Bisphenol A (BPA), an endocrine-disrupting chemical, has received tremendous attention in the past few decades because of its detrimental health effects. Growing evidence supports that BPA is capable to alter the reproductive performance of the exposed individual. In spermatozoa, it has been reported that BPA increased oxidative stress by the overproduction of reactive oxygen species (ROS), subsequently affects the sperm function, biochemical properties, and fertility. Since antioxidants minimize cellular oxidative stress, therefore may have protective effects against BPA-induced stress. In the present study, we incubated mice spermatozoa for 6 h in a condition that support in vitro fertilization. The sperm incubation media was additionally supplemented with either BPA or BPA together with antioxidants, such as glutathione, vitamin C, and vitamin E. Our results showed that antioxidant significantly decreased the production of ROS that subsequently supports motility and acrosomal integrity of BPA-exposed spermatozoa. Particularly, glutathione and vitamin E inhibit protein kinase-A dependent phosphorylation of sperm proteins subsequently prevented precocious acrosome reaction. In addition, both antioxidants were found to restore fertilization and early embryo development potentiality of BPA-exposed spermatozoa. Therefore, we conclude that antioxidants minimize oxidative stress in spermatozoa in a BPA containing micro-environment, thus avoiding BPA-mediated harmful consequences. The current finding has both theoretical and clinical significance for developing potential remedies of the BPA toxicity.

The ability of conventional semen analysis to predict male fertility is questionable. Since the prediction of male fertility is extremely of importance for the artificial insemination and profitable farm managements in animals, the development of highly sensitive biomarker of male fertility is a prime concern. Porcine Seminal Protein I (PSP-I) and Porcine Seminal Protein II (PSP-II) have been known that they are related with motility, and viability of spermatozoa. Thus, we investigated PSP-I and PSP-II level in boar spermatozoa to predict boar’s fertility. The expressions of PSP-I and PSP-II in spermatozoa from 21 individual boars with different fertility and litter size (litter size ranges from 10.3 – 14.2) were examined using qRT-PCR. Litter size was determined in 530 saws after artificial insemination (AI). In addition, sperm motility, motion kinematics, and capacitation status were measured using computer-assisted sperm analysis and Hoechst 33258/chlortetracycline fluorescence staining, respectively. PSP-I and PSP-II showed significantly negative correlation with litter size (r=0.578; P=0.006 and r=0.456; P=0.038, respectively). Furthermore, receiver-operating curves (ROC) was used to determine the accuracy for the prediction of boar fertility. Therefore we divided into 2 groups based on the median value of litter size. When selecting higher litter size group, PSP-I can predict litter size with overall accuracy 90.48% (sensitivity 88.89, specificity 91.67, negative predictive value 91.67, and positive predictive value 88.89) and PSP-II can predict with overall accuracy 81.82% (sensitivity 55.56, specificity 100.00, negative predictive value 76.47, and positive predictive value 100.00). Interestingly, PSP-I and PSP-II were found to increase 0.76 pups than average litter size (average 12.48) in tested boars. To best of our knowledge, this study is the first trial to investigate the correlation between PSP-I, PSP-II, and litter size. Therefore, we suggest that PSP-I and PSP-II could be considered as promising biomarkers for predicting male fertility and litter size outcome in field condition.

Sperm cryopreservation is well known as a valuable method to preserve the genetic traits. Although many studies have established semen cryopreservation protocols, lack of studies were conducted to discover the differences of sperm proteome and functions between ejaculated and epididymal spermatozoa following to cryopreservation. Therefore, the objective of this study was to (i) evaluate the effect of cryopreservation on bull epididymal spermatozoa and (ii) discover the potential biomarkers, which have highly tolerance to freezing on bull epididymal spermatozoa. Our preliminary study demonstrated that spermatozoa from each bulls have different resistance on freezing during cryopreservation. We divided spermatozoa into two groups according to sperm motility following to cryopreservation; high freezing-tolerant spermatozoa (HFS) and low freezing-tolerant spermatozoa (LFS). Several sperm functional parameters, i.e. sperm motility/motion kinematics, speed parameters, viability, mitochondrial membrane potential, and capacitation status. Our results showed that all parameters except for motion kinematics and capacitation status had significant differences between HFS and LFS. Subsequently, two dimensional electrophoresis were conducted to compare the expression levels of sperm proteome between both groups. Three proteins {glutathione s-transferase mu 5 (GSTM5), voltage-dependent anion-selective channel protein 2 (VDAC2), and ATP stynthase subunit beta (ATP1B1)} were differentially expressed. Based on these results, we propose that epididymal spermatozoa from individual bull have different freezability upon cryopreservation and three differentially expressed proteins might be selected as a biomarker to predict high freezing-tolerant epididymal spermatozoa.

Sperm cryopreservation preserves genetic resources for animal breeding and for human patients who suffers from permanent testicular damage. Although the sperm cryopreservation has been used for many years, the addition of cryoprotective agent (CPA) during cryopreservation negatively affects sperm function and quality. Our previous study reported that the addition of CPA reduced bull sperm physiological functions. However, the sperm cells collected from individual bulls presented different sensitivity to the damage induced by CPA. In the present study, we examined if CPA affect sperm cells acquired from individual bulls. Individual bull spermatozoa were divided into two groups based on motility parameters; high CPA-tolerant sperm (HCS) and low CPA-tolerant sperm (LCS). Our results showed that the HCS group presented good physiological function after CPA exposure, whereas the LCS group showed a significant decrease in the sperm function. We also found differentially expressed five proteins between the HCS and LCS groups, which refer to cytosolic 5′-nucleotidase 1B (NT5C1B), fumarate hydratase (FH), F-actin-capping protein subunit beta (CAPZB), voltage-dependent anion-selective channel protein 2 (VDAC2), and cytochrome b-c1 complex subunit 1 (UQCRC1). NT5C1B and FH showed abundant expression in the HCS group, while the expression of CAPZB, VDAC2, and UQCRC1 was relatively lower in the HCS group than in the LCS group. The current results suggest that NT5C1B, FH, CAPZB, VDAC2, and UQCRC1 can be used as potential markers to predict CPA-tolerable spermatozoa. Those markers provide a reliable tool to select animals and breeds with CPA tolerance.

Bisphenol A (BPA) is a common industrial chemical that has been used extensively to make certain plastics and resins since the 1960s. As a potential endocrine disruptors, BPA has been investigated for its impact on fertility/reproduction in animals and humans. However, the molecular mechanisms of BPA action and standard method for detecting BPA-related health hazards are unclear. Considering in-vitro experimental model, we investigated the effects of BPA (0.0001 to 100 μM) exposure on mouse spermatozoa. We revealed that BPA affects several sperm functions by triggering the mitogen-activated protein kinase, phosphatidylinositol 3-kinase, and protein kinase-A (PKA) activity. High doses of this chemical was also likely for the activation of protein tyrosine phosphorylation in a PKA-dependent signaling consequently induced a precocious acrosome reaction. Simultaneously, BPA has been found to decrease the rate of fertilization and early embryonic development. In addition, BPA induced differential protein expression in spermatozoa were responsible for the pathogenesis of many diseases. Considering in vivo experimental model, we deliberate the effects of gestational BPA exposure (TDI, NOAEL, and LOAEL doses) on both ejaculated and capacitated spermatozoa in F1 adult mice. We confirmed that BPA affects several sperm function in F1 male. These effects appeared to be caused by reduced numbers of stage VIII seminiferous epithelial cells in testis and decreased PKA activity and tyrosine phosphorylation (non-capacitated) in spermatozoa. We also noticed that BPA decreased average litter size as well as compromise the rates of cleavage and blastocyst formation. Proteins differentially expressed in both capacitated/ejaculated spermatozoa play a critical role in energy metabolism, stress responses, and fertility, finally predispose to the development of several diseases. On the basis of these results, we suggest that BPA alter spermatozoa function and the proteomic profile, ultimately affecting their fertility potential. Therefore, it is of critical public health significance to reevaluate the levels of BPA exposure that are currently deemed to be acceptable.

Effective estrus detection and artificial insemination (AI) are necessary for profitable management of dairy herd. In current study, 45 crossbred lactating cows have been selected with the complaint of unobserved oestrus for more than sixty days postpartum. All cows had functional corpus luteum as examined by transrectal ultrasonography. Cows were treated with PGF2α analogue and AI was performed with observed oestrus and then single dose of GnRH was administered. Similar synchronization protocol has been repeated after 14 days in cows that did not repose to first treatment. Remaining cows received additional PGF2α after 14 days of second treatment and timed AI was performed following GnRH administration. Among 45 cows, 28.89% showed estrus after first treatment and 78.79% responded to second hormonal intervention. A higher conception rate (88.89% vs 26.66 and 72.72%) was observed in cows after triple administration of PGF2α and timed AI. We noticed a significant differences in body condition score (BCS, 1～5 scale), postpartum period, and daily milk production between cows that either responded of non-responded following first and second hormonal treatment. In addition, there was a significant positive correlation between daily milk production and BCS, age and postpartum days, milk production and estrus/BCS, and milk production/BCS/estrus and conception rate. Depending upon the findings we conclude that hormonal intervention with PGF2α and GnRH enhances postpartum ovarian cyclicity and help decreasing the days open of dairy herd. Therefore, this finding might provide an excellent guideline for target breeding system for profitable dairy herd management.

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.

Iron is required for cell viability but is toxic in excess. While the iron-mediated malfunction of testicular cells is well appreciated, the underlying mechanism(s) of this effect and its relationship with fertility are poorly understood. Ferritin is a ubiquitous intracellular protein that controls iron storage, ferroxidase activity, immune response, and stress response in cells. Ferritin light chain protein (FTL) is the light subunit of the Ferritin. Previously, we had identified the FTL in bovine spermatozoa following capacitation. In present study, to investigate the role of Ferritin in sperm function, mice spermatozoa were incubated with multiple doses (1, 10 and 100 μM) of sodium nitroprusside (SNP), an iron donor. SNP was increased Ferritin levels in a dose-dependent manner. The Ferritin was detected on the acrosome in spermatozoa by immunocytochemistry. Short-term exposure of spermatozoa to SNP increased tyrosine phosphorylation and the acrosome reaction (AR). Finally, SNP affected a significant decrease in the rate of fertilization as well as blastocyst formation during early embryonic development. On the basis of these results, we propose that the effects of Ferritin on the AR may reduce overall sperm function leads to poor fertility in males and compromised embryonic development.

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 study focuses on the quality assessment of Black Bengal buck semen preserved at chilled condition. In this in vitro trial, collected semen from Black Bengal bucks was preserved at chilling temperature (4▲5줛) in tris-glucosecitrate yolk medium of 1:5 ratios for four days. Artificial Vagina (AV) method was utilized to collect semen from buck. General evaluation of semen includes the color, mass activity and density were measured by direct visual examination. However, computer-assisted sperm analysis (CASA) and phase contrast microscopy were used to figure out the motility (%), hyper-activated (HYP) motility (%) and number of abnormal spermatozoa (%) initially, and at every 24 h intervals. The result revealed that spermatozoa preserved at chilling temperature showed significantly (P<0.05) lower motility and HYP motility with the progression of preservation. The number of phenotypically abnormal spermatozoa significantly (P<0.05) increased following preservation. Although significant positive correlation (r=0.945; P<0.05) was existed between % motile and % HYP motile spermatozoa however, the % of morphologically abnormal spermatozoa was negatively correlated with % motile (r=긏0.997; P<0.05) and % HYP motile spermatozoa (r=긏0.946; P<0.01). Therefore, we concluded that the quality of chilled semen progressively losses its viability and doesn…t remain useable after certain period of preservation with respect to its motility and morphology.

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.

Anestrus is one of the most important production limiting disorders in dairy buffaloes and its underlying causes have been a current topic of studies. The objectives of this study were to explore the causes of anestrus in buffaloes with the application of ultrasonography. Two examinations were performed by transrectal ultrasonography at 12 days apart in buffalo cows that were not seen in oestrus at 60 or more days postpartum. As high as 54.5% buffaloes had silent ovulation and 45.5% suffered from the true anestrus with ovarian dysfunction. The duration of anestrus after calving was 60～90, 91～120, 121～180 and 181～365 days in 27%, 32%, 18% and 23% buffalo cows, respectively. Treatment with prostaglandin of cyclic buffalo cows with a corpus luteum (72.7%) resulted in higher estrous rate as compared with close observation of estrus (23.1%) by the farmer (p=0.021). Acyclic buffalo cows without any corpus luteum on ovaries were successfully treated with gonadotropin releasing hormone (70%), resulting in higher estrous detection rate than those treated with a vitamin-mineral mixture (20%) (p=0.035). In conclusion, poor heat detection due to silent ovulation is the most important cause of apparent anoestrus in buffaloes; however the percentage of the true anestrous is also quite high in postpartum buffaloes.

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.

Although the toxicological impacts of the xenoestrogen bisphenol-A (BPA) have been studied extensively, but its mechanism of action is poorly understood. Eventually, no standard method exists for evaluating the possible health hazard of BPA. Considering mice spermatozoa as a potential in vitro model, here we demonstrated the effects of BPA exposure (0.0001, 0.01, 1, and 100 μM for 6 h) on spermatozoa and the related mechanisms of action. Our results demonstrated that high concentrations of BPA negatively affect sperm motility, viability, intracellular ATP, and mitochondrial functions by activating the mitogen-activated protein kinase, phosphatidylinositol 3-kinase, and protein kinase-A pathways. The same doses were also employed to identify the differential expressed proteins of exposure and screen their functional affiliation to diseases using sperm proteomics and informatics, respectively. Our results demonstrated that a high concentration of BPA (100 μM) induced differential expression (> 2-fold) of 24 proteins in spermatozoa (16 down- and 9 up-regulated), that are putatively involved in the pathogenesis of several diseases. To the best of our knowledge, this is the first study to demonstrate the mechanisms of BPA action in spermatozoa and to identify the possible biomarkers of exposure. Moreover, we anticipated that current strategy might apply for the hazard assessment of other toxicological agents.

As an endocrine disruptor, bisphenol-A (BPA) causes several functional and behavioral abnormalities related to reproduction. The current study was design to evaluate the effect of perinatal exposure of female mice to BPA on sperm function of adult F(1) offspring. Pregnant female mice F(0) were gavaged with three different concentration of BPA, such as 50 μg/kg/day (tolerable daily intake value by the European Food Safety Authority), 5 mg/kg/day (no-observed-adverse-effect level; NOAEL), and 50 mg/kg/day (lowest-observed-adverse-effect level; LOAEL) and corn oil (7 mg/kg/day; vehicle control). The functional parameters of F(1) spermatozoa were studied both before and after capacitation, whereas the fertility assessment was evaluated by in vitro and in vivo assay using unexposed females. Our results showed that spermatozoa hyperactivated motility, capacitation, intracellular ATP, Ca2+, and ROS levels after capacitation were significantly affected using NOAEL and LOAEL concentration of BPA. However, the sperm motility was only affected by LOAEL dose after capacitation. All of the tested parameters were potentially unaffected by BPA before capacitation, except intracellular ATP that decreased by all concentrations. Although both NOAEL and LOAEL concentration were effectively reduced the rate of fertilization and embryonic development in vitro, however the average litter size was only affected by LOAEL dose. Our finding suggested that perinatal exposure of 50 μg/kg/day did not produce significant effects; however both NOAEL and LOAEL affects overall sperm function after capacitation, leading to impairments in the fertility of F(1) male offspring.