Bisphenol‒A (BPA) is a known endocrine‒disrupting chemical used extensively to manufacture plastic bottles, canned food linings, thermal receipts, and other commonly used items. BPA is capable of inducing chromosomal alterations in germ cell line, thereby produced transgenerational effects on brain function, social recognition, reproductive diseases, sperm quality, gene expression, and obesity. Here, we aimed to investigate the transgenerational effects of BPA on murine male fertility. Six-week-old male mice (F0) were gavaged with corn oil (control), two different doses of BPA (5 mg, and 50 mg·kg bw-1·day-1),andethinylestradiol(EE,0.4mg·kg bw-1·day-1), dailyfor6weeks. Treated male mice were mated with wild‒type female and sibling pairs were bred up to the third generation (F3) in a similar manner with no further BPA exposure. Testes and spermatozoa were collected from 14-week-old males of all generation (F0 to F3) to evaluate testis weight, sperm function, and fertility. We found that high concentration of BPA significantly increased testicular weight in F2. Although the sperm viability, capacitation status, and intracellular ROS levels were not affected by BPA, however, sperm count, motility, hyperactivated motility, and intracellular ATP levels were significantly altered by BPA, dose dependently. In majority of the cases the effects were prominent in F2 followed by F1 and F0, whereas the effects were diminished in F3 generation. Simultaneously, high concentration of BPA significantly decreased cleavage and blastocyst formation rate in both F1 and F2. Similar inhibitory effects on cleavage and blastocyst were also noted in F1 by low dose of BPA. Depending on these findings we conclude that BPA decreases the fertility potential of exposed males and has an adverse impact on sperm function and fertility in subsequent generations.

Processes of cryopreservation consists of three steps: dilution with the extender/cooling (Step 1), addition of cryoprotectant (Step 2), and freezing/thawing (Step 3) and spermatozoa are exposed different kind of environment and stress in each step. We categorized sperm samples as good freezablitiy (GF), damaged by cryoprotectant (DCP), and damaged by freezing (DF) and identified characteristics of each group in different step of cryopreservation. In Step 2, DCP was significantly decreased in motility, rapid speed and increased in slow speed. DF was significantly decreased in only motility whereas there were no significant difference between GF and DF and significantly higher than DCP in Step 2. Motility, rapid, medium speed of all group were significantly decreased in Step 3 and GF was significantly higer than other groups. AR pattern of all groups were significantly increased in Step 3 whereas GF was significantly lower than other groups. Additionally AR pattern of DF was significantly increased in Step 2. F pattern of DF and DCP were significantly decreased in Step 3. There no difference of B pattern in whole process. Mitochondrial activity of DCP was significantly decreased in Step 2 and mtichondrial activity of all groups were significantly decreased in Step 3. However mtichondrial activity of GF was higher than other groups. Viability result shows same significant difference with mitochondrial pattern. The present study compared with various sperm parameters in different groups which has different freezability. We defined different two types of group that damaged from different step of cryopreservation. DF and DCP is mainly damaged in Step 3 and Step 2 respectively. The results of current study suggest that various sperm parameters can be used as physical markers in freezability.

Sperm capacitation refers to polymerization of filamentous (F)-actin from globular (G)-actin. While the role of ac-tin-related protein 2/3 (Arp2/3) complex in actin polymerization is well appreciated, the underlying mechanism(s) and its relationship with capacitation are poorly understood. Therefore, to evaluate the potential role of Arp2/3 complex on capacitation, bovine spermatozoa were incubated with multiple doses (1, 10 and 100 μM) of CK-636, an inhibitor of Arp2/3 complex with heparin. The cellular localization of the Arp2/3 complex in spermatozoa was identified by immunohistochemistry, whereas western blot was also applied to detect the protein tyrosine phosphorylation of sperm proteins. Additionally, sperm motility and kinematic parameters were evaluated using a computer-assisted sperm analysis system. CK-636 resulted in significant changes in the ratio of Arp2/3 complex localization between acrosome and equatorial region of the spermatozoa. Short-term exposure of spermatozoa to 100 μM of CK-636 significantly decreased sperm motility, however a non-detectable effect on protein tyrosine phosphorylation was observed during capacitation. On the basis of these results, we propose that Arp2/3 complex is associated with morphological changes during capacitation and compromised sperm motility.

The decreased fertility is frequently thought to be problem of cattle production. However, studies figure out that number of these problems is related to bull factors especially in artificial insemination setting. Therefore, this study was designed to investigate the fertility status of bull by their estimated relative conception rate of cows that were inseminated by frozen semen from Korean proven bulls. Here we use the non-return rate (NRR) to access the bull fertility whereas, the NRR was define as the proportion of bulls that semen were used to inseminate cows and the number of cows that did not return for another service within 60 days. The data from 54,388 artificial inseminations (AI) were analyzed from 88 KPN semen. The NRRs of highest and lowest fertile bull were 83.81 and 51.33%, respectively. And mean NRR was 68.27%. In comparison to previously reported study, our data shows 17.38% higher NRR and the absolute value of difference in 50%>NRR and 50%<NRR group was 22.17 and 10.51, respectively (p< 0.001). In conclusion, the decreased fertility might consider as key aspect in achieving considerable conception of cows in existing integrated farming system at Korea.

Male factor infertility or sub-fertility contributed half of all cases of infertility while the semen abnormality is the current topic of argument. Conventional analysis of semen showed poor correlation with fertility. Therefore, evaluation of current semen analysis method is necessary to improve standards of semen assessment. The goal of this study was to investigate that correlation between motion kinematic before and after capacitation and litter size in porcine. Sperm motility and kinematics were measure by computer-assisted sperm analysis (CASA). The motility of spermatozoa was positively correlated with curvilinear velocity (VCL), average path velocity (VAP), and mean amplitude of head lateral displacement (ALH) (p<0.05). Where as VCL positively correlated with VSL, VAP and ALH (p<0.01). Straight-line velocity (VSL) was positively correlated with VAP and ALH (p<0.01). VAP was significantly positively correlated with ALH (p<0.01). Also, we found significant positive correlation among variation of VSL, VAP and ALH (p<0.05). No motility and kinematic parameter are correlated with litter size. However, litter size was significantly correlated with breed (p<0.05). Our results suggested that analysis of sperm motility and kinematics using CASA is questionable for prediction of litter size. However, it has some practical importance to evaluate semen commercially.

The prediction of male fertility is of paramount importance for breeding animal herds when artificial insemination is applied. While the male fertility assays provide valuable quantitative data, they yield limited information concerning the functional competence of the spermatozoa. The objective of this study was to standardize a method for predicting in vivo fertility in bulls using the capacitation status that was assessed by chlortetracycline (CTC) staining. To optimize the capacitation process, sperm were treated with various concentrations of heparin (0, 10, 20, 50, and 100 μg/mL) and incubated for 10, 20, and 30 min each at 39℃ in 5% CO2. We found that maximum capacitation condition obtained from 10 μg /mL heparin treated sperm cells for 20 min (p<0.05). Optimized methods were used to determine the fertility of 17 batches of frozen bull semen representing a wide range of field fertility levels as indicated by non-return rates (NRR) (35.29% 93.18%). There was no significant correlation between NRR and the percentage of capacitated spermatozoa (B type) and non-capacitated spermatozoa (F type). However, acrosome reacted spermatozoa (AR type) was significantly correlated with NRR (p<0.01). To determine the normal range for the AR type, lower limits of the AR (%) were established as 23% for low fertility (NRR < 75%) using receiver operating characteristic curve. The overall accuracy of the assay was 88.24% for low fertility, sensitivity and specificity were 81.82 and 100%, respectively. These results indicate that capacitation status as measure by CTC staining is a useful predictor of male fertility. Therefore, low and high fertility bulls can be identified primarily by the functional capacitation status.

The objective of this study was to examine the effect of various discontinuous Percoll washing conditions on sperm capacitation status and sperm survival. Frozen epididymal sperm samples from 3 bulls (0.5 ml plastic straws, 6% glycerol in egg yolk- Tris-glycerol extender) were thawed in 37℃ water bath for 1 min. To rule out individual variation, 3 sperm samples were mixed after thawing. The mixed samples then were randomly allocated to 12 treatment groups. Briefly, the spermatozoa were centrifuged for three different time lengths (10, 20, and 30 min) at two gravities (300 X g and 700 X g) through two concentrations of discontinuous Percoll density gradient of 1 ml 90%: 1 ml 45% Percoll and 2 ml 90%: 2 ml 45% Percoll to remove extender, debris, and dead spermatozoa. Sperm capacitation status and sperm survival were evaluated using combined Hoechst 33258 and chlortertracycline fluorescence staining assay. The acrosome reacted spermatozoa (AR pattern), uncapaciated spermatozoa (F pattern) and sperm survival were significantly correlated with centrifugation time (p< 0.01). Significantly decreased F pattern observed as centrifugal time increased. As centrifugal time increased, spermatozoa with F pattern decreased and spermatozoa showing AR pattern increased. Moreover, the dead spermatozoa were significantly stimulated in time-dependent manner. However, there were no significant differences in various force of centrifugation and Percoll volume. These results suggest that only centrifugation time significantly affects sperm capacitation status and sperm survival.

Voltage-dependent anion channel (VDAC) is mitochondrial protein of all eukaryotes. It has been reported that VDAC is a large voltage-dependent channel, regulation of ion (including Ca2+), and transportation of various metabolites. Ca2+ is an important factor in sperm function. In our previous study, we found high frequency of VDAC2 expression in spermatozoa from low-fertility bulls. However, to date, there is limited information available on its effects on male fertility. Therefore this experiment was designed to evaluate the effects of VDAC and Ca2+ on sperm function in vitro. To achieve this, four treatment conditions were established with or without Ca2+ and VDAC inhibitor, namely, 4’-diisothiocyano-2,2’-disulfonic acid stilbene (DIDS). Spermatozoa from adult ICR were collected and released into modified Tyrode’s salt media. And then, they were incubated in the different media with or without Ca2+and DIDS for 90 min at 37℃ in 5% CO2. Intracellular pH ([pH]i) and Ca2+ ([Ca2+]i) were measured by their fluorescent indicators, 2,7-bicarboxyethyl-5,6-carboxy- fluorescein acetoxymethyl ester (BCECF- AM) and fura-2 AM, respectively. Western blot of extracted sperm proteins with an anti-phosphotyrosine antibody (pY20) was carried out to determine tyrosine phosphorylation after sperm incubation in different treatments. To evaluate the fertilizing ability after treatments, in vitro fertilization was performed. DIDS significantly decreased [Ca2+]i regardless of Ca2+. [pH]i was efficiently affected by the presence of Ca2+ and/or DIDS. However, the highest decrease of pH level was observed under the presence of DIDS and the absence of Ca2+ in culture condition. Tyrosine phosphorylated protein 1 was significantly different under all treatments. However, tyrosine phosphorylated protein 2 was not significantly different under the presence of DIDS. Fertilization rate was significantly decreased under the presence of DIDS. Blastocyst formation was significantly altered different to compare to control and each treatment group. Therefore it suggests that a voltage-dependent anion channel may involved paramount importance in regulation of male fertility.

Phosphorylation of proteins is a post-translational modification process which plays a significant role in a wide range of cellular processes. Addition or removal of phosphate groups result in conformational changes in proteins leading either to their activation or inactivation. Tyrosine phosphorylation of protein is associated with sperm function in several mammalian species. The control of this process may via the changes in cyclic adenosine monophosphate (cAMP); the changes in cAMP levels that occur in the spermatozoa regulate protein kinase A (PKA) activity which, in turn, leads to the tyrosine phosphorylation of protein substrates by either the activation of sperm tyrosine kinases and/or the inhibition of phosphoprotein phosphatases. Cyclic nucleotides, in particular, cAMP, are important regulators of various maturation events in sperm including capacitation and motility. Interestingly, some environmental chemicals (ECs) may exert broader endocrine disrupting effects through possible modulation of cAMP/PKA second messenger systems. Otherwise, because the mature spermatozoa are transcriptionally inactive, therefore the study of sperm proteins phosphorylation may permit more information about the agents and conditions affects on sperm function. In the present study, to examine the effect of ECs on human sperm function, human spermatozoa were incubated with a group of ECs represent a widespread chemicals in the environment bisphenol A (BPA, 100 μM), nonylphenol (NP, 10 μg/ml), 2,3,7,8-Tetrachlorodibenzo- pdioxin (TCDD, 2.5 μg/ml), genistein (Gen, 100 μM), and the following pesticides, dibromochloropropane (DBCP, 10 μg/ml), atrazine (Atraz, 500 μM), and diazinone (Diaz, 500 μM) for 6 hr at 37℃ in 5% CO2. Then, western blot analysis was carried out using extracted sperm proteins. Antiphosphorylation antibody (pY20) was used to determine sperm tyrosine phosphorylation after EDs treatment. The pY20 antibody labeled three common bands of approximately 90, 110, and 150 KDa. There were no significant differences between negative and positive control groups in regard to the tyrosine phosphorylated proteins except at the band with molecular weight 110 KDa. However, except Diaz treatment group, the other treatment groups showed decreasing (TCDD, Gen, NP, BPA, and DBCP) or increasing (Atraz) in the tyrosine phosphorylated proteins at least in one band from the three common bands studied. Therefore, it sug-gests that ECs effectively alters human sperm function and this effect may detect via their effect on tyrosine phosphorylation pattern.

In mammals, the meiosis division in testes produces equal numbers of two different types of gametes: X chromosome-bearing sperm (X-spermatozoa) and Y chromosomebearing sperm (Y-spermatozoa), which have equal potential to fertilize the oocytes. Therefore, the expected 1: 1 sex ratio is observed. However, under some conditions like endocrine disruptors (EDs) exposure the sex ratio is deviated than the expected with more males or more females. And recently many hypotheses have been postulated to explain the mechanism of sex ratio deviation; however none of them introduced a proven experimental explanation. To solve this enigma, we hypothesized that the differences between X- and Y-spermatozoa survivability under specific conditions due to differences in their chromosome contents are the key leading to the sex ratio alteration. To examine our hypothesis, we combined two techniques; first, hypo-osmotic swelling (HOS) test that was applied to test viability of spermatozoa and second, fluorescence in situ hybridization that was applied on HOS-treated spermatozoa to define sex chromosome composition. In the present study, human spermatozoa were incubated with a group of EDs represent a widespread chemicals in the environment bisphenol A (BPA, 100 μM), nonylphenol (NP, 10 μg/ml), 2,3,7,8-Tetrachlorodibenzo-p-dioxin (TCDD, 2.5 μg/ml), genistein (Gen, 100 μM), and the following pesticides, dibromochloropropane (DBCP, 10 μg/ml), atrazine (Atraz, 500 μM), and diazinone (Diaz, 500 μM) for 6 hr at 37℃ in 5% CO2. Then, the viability of spermatozoa and their sex chromosome contents were evaluated simultaneously. Among seven chemicals studied only four chemicals (Atraz, DBCP, TCDD, and Diaz) significantly decreased Y-sperm viability when compared to those of X-spermatozoa in the same treatment group and viability of Y-spermatozoa when compared to those in the negative and positive (DMSO) control groups (p<0.05). Also, in these four treatment groups the sex ratio of live sperm population was significantly lowered compared to the control groups (p<0.05). Otherwise, Gen, BPA, and NP did not show any significant effect on viability of Yspermatozoa or decreasing sex ratio in live sperm population as compared to the control groups. It has been proven that TCDD, DBCP, and the pesticides decrease the sex ratio, but the same effect was not observed in case of Gen, BPA, and NP. From the present findings, there is no doubt that the EDs may alter sex ratio via decreasing Y-spermatozoa viability.

In the last few decades with the industrial revolution many environmental contaminants have estrogenic activity (endocrine disruptors, EDs) are released into the environment affecting the male reproductive system and male fertility. Sperm motility is one of the initial tests performed to assess sperm function; only motile sperm can achieve fertilization in vivo. The present study aimed to investigate the possible effects of a group of EDs that represent a widespread chemicals in the environment genistein (Gen), is a naturally occurring isoflavone (100 μM), bisphenol A (BPA), that is used in the manufacture of plastics and other products and released largely into the environment (100 μM), nonylphenol (NP) is an important environmental toxicant and potential endocrine disrupting chemical (10 μg/ml), TCDD, that is formed as an unwanted by-product in the manufacture of chlorinated hydrocarbons (2.5 μg/ml), atrazine (Atraz) is a herbicides (500 μM), dibromochloropropane (DBCP) is a pesticide (10 μg/ml), and diazinone (Diaz) is a insecticide (500 μM) on human sperm motility and kinematic characteristics. Human spermatozoa were incubated in Ham's F10 media with/without the tested chemicals or DMSO as positive control for 6 hr at 37℃ in 5% CO2. Then, sperm motility was assessed using computer assisted semen analyzer. Interestingly, all the chemicals tested significantly decreased sperm motility as compared to the control groups. However, only Diaz significantly decreased sperm kinematic characteristics namely, VCL, VSL, STR, VAP, and ALH. We suggest that the environmental chemicals may have an effect on male fertility via decreasing sperm motility.

The objective of this study was to examine the effect of various discontinuous Percoll washing conditions on motile sperm recovery rate and motion kinematics. Frozen semen samples from 3 bulls (0.5 ml plastic straws, 6% glycerol in egg yolk-Tris-glycerol extender) were thawed in 37℃ water bath for 1 min. After thawing, the mixed semen samples were randomly allocated to 12 treatment groups. Briefly, the spermatozoa were centrifuged for three different time lengths (10, 20, and 30 min) at two gravities (300×g and 700×g) through two concentrations of discontinuous Percoll density gradient of 1 ml 90%: 1 ml 45% Percoll and 2 ml 90%: 2 ml 45% Percoll to remove extender, debris, and dead spermatozoa. Motile sperm recovery rate and motion kinematics were evaluated by computer assisted sperm analyzer using Makler counting chamber. Sperm motility (%) and motile sperm recovery rate showed similar pattern in all treatment groups. However, sperm motility (%) and motile sperm recovery rate were highest at 700×g for 30 min through a discontionous Percoll density gradient of 1 ml 90%: 1 ml 45% Percoll. There were no significant differences in motion kinematics after various Percoll washings. These results suggest that force of centrifugation, centrifugation time, and Percoll volume significantly affect motile sperm recovery rate.

Cryopreservation allows for the advances of the reproductive technique and livestock industry. However, cryopreservation inevitably causes various types of stress, such as cold shock, osmotic stress, and ice crystal formation, thereby reducing fertility. Although cryoprotectant agent (CPA) is added to protect spermatozoa from freezing damage during cryopreservation, it has intrinsic toxicity that can affect components of the sperm membrane. Moreover, the addition of CPA induces osmotic stress and excessive reactive oxygen species (ROS) generation, resulting in disruption of mitochondrial membrane potential, alteration of membrane permeability, and damage of sperm surface proteins. To identify the effects of CPA to spermatozoa, we analyzed the sperm movement, capacitation status, and viability using computer-assisted sperm analysis and Hoechst 33258/chlortetracycline fluorescence staining. Moreover, we performed two-dimensional electrophoresis to find protein markers related CPA addition in cryo processes. CPA addition reduced sperm motility (%), viability (%), and non-capacitated spermatozoa, whereas acrosome-reacted spermatozoa increased significantly (p<0.05). Following addition of CPA, a total of ten proteins were altered their expression (eight increased, two decreased) (>3 fold, p<0.05). Among these, four differentially expressed proteins were related to several canonical pathways, such as the ephrinR-actin, ROS metabolism, actin cytoskeleton assembly, actin cytoskeleton regulation, and respiratory chain and oxidative phosphorylation pathway (p<0.05). The present study suggests that CPA significantly alters the functions and proteome content of spermatozoa. Additionally, we anticipated that the differentially expressed proteins might consider as biomarker of CPA-induced stress.

Prognosis and diagnosis of male fertility is a most important for animal breeding system and human reproduction. Conventional semen analysis generally provides information on the quantitative parameters of spermatozoa, but yields no information concerning its functional competence. Thus, new methods for diagnosis and prognosis of male fertility will need to be developed to ensure more accurate assessments. Proteomics have used to find candidate biomarkers for male fertility, but the relationship between the proteome and fertility was not fully understood. Therefore, we performed a comprehensive proteomic approach to investigate small and large litter size boar spermatozoa and identify proteins related to negative male fertility. In present study, 20 proteins showed differential expression levels in small and large litter size groups. Nineteen of these proteins were abundantly expressed in the small litter group. Interestingly, only one protein was highly expressed in the large litter size spermatozoa. We then identified signaling pathways associated with the differentially expressed protein markers. Glutathione S-transferase Mu3 and glutathione peroxidase 4 were related to the glutathione metabolic pathway and arginine vasopressin receptor 2 was linked to vasopressin R2/STAT. Taken together, our results suggest that identified negative fertility-related biomarkers may be used as negative biomarkers for the detection of inferior male fertility such as sub-fertility or infertility.