Small‐volume vitrification for human spermatozoa in the absence of cryoprotectants by using Cryotop

Cryotop is a carrier that has been used successfully in the cryopreservation of human spermatozoa. Here, we explored a novel method to vitrify human spermatozoa without cryoprotective agents (CPAs) using Cryotop. Spermatozoa from 21 Normozoospermic patients were collected and vitrified without CPAs or with sucrose in small volume using Cryotop. The sperm recovery rate, motility, viability, chromatin damage and DNA fragmentation were assessed. No significant difference was observed in the sperm recovery rate and motility rate between the spermatozoa cryopreserved without CPAs and with sucrose. The post‐thawed spermatozoa cryopreserved without CPAs had a higher viability and lower damage to sperm chromatin and DNA than those cryopreserved with sucrose. These results suggest that small numbers of human spermatozoa can be successfully vitrified without CPAs using Cryotop.     

Quality of human spermatozoa: relationship between high‐magnification sperm morphology and DNA integrity

The aim of this work is to establish the relationship between the morphology of Intracytoplasmic Morphologically Selected Sperm Injection (IMSI)‐selected spermatozoa and their DNA integrity. The 45 ejaculates were randomly distributed into three treatment groups: normozoospermic, oligoasthenozoospermic and oligoasthenotheratozoospermic samples. The evaluation of DNA integrity was performed using the sperm chromatin dispersion test. It was established that DNA integrity of spermatozoa is strongly dependent on ejaculate quality (P < 0.05). The count of spermatozoa with nonfragmented DNA in normozoospermic samples was high and independent from IMSI‐morphological classes (Class 1 versus Class 3, respectively) (P > 0.1). With decreased ejaculate quality, the percentage of spermatozoa with nonfragmented DNA decreased significantly (P < 0.05) independent from morphological class. Nevertheless, the rate of IMSI‐selected spermatozoa with fragmented DNA within of Class 1 in normozoospermic (Group 1), in oligoasthenozoospermic (Group 2) and in oligoasthenotheratozoospermic (Group 3) samples was 21.1%, 31.8% and 54.1%, respectively. In conclusion, there is a direct relationship between morphological parameters of spermatozoa and their DNA integrity. However, the IMSI technique alone is not enough for the selection of spermatozoa with intact nuclei.     

不同浓度的蔗糖溶液快速冻存人类精子的实验研究

目的:探讨使用非渗透性冷冻保护剂蔗糖快速冻存人类精子的可行性。方法:收集正常精液标本40份,经上游法处理后,收集上游精子悬液,分成6份,1份作为对照,其余5份分别用常规精子冷冻法,0.15、0.20、0.25、0.30 mol/L蔗糖溶液冷冻精子,复苏后比较6组精子活动率、前向运动精子活动率及精子质膜完整性。结果:所有冷冻组复苏后精子活动率、前向运动精子活动率及膜完整率与冷冻前上游组(96.2±1.8)%,(93.8±2.8)%,(99.0±0.8)%比较均显著下降,差异有显著性(P<0.05)。精子活动率结果:蔗糖冷冻组之间比较,0.20 mol/L组解冻后精子活动率高于0.15、0.25、0.30 mol/L组,分别为(55.5±6.3)%、(45.9±6.6)%、(50.4±9.4)%、(45.5±11.2)%,差异有显著性(P<0.05)。0.20、0.25 mol/L蔗糖冷冻组与常规慢速冷冻组(53.6±5.0)%比较,差异均无显著性(P>0.05);0.15、0.30 mol/L蔗糖组均低于常规慢速冷冻组(P<0.05)。前向运动精子活动率结果:0.20 mol/L蔗糖冷冻组与常规冷冻组比较差异无显著性[(44.4±7.4)%vs(42.3±8.1)%,P>0.05];以上两组均高于0.15、0.25、0.30 mol/L蔗糖冷冻组,分别为(37.1±8.3)%、(33.1±9.2)%、(22.0±9.1)%,差异有显著性(P<0.05)。精子膜完整率结果:0.20 mol/L蔗糖冷冻组(70.1±6.9)%高于常规冷冻组、0.15、0.25、0.30 mol/L蔗糖冷冻组,分别为(63.1±6.8)%、(57.7±8.3)%、(63.5±10.7)%、(57.8±12.9)%,差异有显著性(P<0.05);常规冷冻组与0.15、0.25、0.30 mol/L蔗糖冷冻组比较差异无显著性(P>0.05)。结论:终浓度为0.20 mol/L的蔗糖溶液作为人类精子冷冻保护剂是可行的,快速冷冻方法简便、快速、经济、安全有效。     

Cryoprotectant‐free ultra‐rapid freezing of human spermatozoa in cryogenic vials

The objective of this study was to investigate the effect of ultra‐rapid freezing (direct immersion in liquid nitrogen) on human spermatozoa in cryogenic vials (≥0.5 ml) at different concentrations of sucrose. After swim‐up, the sperm suspensions (N = 58) were diluted with sperm preparation medium and divided into six aliquots: swim‐up (fresh), conventional freezing group (slow freezing) and four ultra‐rapid freezing groups containing sucrose at different concentrations (0.15 m , 0.20 m , 0.25 m and 0.30 m ). Sperm motility, progressive motility, plasma membrane integrity, DNA stability and acrosome integrity of fresh and cooled‐warmed spermatozoa were analysed. The progressive motility, plasma membrane and acrosome integrity of spermatozoa in the 0.20 m sucrose group were significantly higher than those of the slow freezing group (47.5 ± 6.8% versus 36.4 ± 8.7%, 73.2 ± 6.9% versus 63.9 ± 6.3%, 53.7 ± 10.0% versus 35.9 ± 9.7% respectively, P < 0.05). However, no differences were found in sperm motility or DNA stability (58.5 ± 6.3% versus 54.2 ± 5.3%, 90.1 ± 2.8% versus 87.2 ± 4.7%, P > 0.05 respectively) between the 0.20 m sucrose and the slow freezing group. No differences were found between the ultra‐rapid and slow freezing group at the other concentrations of sucrose. Our findings suggest that the method of ultra‐rapid freezing of human spermatozoa in cryogenic vials with a solution containing 0.20 m sucrose results in recovery of spermatozoon of superior qualities. In contrast to slow freezing, the ultra‐rapid freezing technique of human spermatozoa seems to reduce cryoinjuries and maintain important physiological characteristics of the spermatozoa after warming.     

Vitrified sperm banks: the new aseptic technique for human spermatozoa allows cryopreservation at −86 °C

The vitrification technique is simple, quick, cost‐effective and has showed a significantly stronger cryoprotective effect in contrast to conventional freezing. The method is based on the rapid cooling of the cell by direct immersion in liquid nitrogen (LN ₂), thereby avoiding the formation of ice crystals, due to the lower risk of water thawing, which impairs cell function. The aim of this study was to evaluate the effect of storage at ?86 °C compared to the conventional ?196 °C (under LN ₂) on essential parameters of the functioning of aseptically vitrified human sperm. Sperm motility, integrity of mitochondrial membrane potential and the rate of DNA fragmentation were determined. The comparison of ?86 °C and ?196 °C demonstrated no statistical difference in sperm progressive motility (73% vs. 77%), integrity of mitochondrial membrane potential (71% vs. 74%) or DNA fragmentation (3.1% vs. 2.9%). In conclusion, aseptically vitrified sperm can be preserved at ?86 °C; eliminating the use of LN ₂ simplifies and significantly reduces the costs associated with storage in sperm banks by decreasing the time and space needed for storage, the effort in finding stored samples, and by improving safety for the operator. However, for prolonged storage further studies are needed.     

Cryoprotectant-free vitrification of fish (Oncorhynchus mykiss) spermatozoa: first report

The aims of this investigation were to test a novel technology comprising cryoprotectant‐free vitrification of the spermatozoa of rainbow trout and to study the ability of sucrose and components of seminal plasma to protect these cells from cryo‐injuries. Spermatozoa were isolated and vitrified using three different media: Group 1: standard buffer for fish spermatozoa, Cortland^® medium (CM, control); Group 2: CM + 1% BSA + 40% seminal plasma; and Group 3: CM + 1% BSA + 40% seminal plasma + 0.125 m sucrose. For cooling, 20‐μl suspensions of cells from each group were dropped directly into liquid nitrogen. For warming, the spheres containing the cells were quickly submerged in CM + 1% BSA at 37 °C with gentle agitation. The quality of spermatozoa before and after vitrification was analysed by the evaluation of motility and cytoplasmic membrane integrity with SYBR‐14/propidium iodide staining technique. Motility (86%, 81% and 82% for groups 1, 2 and 3, respectively) (P > 0.1) was not decreased significantly. At the same time, cytoplasmic membrane integrity of spermatozoa of Groups 1, 2 and 3 was changed significantly (30%, 87% and 76% respectively) (P < 0.05). All tested solutions can be used for vitrification of fish spermatozoa with good post‐warming motility. However, cytoplasmic membrane integrity was maximal in Group 2 (CM + 1% BSA + 40% seminal plasma). In conclusion, this is the first report about successful cryoprotectant‐free cryopreservation of fish spermatozoa by direct plunging into liquid nitrogen (vitrification). Vitrification of fish spermatozoa without permeable cryoprotectants is a prospective direction for investigations: these cells can be successfully vitrified with 1% BSA + 40% seminal plasma.     

A new approach for cryoprotectant‐free freezing of goat epididymal spermatozoa

A cryoprotectant‐free method was successfully used for rapid freezing of goat epididymal spermatozoa. Lowering sperm volume may increase the temperature exchange rate and improve the freezing output of spermatozoa. The aim of this study was to compare two different packaging types [0.25 ml French straws (FS) and 96‐well immune plate (WIP)] for rapid freezing of goat epididymal spermatozoa. Eleven pairs of the goat testes were transferred to the laboratory; cauda epididymidides were dissected and sliced in TRIS‐BSA solution for 15 min and temperature 33–35 °C. Sperm concentration was adjusted to 20 × 10⁶ ml^?1, and the suspension was subjected to rapid freezing within FS or WIP. The volume of spermatozoa in WIP method was set at 25 μl. Sperm motility, viability and abnormalities, and sperm DNA integrity were compared between two devices. The results showed similar effectiveness of WIP and FS on post‐thaw sperm parameters. In conclusion, for cryoprotectant‐free rapid freezing of goat epididymal spermatozoa, it is recommended to use WIP instead of French 0.25 ml straws.     

Aquaporin3 expression and the potential role of aquaporins in motility and mitochondrial membrane potential in human spermatozoa

Aquaporins are water selective channels which play important roles in cell volume regulation during the transmission of spermatozoa to female tract. This study investigated the expression of aquaporin3 and determined the role of aquaporins in human sperm motility and mitochondrial membrane potential (MMP). RT-PCR and flow cytometry analysis were done to investigate aquaporin3 expression levels, and immunolocalisation of aquaporin3 in the spermatozoa was detected using immunocytochemical analysis. The sperm suspension was divided into four groups of spermatozoa: (a) Spermatozoa at 0 hr, (b) spermatozoa in control group, (c) spermatozoa treated with HgCl₂ (as an aquaporin inhibitor) and (d) spermatozoa treated with HgCl₂+ and 2-mercaptoethanol. The sperm samples were examined in terms of sperm motility and mitochondrial membrane potential. Results confirmed aquaporin3 expression in human spermatozoa and immunocytochemistry results showed an intense immunoreactivity in whole sperm tail. After 60 min, HgCl₂ showed a significant decrease in motility and MMP compared to the control group. At this time point, 2-mercaptoethanol in the HgCl₂+ 2-mercaptoethanol group reversed the effects of HgCl₂ as compared to the HgCl₂ group. Present study showed the expression and immunolocalisation of AQP3 in human spermatozoa and the potential role of AQPs in the sperm motility and MMP.     

Protective effect of butylated hydroxytoluene on sperm function in human spermatozoa cryopreserved by vitrification technique

Butylhydroxytoluene (BHT), a synthetic analogue of vitamin E, shows antioxidant and antiviral properties and has been successfully used for mammalian sperm cryopreservation. In this study, BHT was included in a vitrification solution to determine its cryoprotective effect on human spermatozoa. Spermatozoa were selected by swim‐up and vitrified in close sealed straw using either a combination of human tubal fluid (HTF), sucrose and BHT 1 mm (VMBHT), or only HTF and sucrose (VM). The optimal concentration of BHT was determined by the observation of preserved progressive sperm motility (PSM) after warming and detection of plasma membrane (PMI), membrane mitochondrial potential (ΔΨm) and DNA integrity. The presence of reactive oxygen species (ROS) was also detected. The PSM was significantly higher in the VMBHT group (80.86 ± 5.41%) compared with the VM group (68.9 ± 3.67%) (P < 0.05). Butylhydroxytoluene significantly preserved DNA integrity (4.0 ± 0.1% versus 6.1 ± 1.6%; P < 0.05) and reduced ROS production (5.5 ± 2.2 versus 8.6 ± 1.8%; P < 0.05). Plasma membrane and ΔΨm showed no statistical differences. One millimolar BHT effectively maintained cell function and due to its antioxidant and antiviral properties could be used in semen cryopreservation of patients with viral infections transmitted by seminal plasma.     

精子冻存技术及上游法精子处理技术对精子DNA完整性的影响

目的通过对冷冻前后及精子处理前后精子DNA完整性的比较,探讨冷冻技术、冷冻时间及上游法精子处理技术对精子DNA完整性的影响。方法（1）精液常规检测正常的患者30例,手淫法取精,精液液化混匀后分4份,分别用于精子染色质扩散（SCD）实验检测精子DNA完整性、上游法处理精液、以及两组冻存实验（不加保护剂直接冻存的为冻存1组;添加蛋黄葡萄糖保护剂冻存的为冻存2组）;（2）上游法处理后的精液一部分用于检测精子动力和形态,一部分用于精子DNA完整性检测;（3）冻存1组分别于冻存第7天和第90天解冻,SCD实验检测精子DNA完整性;（4）冻存2组分别于第7天和第90天解冻,0．1ml用于精子DNA完整性检测,剩余精液应用上游法处理,检测上游处理前后精子DNA的完整性。结果（1）冻存1组中,冻存90d后解冻的精子DNA损伤率[（25．6土7．3）％]显著高于冻存7d者[（22．4±7．4）％]（P〈0．05）,且均显著高于新鲜精液的精子DNA损伤率[（20．6±7．3）％]（P〈O．05）;冻存2组中,冻存90d后精子DNA损伤率显著高于冻存7d者[（25．9±7．2）％VS．（23．6土7．8）％]（P〈O．05）,且均显著高于新鲜精液（P〈0．05）;而冻存7d和90d后,两个冻存组间比较,精子DNA损伤率均无显著差异（P〉0．05）。（2）新鲜精液经上游法处理后,精子DNA损伤率由处理前的（20．6±7．3）％降为（6．4±2．5）％（P〈O．05）;冻存2组中精液冻存7d和90d后复苏上游法处理后,精子DNA损伤率较未经上游法处理者均显著降低[分别为（9．38±2．8）％VS．（23．6±7．8）％和（9．7±2．6）％VS．（25．9±7．2）％]（P％0．05）。结论冻存对精子DNA有损伤,冻存时间对于精子DNA完整性有影响。不添加保护剂直接冻存和添加保护剂对精子DNA完整性的影响无显著差异。不论是新鲜精液还是冻存复苏精液,上游法处理并不会增加精子DNA的损伤,且有利于筛选出具有更好DNA完整性的精子。     

Comparison of cryopreserved human sperm from solid surface vitrification and standard vapor freezing method: on motility, morphology, vitality and DNA integrity

Solid surface vitrificaition (SSV) is a cryoperservative method that has been used in the cryopreservation of oocytes, and embryos. Here, we report an application of the SSV in the cryopreservation of human spermatozoa. We compared the SSV with a standard freezing method in terms of sperm motility, morphology, vitality and DNA integrity. Sperm motility was determined by computer assisted semen analysis, morphology and vitality were determined by eosin-methylene blue staining, and DNA integrity was determined by a TUNEL assay. We found that while both cryopreservative methods produced spermatozoa with comparable vitality and motility, the SSV gave slightly, but significantly fewer sperm with DNA damage, and loose tail. We concluded that, a cryopreservation of human spermatozoa by SSV is feasible and provides a quick and practical way to preserve human spermatozoa with a comparable, if not better, quality of the preserved spermatozoa to the standard freezing method.     

Relationship between nuclear DNA fragmentation,mitochondrial DNA damage and standard sperm parameters in spermatozoa of fertile and sub‐fertile men before and after freeze‐thawing procedure

The aim of this study was to assess the stability of nuclear and mitochondrial DNA (n‐DNA and mt‐DNA) of spermatozoa under freeze‐thawing and to find out the correlation between them and their association with standard sperm parameters. Forty‐three semen samples were collected from fertile (G.1; n = 29) and sub‐fertile (G.2; n = 14). N‐DNA fragmentation was determined by TUNEL assay and mt‐DNA using caspase 3 staining. Each semen sample was frozen at ?196°C by the programmed freezer. Freeze‐thawing decrease vitality, total motility and membrane integrity from (43.02 ± 22.74%; 31.63 ± 18.15%; 51.5 ± 24.82%) to (22.71 ± 17.3%; 9.21 ± 6.61%; 34.64 ± 19.92% respectively [p < .001]). G.1 native spermatozoa stained positive with TUNEL and caspase 3 were (14.85 ± 17.6% and 5.8 ± 11.59%) and increased after freeze‐thawing to 27.54 ± 19.74% (p = .004) and 7.3 ± 6.13% (p = .01) respectively. In G.2, TUNEL and caspase 3 were (19.84 ± 17.52% and 7.53 ± 8.56%) and increased to (29.48 ± 16.97% [p = .03] and 10.21 ± 11.73%). In conclusion, freeze‐thawing process affects not only semen parameters but also n‐DNA and mt‐DNA. Therefore, n‐DNA and mt‐DNA could be used as sensitive parameters for assessment of the cryodamage of human spermatozoa.     

番茄红素对人精子冷冻损伤的保护作用及机制研究

目的:通过在人精子冷冻保护液中添加不同浓度的番茄红素,研究番茄红素对精子冷冻损伤的可能保护作用及机制。方法:选择吉林省人类精子库捐精者的精液标本25份,每份精液一式4份,3∶1加入冷冻保护液后混匀,不含番茄红素者设为对照组(Ly0),而Ly2、Ly5、Ly10实验组混合液中分别含有2、5、10μmol/L的番茄红素,冷冻复苏精液进行常规分析,采用流式细胞术分析冻融后各组精子的凋亡率;采用硫代巴比妥酸(TBA)比色法检测精子中脂质过氧化产物丙二醛(MDA)浓度。利用JC-1标记法检测线粒体膜电位。结果:冻融后各组精子运动参数较新鲜精液参数均明显下降(P<0.01),Ly5组冻融后精子凋亡率[(25.68±4.36)%]较对照组[(33.26±4.78)%]显著下降(P<0.05);Ly5组线粒体膜电位水平[(66.18±14.23)%]显著高于对照组[(55.24±12.31)%],P<0.05;Ly2、Ly5、Ly10组的MDA水平与对照组比较,无统计学差异(P>0.05)。结论:在精液冷冻保护液中添加一定浓度的番茄红素可以减少线粒体氧化损伤,减轻活性氧对精子质膜的氧化应激损伤,从而提高精子的抗凋亡能力。     

Effect of lansoprazole on DNA integrity of human spermatozoa and activity of seminal creatine kinase

Although lansoprazole (brand name Prevacid) is a commonly used dug to manage various acid-related gastrointestinal diseases, little is known about its effects on human semen quality and sperm parameters. Here, we aimed to investigate the effect of lansoprazole on DNA integrity of human spermatozoa and activity of seminal creatine kinase. DNA integrity of human spermatozoa was assessed by the Apo-Direct™ kit followed by flow cytometry. The activity of creatine kinase was measured by kinetic spectrophotometric method using commercially available kits following the International Federation of Clinical Chemistry recommendations. Lansoprazole at 3 µg/ml, after 1-hr incubation period, did not show any significant increase in fluorescein isothiocyanate fluorescence (p > .05) and hence on the content of DNA breaks of human spermatozoa. In addition, there was no significant change (p = .8113) in the activity of seminal creatine kinase by the effect of lansoprazole. In conclusion, lansoprazole at 3 µg/ml did not alter DNA integrity of human spermatozoa or activity of seminal creatine kinase after 1-hr incubation period.     

Effect of freeze–thawing procedure on chromatin stability, morphological alteration and membrane integrity of human spermatozoa in fertile and subfertile men

Cryopreservation is known to impair sperm motility and decrease the fertilization rate by detrimental effects on acrosomal structure and acrosin activity. However, the consequences of cryopreservation on the integrity of the sperm nucleus, chromatin stability and centrosome are less clear. The present study was designed to determine the effect of the freeze-thawing procedure on chromatin condensation (aniline blue staining) and the morphology (strict criteria) and membrane integrity of human spermatozoa. The structural and functional characteristics of the sperm plasma membrane were measured by the eosin-test and hypo-osmotic swelling test which were done separately. Sperm cryopreservation was performed on semen samples from two groups of men classified as fertile (n = 20) and subfertile (n = 72), based on their reproductive history and semen analysis according to WHO guidelines. The mean percentage of condensed chromatin, morphologically normal spermatozoa and membrane integrity in all semen samples investigated (n = 92) decreased significantly (p = 0.0001) after freeze-thawing, in comparison to the value observed prior to freezing. By comparing the semen samples between fertile and subfertile patients, significantly (p = 0.0009) greater damage was demonstrated in the subfertile than in the fertile group. Furthermore, no significant difference was observed between the two groups with regard to the morphological alteration and structural as well as functional damage of the sperm membrane. In conclusion, the freeze-thawing procedure significantly affects chromatin structure and sperm morphology, especially in the head and the tail regions, and this may explain the lower fertilization rate and IVF/ICSI outcome when frozen-thawed spermatozoa are used. In addition, this study demonstrates that chromatin condensation is a sensitive parameter for the evaluation of cryodamage of semen samples from fertile and subfertile patients, though subfertile patients with very poor semen characteristics have yet to be studied. It is therefore recommended that chromatin condensation be used as an additional parameter for the assessment of sperm quality after freeze-thawing.     

Effect of freezing–thawing on the expression of mannose-ligand receptors on human spermatozoa: the impact on sperm capacitation and acrosome reaction

The aim of this study was to evaluate the change in the expression of mannose-ligand receptors following a freezing-thawing procedure, in order to assess its impact on sperm capacitation and acrosome reaction. Twenty semen samples were obtained from fertile donors. Sperm samples were divided into two equal volumes. One aliquot was cryopreserved and the other aliquot was incubated at 32 degrees C. After 2 h the frozen sample was thawed and both samples were further incubated at 32 degrees C to allow capacitation. Mannose receptors were examined following 4 and 22 h of incubation using a mannosylated-BSA-FITC probe. The expression of mannose-ligand receptors on the sperm plasma membrane was determined according to the fluorescence pattern: pattern I represents pre-capacitation, pattern II represents capacitated spermatozoa and pattern III represents acrosome-reacted spermatozoa. After 4 h incubation in capacitating medium, the percentages of patterns I, II and III were 90, 7 and 3% for fresh spermatozoa and 89, 8 and 3% for frozen-thawed spermatozoa, respectively (P > 0.05). Following 22 h of incubation, the percentages of patterns I, II and III were 84, 11 and 5 for fresh spermatozoa and 83, 11 and 6% for frozen-thawed spermatozoa, respectively (not significant at P > 0.05). The percentages of patterns II and III in fresh and frozen-thawed spermatozoa were increased by the same magnitude with longer incubation in the capacitating conditions. It was concluded that the freezing-thawing procedure for human spermatozoa does not affect the expression of mannose-ligand receptors and the dynamics of sperm pre-fertilization processes.     

Overtime expression of plasma membrane and mitochondrial function markers associated with cell death in human spermatozoa exposed to nonphysiological levels of reactive oxygen species

In many cell types, the potential of reactive oxygen species to induce death processes has been largely demonstrated. Studies in spermatozoa have associated the imbalance of reactive oxygen species and phosphatidylserine externalisation as an apoptosis marker. However, the lack of consensus about time effect in the joint expression of these and other death markers has made it difficult to understand the set of mechanisms influenced beyond the concentration effect of reactive oxygen species to stimulate cell death. Here, the plasma membrane permeability and integrity, phosphatidylserine externalisation and mitochondrial membrane potential were jointly evaluated as death markers in human spermatozoa stimulated with H₂O₂. The results showed a profound and sustained effect of dissipation in the mitochondrial membrane potential and an increased phosphatidylserine externalisation in human spermatozoa exposed to 3 mmol⁻¹ of H₂O₂ at 30 min. This was followed by an increased membrane permeability after 45 min. The last observed event was the loss of cell membrane integrity at 60 min. In conclusion, mitochondria are rapidly affected in human spermatozoa exposed to reactive oxygen species, with the barely detectable mitochondrial membrane potential coexisting with the high phosphatidylserine externalisation in cells with normal membrane permeability.     

Stability of fluorochrome based assays to measure subcellular sperm functions

Aim： To evaluate the long-term stability of the fluorescence signals of new fluorescence-based semen analysis assays for clinical application. Methods： Semen samples from 87 unselected infertile patients were used to perform the following assays： （i） detection of active caspase-3 （n = 17）; （ii） integrity of the mitochondrial membrane potential （MMP） （n = 17）; （iii） externalization of phosphatidylserine （EPS） （n = 16）; and （iv） detection of intact acrosomes via CD46 （n = 37）. After the assays, 4% paraformaldehyde was added to all aliquots. The fluorescence intensity of each sample was evaluated by flow cytometry on days 0, 3, 7, 10 and 14. Results： Differences of up to ± 5% positive spermatozoa from the value measured at day 0 were estimated as acceptable deviation. The Caspase-3 FLICA^TM showed mean differences 〈 5% at day 3, 7 and 10. At day 14 the mean difference was 7.6%. In contrast, the disrupted MMP and the EPS detection showed differences 〉 5% at day 3. The CD46-FITC labeling displayed absolute differences 〈 5% CD46-positive spermatozoa at days 3, 7, 10 and 14. Conclusion： Although immediate analysis of the fluorescence signals is recommended, it is possible to evaluate caspase-3 activation up to 10 days and CD46 up to 14 days after staining of sperm. The FACS evaluation of MMP and EPS detection should be conducted on the same day.     

Use of the fluorescent dye tetramethylrhodamine methyl ester perchlorate for mitochondrial membrane potential assessment in human spermatozoa

Mitochondrial membrane potential (ΔΨm) is an indicator of sperm quality and its evaluation complements the standard semen analysis. The fluorescent dye JC‐1 has been widely used to assess sperm ΔΨm; however, some problems have been detected under certain experimental conditions. Another fluorescent compound, tetramethylrhodamine methyl ester perchlorate (TMRM), has been used in somatic cells and bovine spermatozoa but not in human spermatozoa. TMRM accumulates in hyperpolarised mitochondria and the fluorescence intensity of this compound correlates with ΔΨm. Thus, the aim of this study was to evaluate and validate the usefulness of the fluorescent dye TMRM for measuring sperm ΔΨm. The results showed that TMRM accurately detects sperm populations displaying either high or low ΔΨm. Moreover, TMRM was able to measure sperm ΔΨm under the experimental conditions in which JC‐1 had previously presented difficulties. Differences in ΔΨm according to sperm and semen quality were properly detected and a positive correlation between ΔΨm and conventional semen parameters was observed. Finally, a positive correlation was found between the ΔΨm measurement by TMRM and by the widely used JC‐1. In conclusion, TMRM is a simple, time‐effective method, easy to set in laboratories equipped with flow cytometry technology, and can accurately detect changes in ΔΨm with efficiency comparable to JC‐1 without its limitations.