition of α-amylase or collagenase (0.5 and 3 IU per 100 μL seminal plasma, respectively) by 28% and 21%, respectively, with no negative effect on sperm characteristics. The results of this study demonstrate for the first time that rhinoceros spermatozoa can be successfully sorted into high-purity X- and Y-chromosome-bearing populations. Furthermore, the successful liquefaction of viscous ejaculates provides the means to greatly improve sort-efficiency in this species.