The use of flow cytometry in the evaluation of cell viability of cryopreserved sperm of the marine shrimp (Litopenaeus vannamei)

Although the cryopreservation of penaeid prawn sperm or embryos has definite applications in the aquaculture industry, there is no protocol routinely used for this procedure. One of the main problems relies on the limitations for the determination of sperm cell viability. In this study, we evaluated the toxicity and cryoprotectant effect of four agents, at three different concentrations, in sperm suspension, spermatic mass, and complete spermatophore of the marine shrimp Litopenaeus vannamei. Cells were frozen by fast and slow cooling rates. After thawing, they were analyzed by optical microscopy and flow cytometry, which was also utilized to determine spermatic viability by DNA staining with propidium iodine. Considering viability by morphotype analysis, the best result was obtained when the spermatic mass was frozen by slow cooling rate in the presence of methanol (61.6%). There was a positive correlation between morphotype analysis and flow cytometry, although the percentage of viable cells was always lower when determined by the later. These results show that flow cytometry is a valuable tool to evaluate sperm cell viability in decapod species and it is more sensitive technique than optical microscopy.     

Cryopreservation of flow-sorted bovine spermatozoa

Experiments were designed to maximize sperm viability after sorting by flow cytometry and cryopreservation. Experiments concerned staining sperm with Hoechst 33342 dye, subsequent dilution, interrogation with laser light, and postsort concentration of sperm. Concentrating sorted sperm by centrifugation to 10 to 20 x 10(6) sperm/ml reduced adverse effects of dilution. Exposing sperm to 150 mW of laser light resulted in lower percentages of progressively motile sperm after thawing than did 100 mW. Sorted sperm extended in a TRIS-based medium had higher postthaw sperm motility after incubation for 1 or 2 h than sperm extended in egg-yolk citrate (EYC) or TEST media, and equilibrating sperm at 5 degrees C for 3 or 6 h prior to freezing was superior to an equilibration time of 18 h. For sorting sperm 4 to 7 h postcollection, it was best to hold semen at 22 degrees C neat instead of at 400 x 10(6)/ml in a TALP buffer with Hoechst 33342. Current procedures for sexing sperm using flow cytometry result in slightly lower postthaw motility and acrosomal integrity compared to control sperm. However, this damage is minor compared to that caused by routine cryopreservation. Fertilizing capacity of flow-sorted sperm is quite acceptable as predicted by simple laboratory assays, and sexed bovine sperm for commercial AI may be available within 2 years.     

Separation of sperm and vaginal cells based on ploidy, MHC class I-, CD45-, and cytokeratin expression for enhancement of DNA typing after sexual assault.

BACKGROUND: Successful DNA typing after rape is limited when only a few sperm and numerous vaginal cells are recovered from a swab, resulting in an extremely unfavorable ratio of male to female DNA. The goal of this study was to develop a protocol involving sperm cell sorting with flow cytometry based on differences in ploidy, major histocompatibility (MHC) class I, CD45 and cytokeratin expression. METHODS: Vaginal lavages were mixed with serially diluted ejaculate. After immunostaining and stoichiometric nuclear staining, spermatocytes were isolated by fluorescence-activated cell sorting. All sorted cells were used for DNA extraction and subsequent quantitative fluorescent multiplex polymerase chain reaction. The preferential lysis was performed for comparison. RESULTS: The sorting procedure was superior to the preferential lysis method within all tested dilutions. One documented case of rape was examined with both procedures and only after cell sorting with flow cytometry was the male DNA identified. CONCLUSIONS: We were able to show that separation of sperm and vaginal cells using cell sorting with flow cytometry may be crucial when there is only a few sperm detectable after rape.     

Comparison of methods for assessing integrity of equine sperm membranes

Sperm membrane integrity (SMI) is thought to be an important measure of stallion sperm quality. The objective was to compare three methods for evaluating SMI: flow cytometry using SYBR-14/propidium iodide (PI) stain; an automated cell counting device using PI stain; and eosin-nigrosin stain. Raw equine semen was subjected to various treatments containing 20 to 80% seminal plasma in extender, with differing sperm concentrations, to simulate spontaneous loss of SMI. The SMI was assessed immediately, and after 1 and 2 d of cooled storage. Agreement between methods was determined according to Bland-Altman methodology. Eosin-nigrosin staining yielded higher (2%) overall mean values for SMI than did flow cytometry. Flow cytometry yielded higher (6%) overall mean values for SMI than did the automated cell counter. As percentage of membrane-damaged sperm increased, agreement of SMI measurement between methods decreased. When semen contained 50-79% membrane-intact sperm, the 95% limits of agreement between SMI determined by flow cytometry and eosin-nigrosin staining were greater (range = −26.9 to 24.3%; i.e., a 51.2% span) than for SMI determined by flow cytometry and the automated cell counter (range = −3.1 to 17.0%; 20.1% span). When sperm populations contained <50% membrane-intact sperm, the 95% limits of agreement between SMI determined by flow cytometry and eosin-nigrosin staining were greater (range = −35.9 to 19.0%; 54.9% span) than for SMI determined by flow cytometry and the automated cell counter (range = −11.6 to 28.7%; 40.3% span). We concluded that eosin-nigrosin staining assessments of percent membrane-intact sperm agreed less with flow cytometry when <80% of sperm had intact membranes, whereas automated cell counter assessments of percent membrane-intact sperm agreed less with flow cytometry when <30% of sperm had intact membranes.     

Integration of future biotechnologies into the equine industry

There has and will continue to be reproductive techniques available that have a positive impact upon the equine breeding industry. This review focuses on semen technologies that have been developed or are in the process of being developed. The use of fluorescent dyes and flow cytometry has provided the researcher and clinician with powerful tools to evaluate several sperm attributes. These procedures have been utilized to evaluate sperm viability, acrosome status, mitochondrial status, DNA integrity and stages of capacitation. Flow cytometry allows several sperm attributes to be evaluated on thousands of spermatozoa in a matter of seconds. Development of procedures for insemination of mares with relatively small numbers of spermatozoa has the potential to change how stallions and their semen are managed. This review discusses the use of insemination of fresh, frozen and sex-sorted spermatozoa in relatively small numbers compared with conventional insemination technologies. The recent acceptance of frozen-thawed semen by many of the major breed registries has stimulated an increase in research on frozen semen. Many of the studies have focused on identifying damage during the freezing and thawing process. Numerous studies also have been conducted to modify freezing extenders so that the sperm are protected during the freezing and thawing process. The production of in vitro-produced embryos is extremely limited in the horse due to the failure of in vitro fertilization. However, intracytoplasmic sperm injection (ICSI) has been used for the production of foals from stallions that have less than typical sperm numbers or from stallions that have died and a limited quantity of frozen semen is available. This technique has been used by several laboratories to produce embryos in vitro. The breeder and veterinarian now have access to techniques that allow assessment of semen quality, improvement of procedures for freezing and thawing and insemination of mares with fewer numbers of spermatozoa. It is likely that the next decade will also produce tremendous advances in semen technologies that can be utilized in the horse industry.     

Post-thaw evaluation of dog spermatozoa using new triple fluorescent staining and flow cytometry

A new triple fluorescent staining method was developed to evaluate frozen-thawed dog spermatozoa. This method was used to compare functional parameters of canine spermatozoa cryopreserved using 2 different freezing-thawing protocols. One ejaculate from each of 10 dogs was split into 2 aliquots and processed using the Andersen method or the CLONE method. Semen samples were evaluated immediately after thawing and after 3 h of incubation at 37 degrees C. Plasma membrane integrity and acrosomal status of the spermatozoa were evaluated simultaneously by flow cytometry using a combination of 3 fluorescent dyes: Carboxy-SNARF-1 (SNARF), to identify the live spermatozoa; propidium iodide (PI), which only stains dead cells or cells with damaged membranes; and fluorescein isothiocyanate (FITC)-conjugated Pisum sativum agglutinin (PSA), which binds to the acrosomal content of spermatozoa with damaged plasma and outer acrosomal membranes. The accuracy of this new staining method in quantifying the proportions of live and dead spermatozoa by flow cytometry was evaluated by comparing it with the staining technique using carboxyfluorescein diacetate and propidium iodide (CFDA-PI), which yielded high correlation coefficients. The triple-stained sperm samples were also analyzed by epifluorescence microscopy, and both methods proved to be highly correlated. Post-thaw progressive motility and plasma membrane integrity were similar for the 2 freezing procedures, but the proportion of damaged acrosomes after thawing was lower using the Andersen method and the spermatozoa had a higher thermoresistance. This new triple staining method for assessing canine sperm viability and acrosomal integrity provides an efficient procedure for evaluating frozen-thawed dog semen samples either by flow cytometry or fluorescence microscopy.     

Use of flow cytometry to monitor cell damage and predict fermentation activity of dried yeasts

Viable dried yeast is used as an inoculum for many fermentations in the baking and wine industries. The fermentative activity of yeast in bread dough or grape must is a critical parameter of process efficiency. Here, it is shown that fluorescent stains and flow cytometry can be used in concert to predict the abilities of populations of dried bakers' and wine yeasts to ferment after rehydration. Fluorescent dyes that stain cells only if they have damaged membrane potential (oxonol) or have increased membrane permeability (propidium iodide) were used to analyse, by flow cytometry, populations of rehydrated yeasts. A strong relationship (r2 = 0.99) was found between the percentages of populations staining with the oxonol and the degree of cell membrane damage as measured by the more traditional method of leakage of intracellular compounds. There were also were good negative relationships (r2 > or = 0.83) between fermentation by rehydrated bakers' or wine dry yeasts and percentage of populations staining with either oxonol or propidium iodide. Fluorescent staining with flow cytometry confirmed that factors such as vigour of dried yeast mixing in water, soaking before stirring, rehydration in water or fermentation medium and temperature of rehydration have profound effects on subsequent yeast vitality. These experiments indicate the potential of flow cytometry as a rapid means of predicting the fermentation performance of dried bakers' and wine yeasts.     

Interferometry in flow to sort unstained X- and Y-chromosome-bearing bull spermatozoa

BACKGROUND: It was found earlier that the difference in volume between unstained X- and Y-chromosome-bearing sperm heads could be detected using interference microscopy in visible light. This could be the basis for an alternative to the conventional method to sort X and Y sperm, which uses DNA staining and ultraviolet (UV)-excitation that may be harmful to sperm cells. A novel technique is introduced combining interferometry with flow cytometry. MATERIALS AND METHODS: Interference optics were built into an existing flow cytometer/cell sorter and used to sort fresh unstained bull sperm cells on the basis of their head volume. Sorted fractions were stained with a DNA stain, and reanalyzed using the conventional method. RESULTS: Purities between 60-66% were found in both X- and Y-enriched fractions. It was possible to sort up to 300 cells per second. The system was found to be less sensitive to the orientation of sperm cells than the conventional method. CONCLUSIONS: Interferometry can be combined with flow cytometry and used to obtain significantly enriched fractions of X- and Y-bearing sperm without staining and UV light. Sorting speeds and purities at this point, however, are much lower than with the conventional method.     

Identifying non-sperm particles during flow cytometric physiological assessment: a simple approach

Flow cytometry is now being used more frequently to determine sperm functional characteristics during semen assessment for artificial insemination. With this methodology, viable and potentially functional cells are detected as unstained events differentiated from non-sperm events through their light-scattering characteristics. However, it can be shown mathematically that identification of sperm on the basis of light scatter leads to significant overestimation of unstained viable cells and underestimation of responding cells in tests of sperm function (subpopulations expressing different fluorescence patterns). We have developed a simple and cost-efficient flow cytometric approach for identifying non-sperm particles that can be carried out in parallel with functional assessments. Our method is based on the sperm's osmotic intolerance. Diluted in water, lethal osmotic shock causes major damage to the cell membranes, and all sperm will stain with propidium iodide (PI). Particulate material which is not PI-positive can then be quantitatively evaluated by FACS analysis and the results substituted in mathematical equations to provide true values for sperm counts and subpopulations. In practical tests, the percentage of non-sperm particles determined by this technique was closely comparable to the figure obtained either by SYBR14^®/PI staining or by PI/CFDA staining. As well as being valuable with respect to tests of sperm function, the procedure is also suitable for obtaining accurate sperm counts during routine semen evaluation.     

Evaluation of in vitro capacitation of stallion spermatozoa

The primary aim of this study was to establish a flow cytometric technique for determining the capacitation status of stallion spermatozoa. To this end, a flow cytometric technique that demonstrates changes in plasma membrane fluidity; namely, merocyanine 540 staining, was compared with the more conventional Ca(2+)-dependent fluorescence microscopic technique, chlortetracycline (CTC) staining, for assessing capacitation status. In addition, the effect of bicarbonate/CO(2) on the progress of capacitation and the acrosome reaction (AR) and on temporal changes in sperm motility, with particular regard to hyperactivation, was analyzed. For the study, fresh semen was washed and then incubated for 5 h in bicarbonate-containing or bicarbonate-free medium, with or without Ca(2+) ionophore to induce the AR, and at intervals during incubation aliquots were taken and analyzed for capacitation and acrosome status. The AR was assessed using both the CTC and fluorescein isothiocyanate-peanut agglutinin (FITC-PNA) staining techniques with similar results. In brief, it was found that merocyanine 540 detects capacitation-related changes much earlier than CTC does (0.5 h versus approximately 3 h), and that flow cytometry for evaluation of capacitation and AR was a quicker (10 sec per sample) and more accurate (10,000 cells counted) technique than fluorescence microscopy. Furthermore, it was observed that Ca(2+) ionophore could not induce the AR in the absence of bicarbonate, but that the ionophore synergized the bicarbonate-mediated induction of the AR as detected by CTC (although it was not significant when evaluated using FITC-PNA). The percentage of hyperactive sperm in each sample was not affected by time of incubation under the experimental conditions studied. In conclusion, merocyanine 540 staining is a better method than CTC staining for evaluating the early events of capacitation for stallion spermatozoa incubated in vitro. Furthermore, bicarbonate sperm activation clearly plays a vital role in the induction of the AR in stallion spermatozoa.     

Birth of twins after in vitro fertilization with flow-cytometric sorted buffalo (Bubalus bubalis) sperm

Flow-cytometric sorting of mammalian sperm for production of offspring with the desired sex is one of the most important new biotechnologies available for livestock industry. The objectives of this study were: (i) to sort the sperm into X- and Y-enriched populations and (ii) use the sorted sperm for in vitro fertilization (IVF) to produce sex-preselected embryo and offspring. The results revealed that the accuracy of sorted X- and Y-sperm was 94% and 89%, respectively. There was a decrease in blastocyst development rate in IVF with sorted sperm comparing to unsorted sperm, but the percentage of blastocysts on D6-D8 was not statistically different. Transplantation of the presumed X-embryos derived from IVF into a recipient resulted in the birth of female twins. These results indicated the feasibility of sperm sorting by flow cytometry and in vitro production of sex-preselected embryos and offspring in buffalo.     

Flow cytometric analysis of mouse spermatogenic function following exposure to ethylnitrosourea

The effects of the mutagenic agent ethylnitrosourea (ENU) on spermatogenic function and sperm chromatin structure were studied by flow cytometry and the results compared with sperm head morphology measurements. Groups of mice received daily exposures ranging from 0 to 75 mg/kg body weight X 5 days and were sacrificed 28 days later. Fresh testicular cell suspensions and epididymal sperm were stained with acridine orange (AO) and measured by flow cytometry. Sperm nuclei were isolated, fixed, rehydrated, and then either subjected to thermal stress or not prior to staining with AO. Body weights were unaffected by the chemical exposure while the testicular weights were reduced by about 50%. Two-parameter (DNA, RNA) flow cytometry measurements showed a dose-response relationship in the loss of certain cell types, particularly the elongated spermatids, from the testes of treated animals. Flow cytometric analysis of both heat-stressed and non-heat-stressed nuclei showed a relationship between dosage and the coefficient of variation of alpha t [red/(red + green fluorescence)] measurements of AO stained nuclei, thereby demonstrating that alterations of chromatin structure occurred in response to ENU. Enzymatic digestions with RNAse, DNAse, and nuclease S1 suggest that the increase in red fluorescence is due to an increase of single-stranded DNA induced by heat or acid treatment of chemically altered chromatin structure. The lowest daily dosage used (5 mg/kg) caused no significant changes in ratios of testicular cell types, a questionable increase in abnormal sperm head morphology and a detectable change in chromatin structure expressed as alpha t. This report shows that our technique for assaying sperm nuclear chromatin structure appears to have the same level of sensitivity to ENU induced nuclear alterations as the sperm head morphology test.     

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.     

Development of bovine embryos after in vitro fertilization of oocytes with flow cytometrically sorted, stained and unsorted sperm from different bulls

The objective of this study was to determine the effect of staining bovine sperm, with or without flow cytometry, on in vitro fertilization of bovine oocytes and blastocyst development. Bovine oocytes (n=4273) were fertilized with frozen–thawed sperm from three bulls that was: stained with Hoechst 33342 and sorted (into X- or Y-chromosome-bearing sperm) with flow cytometry; stained but not sorted; and not stained or sorted (Control). Oocytes, aspirated from slaughterhouse ovaries, were matured in TCM199 (supplemented with 10% fetal calf serum and 15 ng FSH, 1.0 μg LH, 1.0 μg E2/ml) for 22–24 h at 39 °C in 5% CO₂ in air with maximum humidity. Presumptive zygotes were removed from culture and placed in chemically defined medium (CDM-1) 6–7 h after insemination and cultured for 65–66 h. Embryos that had cleaved by 72 h post-insemination were cultured an additional 96 h in CDM-2 containing 0.12 IU insulin/ml. Cleavage and blastocyst rates per oocyte inseminated were recorded on Day 3 and Days 7–8 after insemination, respectively. There was no significant difference in blastocyst rate among the three types of sperm; however, cleavage rates with stained and sorted sperm (53.1%) and unsorted, stained sperm (59.9%) were lower (P<0.05) than Control sperm (69.7%). Furthermore, there were significant differences due to semen from different bulls in cleavage and blastocyst rates.     

Quality characteristics and fertilizing ability of ram sperm subpopulations separated by partition in an aqueous two-phase system

Centrifugal countercurrent distribution (CCCD) in an aqueous two-phase system (TPS) is a resolute technique revealing sperm heterogeneity and for the estimation of the fertilizing potential of a given semen sample. However, separated sperm subpopulations have never been tested for their fertilizing ability yet. Here, we have compared sperm quality parameters and the fertilizing ability of sperm subpopulations separated by the CCCD process from ram semen samples maintained at 20°C or cooled down to 5°C. Total and progressive sperm motility was evaluated by computer-assisted analysis using a CASA system and membrane integrity was evaluated by flow cytometry by staining with CFDA/PI. The capacitation state, staining with chlortetracycline, and apoptosis-related markers, such as phosphatidylserine (PS) translocation detected with Annexin V, and DNA damage detected by the TUNEL assay, were determined by fluorescence microscopy. Additionally, the fertilizing ability of the fractionated subpopulations was comparative assessed by zona binding assay (ZBA). CCCD analysis revealed that the number of spermatozoa displaying membrane and DNA alterations was higher in samples chilled at 5°C than at 20°C, which can be reflected in the displacement to the left of the CCCD profiles. The spermatozoa located in the central and right chambers (more hydrophobic) presented higher values (P<0.01) of membrane integrity, lower PS translocation (P<0.05) and DNA damage (P<0.001) than those in the left part of the profile, where apoptotic markers were significantly increased and the proportion of viable non-capacitated sperm was reduced. We have developed a new protocol to recover spermatozoa from the CCCD fractions and we proved that these differences were related with the fertilizing ability determined by ZBA, because we found that the number of spermatozoa attached per oocyte was significantly higher for spermatozoa recovered from the central and right chambers, in both types of samples. This is the first time, to our knowledge that sperm recovered from a two-phase partition procedure are used for fertilization assays. These results open up new possibilities for using specific subpopulations of sperm for artificial insemination or in vitro fertilization, not only regarding better sperm quality but also certain characteristics such as subpopulations enriched in spermatozoa bearing X or Y chromosome that we have already isolated or any other feature.     

Selection and separation of X- and Y- chromosome-bearing mammalian sperm

Preselection of the gender of offspring is a subject that has held man's attention since the beginning of recorded history. Most scientific hypotheses for producing the desired sex of offspring address separation of X- and Y-bearing sperm, and most have had limited, if any success. Eight of these hypotheses and their experimental verifications are discussed here. Three hypotheses are based on physical characteristics of sperm, one on supposed differences in size and shape, another on differences in density, and a third on differences in surface charge. There has been no experimental verification of differences based on size and shape, and the results from attempts to verify separation of X- and Y-bearing sperm based on density have been mixed. Electrophoresis may provide a method for separating X-and Y-bearing sperm, but it is currently unproven and would be of little practical utility, since sperm motility is lost. A fourth hypothesis employs H-Y antigen to select preimplantation embryos. This method reliably produces female offspring, but does not permit the selection of male offspring and does not work on sperm. There are two applications of the theory that X- and Y-bearing sperm should be separable by flow fractionation. Flow fractionation using thermal convection, counter-streaming sedimentation, and galvanization is highly promoted by its originator but has not gained wide acceptance due to lack of independent confirmation. Flow fractionation by laminar flow is said to provide up to 80% enrichment of both X- and Y-bearing sperm; however, this method also has not been confirmed by other workers or tested in breeding trials. The sixth theory discussed is that of separation through Sephadex gel filtration. This method may provide enrichment of X-bearing sperm, but, again, other experimenters have not been able to adequately confirm the enrichment. The best-known approach to sperm separation is that employing albumin centrifugation, yet even with this method, not all researchers have been able to confirm a final fraction rich in Y sperm, and trials in animals have given contradictory results. The most reliable method for separating X- and Y-bearing sperm is use of flow cytometric and flow sorting techniques. These techniques routinely separate fractions with a purity greater than 80% and can be above 90%. Unfortunately, these methods do not always work for human samples. Furthermore, as with electrophoretic approaches, the methods identify and separate only chemically fixed sperm and provide limited biological applications. Generally accepted experimental laboratory procedures for verification of proportions of X- and Y-bearing sperm are lacking. Staining of sperm with the fluorochrome dye quinacrine will identify a structure known as the “F-body” in human sperm and sperm from a few primates. The dye does not work other mammalian sperm. Its validity as a measure of sperm genotype is the topic of debate. We have used two methods to verify claims of separation of sperm. flow cytometry, and in vitro fusion. One can use flow cytometry to test the efficiency of separation of sperm samples. We tested seven commercial methods for the separation of bovine sper, and none were found of result in enrichment. We also used in vitro fusion of human sperm to denuded hamster ova to test enrichment of Y-bearing sperm from the albumin separation process. out results demonstrated no Y-bearing-sperm enrichment from this process. Scientific problems impeding the success of separation seem to be under investigation with an ever-increasing rate. Hybridization probes for DNA sequences specific to the X or Y chromosome may be the next appropriate technology to test of the selection and separation of X- and Y-chromosome-bearing mammalian sperm.     

Evaluation of cryopreserved stallion semen from Tori and Estonian breeds using CASA and flow cytometry

Methods to evaluate the quality of frozen-thawed stallion semen are still needed, particularly those considering the sperm function. The present study evaluated sperm motility, membrane and acrosome integrity and the capacitation status of frozen-thawed spermatozoa from seven Tori and six Estonian breed stallions by way of computer assisted sperm analysis (CASA), a triple fluorophore stain combination and Merocyanine 540, respectively, the latter ones using flow cytometry. Two ejaculates from each stallion were cryopreserved using the Hannover method in 0.5 ml plastic straws. Two straws per ejaculate per stallion were thawed at 37 degrees C for 30s. Motility was analysed with CASA immediately after thawing, while for flow cytometry spermatozoa were cleansed by 70:40% Percoll discontinuous density gradient separation before analysed for sperm viability, acrosome integrity (stained with SNARF, PI and FITC-PSA) and capacitation status (stained with Merocyanine 540/Yo-Pro-1). Results (as least square means) were as follows: the motility of frozen-thawed semen was 43.4% for Tori stallions and 42.3% for Estonian stallions (P>0.05). After Percoll separation 79.3% of the spermatozoa from Tori stallions had intact acrosomes and 1.7% of them showed early signs of capacitation. The same parameters for Estonian stallions were 84.5 and 2.3%, respectively. There were no statistically significant differences between breeds or ejaculates within breed for any evaluated parameter. We conclude that triple staining and flow cytometry are valuable techniques to evaluate frozen-thawed stallion spermatozoa, and that no differences in quality of frozen semen were registered between Tori and Estonian breed stallions, allowing implementation of this technology in the Estonian horse population.     

New techniques for the assessment of canine semen quality: a review

Until recently, canine semen assessment was routinely performed by conventional light microscopic techniques. The limitations of these methods include subjectivity, variability, the small number of spermatozoa analyzed, and poor correlation with fertilizing potential. The last decade, several new in vitro techniques have been introduced for canine semen assessment that enable a more detailed evaluation of several sperm characteristics. Numerous fluorescent staining techniques have been developed for the evaluation of specific sperm characteristics and functions, including plasma membrane integrity, capacitation status and the acrosome reaction. By combining fluorescent stains, several functional sperm characteristics can be assessed simultaneously. Moreover, by means of flow cytometry, large numbers of fluorescently labelled spermatozoa can be analysed in a short interval. Following thorough standardization and validation, computer-assisted sperm analysis systems provide objective and detailed information on various motility characteristics and morphometric dimensions that cannot be identified by conventional light microscopic semen analysis. In vitro assays, evaluating the capacity of canine spermatozoa to bind to the zona pellucida or oviductal explants, or to penetrate the oocyte, provide additional information on canine gamete interaction that may be useful in predicting the fertilizing potential of spermatozoa. Although substantial improvements have been made in canine semen assessment, surprisingly few parameters were correlated with in vivo fertility. Therefore, further research is required to determine which sperm characteristics are of clinical value for predicting the in vivo fertility in dogs.     

Clinical aspects of sperm DNA fragmentation detection and male infertility

Over the past 25 years, various methods have been developed to measure sperm DNA strand breaks in situ. Currently, there are four major tests of sperm DNA fragmentation, including the Comet, Tunel, sperm chromatin structure assay (SCSA) and the acridine orange test (AOT). The Comet assay is a light microscope technique where the sperm cells are mixed with melted agarose and then placed on a glass slide. The cells are lysed and then subjected to horizontal electrophoresis. The Tunel assay, another light microscope technique, transfers labeled nucleotide to the 3'OH group of a broken DNA strand with the use of terminal deoxynucleotidyl transferase. The fluorescence intensity of each scored sperm is determined as a "yes" or "no" for sperm on a light microscope slide or by channels of fluorescent intensity in a flow cytometer. The light microscope-based AOT, uses the metachromatic properties of acridine orange to stain sperm cells. The SCSA treats sperm with low pH to denature DNA at the sites of DNA strand breaks, followed by acridine orange (AO) staining of green for native DNA and red for denatured DNA as measured by flow cytometry (FCM) as well as % sperm with high DNA stainability (HDS: immature sperm with intact DNA related to decreased fertilization rates). The SCSA method has defined a 27-30% DNA fragmentation index (DFI) as the point in which a man is placed into a statistical category of taking a longer time to in vivo pregnancy, intra uterine insemination (IUI) and more routine in vitro fertilization (IVF) cycles or no pregnancy. Current data suggest that intracytoplasmic sperm injection (ICSI) may help overcome the diminished pregnancy prognosis with high DFI over the other ART or natural methods.     

Comparison of human and mouse sperm chromatin structure by flow cytometry

Human and mouse sperm nuclei obtained by sonication or mechanical agitation of freshly isolated sperm in the presence of anionic detergent were purified through a sucrose gradient and stained with acridine orange (AO); their fluorescence intensity was measured by flow cytometry. The green fluorescence, characteristic of AO binding to DNA by intercalation, was twice lower per unit of DNA for human sperm nuclei than for human peripheral blood lymphocytes. After extraction of basic proteins with 0.08 N HCl, AO binding to DNA increased 3.2-fold for lymphocytes and only 1.3-fold for sperm indicating that, in contrast to somatic cells, the proteins restricting AO binding to DNA are essentially non-extractable from sperm at that low pH. Treatment of human and mouse nuclei with dithiothreitol (DTT), a sulfhydryl reducing agent, and trypsin, removed constraints responsible for the restriction of AO binding. Specifically, as a result of DTT treatment alone there was up to a 20–30% increase of AO binding; upon subsequent addition of trypsin there was a further rapid rise in AO binding up to a final level of approximately 5 times the original AO binding to isolated sperm nuclei. Electron microscopy of DTT-treated human sperm nuclei showed that the reducing agent caused chromatin decondensation to a level whereby 20–30 Å diameter fibers interconnecting chromatin bodies about 30–75 nm in diameter were revealed. Trypsin digestion in the presence of DTT converted the chromatin bodies into a network of fibrous structures about 150 Å in diameter. Both electron microscopy and flow cytometry demonstrated an extremely large intercellular variation among human sperm nuclei in response to DTT and trypsin treatment indicating heterogeneity of chromatin structure. In contrast, AO staining of mouse sperm nuclei increased homogeneously in response to DTT and trypsin treatment.