Jeju Black Cattle (JBC) is an indigenous species of Korea and their mass production and industrialization are required for this high quality indigenous species. For production of elite JBC zygotes, selection of high quality sperm is necessary for in vitro fertilizatioin. In this study, we compared the sperm fertility and developmental capacity of IVF embryos using various JBC sperm (Bull A, B and C). The frozen semen was thawed and confirmed sperm viability and motility. In addition, frozen-thawed sperm was used for a chlorotetracycline(CTC) staining assay and in vitro fertilization. Sperm were classified into three staining patterns. The F pattern is indicative of uncapacitated sperm, the B pattern is indicative of capacitating and capacitated sperm and the AR pattern is indicative of acrosome-reacting sperm or acrosome-reacted sperm, respectively. Several kinds of JBC sperm was inseminated in 44 ㎕ IVF drop contained 10 oocytes with sperm concentration of 1 × 106 cells/ml, and then 2 ㎕ heparin and 2 ㎕ PHE (20 μM penicillamine, 10 μM hypotaurine, 2 μM epinephrine) were added. The sperm viability and motility were higher in sperm 3 species (n=8). When we confirmed sperm capacitation, F pattern and B pattern rate were higher than AR pattern in sperm A group. After IVF, the rates of cleavage and blastocyst development were higher in sperm C group compared to other sperm group. However, the cell number of blastocyst was higher in sperm E group. These results demonstrate that the use of sperm C was effective in production of elite JBC IVF embryos. Additional experimental data are required for more accurate analysis.
The glycoprotein hormone family consists of luteinizing hormone (LH), follicle stimulating hormone (FSH) and thyroid stimulating hormone, which are secreted by the pituitary gland in all mammalian species, and choriogonadotropin (CG), which is secreted by the placenta in primates and equids. The hormones are composed of a common α subunit and a hormone specific β subunit which are non-covalently associated. Recent advances in biotechnology, particularly in the production of recombinant proteins, have provided opportunities to produce sufficient quantities of recombinant fish GTHs using various expression hosts. Japanese eel Anguilla japonica is one of the most important fish species being aquacultured in Japan but is hampered from the fact that this species does not reproduce in captivity. Artificial induction of gonadal maturation has been successful by administration of pituitary extracts or human chorionic gonadotropin, but the understanding the regulatory mechanism of gonadal development moderated by follicle stimulating hormone (FSH) and luteinizing hormone (LH) remains elusive due to lack of suitable amounts of eel gonadotropins (GTHs). In the present study, we produced tethered rec-eel LH and deglycosylated mutants (56, 79 and 56-79 of α subunit; 10 of β-subunit) of Asn-linked oligosaccharides in CHO suspension cells.
Luteinizing hormone acts through binding to its specific receptor. Binding of ligand to the receptor activates the adenosine 3',5'-cyclic monophosphate (cAMP) pathway (McFarland et al., 1989; Ji and Ji, 1991a; Rose, 1998) and the inositol 1 phosphate (IP1) secondary messenger systems. After stimulation of eelLH/CG receptor transfected CHO cells with rec-LH wild type (wt) and mutant hormones as a ligand, production of cAMP and IP-1 were evaluated (Cisbio). cAMP IC-50 values by rec-eelLH wt; αΔ56; αΔ79; αΔ56_79 and βΔ10 were 606.2; 374.9; 100.3; 14.2 and 210.9 ng/ml, respectively. IP-1 IC-50 values by rec-eelLH wt; αΔ56; αΔ79; αΔ56.79 and βΔ10 were 28.3; 16.04; 4.3; 2.1 and 3.6ng/ml, respectively too. As seen in both of the second messenger production, general stimulatory pattern is analogous. cAMP and IP-1 stimulation by wild type and αΔ56, as well as αΔ79 and βΔ10 were approximate, but the stimulating effect of double mutant (αΔ56_ 79) was drastically higher. According to the data, deglycosylated eelLH may bind to the receptor with high affinity and cAMP production is gradually increased.
Furthermore, receptor activation by tethered rec-eel mutant ligands (FreeStyle CHO-MAX Expression System) will be evaluated with β arrestin recruitment and GPCR internalization for N-linked oligosaccharides’ biological role in activation of eelLH/CGR.
Equine chorionic gonadotropin (eCG) is a member of the glycoprotein hormone. eCG, over 40%, is a heavily glycosylated glycoprotein than other glycoprotein hormones. eCG is composed of non-covalently linked α and β subunit. The α subunit is common to all glycoprotein hormones, whereas the β subunit was known distinct sequences and specific receptor binding. Unusually, eCG shows both FSH and LH activities in other species. eCG α subunit has two N-glycosylation sites (Asn56, Asn82) and β subunit has one N-glycosylation site (Asn13) and about 13 O-glycosylation sites in the C-terminal region. We constructed 3 type mutants (βα△56: α-subunit Asn56→ Gln56; β-Da: β-subunit C-terminal deletion; β-Dα△56: β C-terminal deletion & α Asn56→Gln56) in the tethered eCGβα (wild type) and all mutants included myc-tag between first and second amino acid of β subunit. The plasmid DNAs cloned into pcDNA3 mammalian expressing vector were transiently transfected into CHO-Suspension cells. We also constructed rat LH/CG receptor and rat FSH receptor into pcDNA3 expression vector. These receptors were transiently transfected into CHO-K1 cell. Each receptor cells were used for further assays at 3 days after transfection. cAMP and IP-one were evaluated by CISBIO cAMP HiRange and IP-one kits using the rec-eCGβα mutants. According to cAMP assay results, IC50 values of 4 type ligand treatment in the rat FSH receptor cells were: eCGβα: IC50_16.8841; eCGβα56: IC50_95.6099; eCGβ-Dα: IC50_395.0087; eCGβ-Dα56: IC50_1439.8702. In the rat LH/CG receptor cells of 4 types ligand treatments, cAMP results were: eCGβα: IC50_0.9760; eCGβα56: IC50_8.3884; eCGβ-Dα: IC50_9.2550; eCG β-Dα56: IC50_45.9439. As seen in these data, β C-terminal region and α Asn56 play an important role in rat FSHR and rat LH/CGR, respectively. And rat LHCG receptor cells was remarkably stronger than rat FSH receptor cells. According to IP-one assay, IC50 values in rat FSH receptor cells, the results were: eCGβα: IC50_561.4490; eCGβα56: IC50_361.3005; eCGβ-Dα: IC50_911.8577; eCGβ-Dα56: IC50_139.1193. And in rat LH/CG receptor cells, IP-one results were: eCGβα: IC50_422.7315; eCGβα56: IC50_406.4915; eCGβ-Dα: IC50_537.8300; eCGβ-Dα56: IC50_254.2004. As shown in these data, IP-one result was a little different to cAMP result. The β eCGβ-Dα56 of IC50 value was shown generally high signal.
Now we are trying to analyse role of C-terminal region of eLH/CGR with cAMP, IP-one and ERK signal transduction assays.
Crocin is a carotenoid that may protect cells against oxidative stress by scavenging free radicals particularly superoxide anions. It has been reported that oocyte maturation is influenced by the free radicals generated during in vitro culture (IVC) process. The objective of study was to examine the effect of crocin in in vitro maturation (IVM) medium as an antioxidant on oocyte maturation and embryonic development after parthenogenesis (PA). Cumulus-oocyte complexes (COCs) were collected from ovaries of prepubertal gilts. The basic medium for IVM was medium-199 containing 10% pig follicular fluid, cysteine, pyruvate, epidermal growth factor, kanamycin, insulin, and hormones. Oocytes were treated for 44 hours with crocin at 0, 25, 50, and 100 μg/ml during IVM. Oocytes reached the metaphase II stage were induced for PA and cultured for 7 days in porcine zygote medium-3. Nuclear maturation of oocytes was not influenced by various concentrations of crocin (89.0, 87.3, 84.3, and 94.1% for control, 25, 50, and 100 μg/ml crocin, respectively). IVM oocytes treated with 50 μg/ml crocin showed a higher (P<0.05) intraoocyte glutathione (GSH) contents than untreated oocytes (1.00 vs. 1.29 pixels/oocyte). Blastocyst formation of PA embryos treated with 50 (42.9%) and 100 μg/ml crocin (43.8%) was significantly higher (P<0.05) than oocytes treated with 25 μg/ml crocin (30.5%) but not different from that (35.2%) of untreated oocytes. In summary, crocin increases cytoplasmic maturation in terms of intraoocyte GSH content which may be beneficial for later embryonic development by protecting from harmful effect of reactive oxygen species. Further studies are needed to determine whether the beneficial effect of crocin treatment during IVC would be shown in embryonic development after in vitro fertilization and somatic cell nuclear transfer.
Endocrine system of hormones is the critical factor for the development of testes. The levels of hormones are orchestrated by a positive or negative feedback system controlled by the hyphothalamic-pituitary-gonad axis. The aim of this study was to investigate the effect of unbalanced endocrine system induced by the hemi-castration on testicular development in stallions. Four Thoroughbred stallions (age ranging from 3 to 5 yr) were used in this study. To disturb endocrine system, hemicastration has been performed on the stallions. Several parameters including testicular weight, volume, germ cell population on the cross-sections of round tubule, and the area of seminiferous tubules of stallion testes collected at the 1st hemi-castration and the 2nd hemi-castration (about 1 year after 1st hemi-castration) were compared. Testosterone levels were compared for 3 weeks before, after 1st castration, and before 2nd castration using enzyme-linked immunosorbent assay (ELISA) analysis. Immunohistochemistry (IHC) procedure was conducted to compare germ cell populations between after 1st and 2nd castration using VASA antibody. The VASA positive cell population per a cross section of round seminiferous tubule was obtained by monitoring 100 tubules. Interestingly, the weight of testes obtained at 2nd hemi-castration (384±14 g) were significantly higher compared to that of testes collected at the 1st hemi-castration (288±34 g). The volume of testes (306±34 ml) collected at the 2nd hemi-castration was higher than that of testes (169±18 ml) collected at the 1st castration. In contrast, VASA positive germ cell population on the cross section of round tubule (124.9±12.4 vs 142.9±21.6) and the area of round tubule (124±9.7 vs 122.9±1.7 mm2) were not different after 1st castration and 2nd castration. the testosterone levels in the blood collected before, after 1st castration, and before 2nd castration were not significantly different. In conclusion, the hemi-castration induces testicular development to maintain the normal reproductive systems in stallions.
말은 봄과 여름에 번식하는 동물로 우리나라는 3월 초순부터 7월 초순까지 종부하며 종부시기에 수태를 하지 못한 암말의 경우 다음 해 종부를 기다려야 하기 때문에 농가의 손실을 가져오게 된다. 암말은 처해진 환경에 따라 발정주기 개시가 유연한 특성이 있으 며, 계절 전환기에서 성숙한 수말에게 노출되었을 때 발정 발견율이 높으나, 배란이나 배 란 간격에는 영향을 미치지 않는 것으로 보고되고 있다(Wespi 등, 2014). 본 연구는 국립 축산과학원 난지축산연구소에서 사육하고 있는 제주산마 15두를 공시하였으며, 주 1회 초 음파진단 및 주 2회 채혈 후 호르몬 분석을 하였으며, 15두의 공시축 중 12주 이상 호르 몬 분석이 가능한 개체 8두에 대해서 발정주기를 분석하였다. 분석결과 정상적인 발정주 기를 갖는 개체가 50%였으며, 비정상적인 발정주기를 갖는 개체도 50%를 보였다.
비정상적인 발정주기를 보이는 개체 대부분에서 매주 좌, 우 번갈아가며 우세난포가 확 인되었다.
생화학 분석은 Glu, BUN, AST, Hemolysis 등 17개 항목을 분석하였으며, 정상적인 발정 주기를 보인개체 비정상적인 발정주기를 보인개체 모두에서 정상적인 수준을 보였으며, Hemolysis에서 양성 수치가 나온 것은 채혈 시 말의 보정과정에서 혈구의 손상이 있었던 것으로 판단됨.
The glycoprotein hormone family consists of follicle-stimulating hormone (FSH; GTH1), luteinizing hormone (LH; GTH2), and thyroid-stimulating hormone (TSH), which are secreted by the pituitary gland in all mammalian species, and chorionic gonadotropin, which is secreted by placental trophoblast cells in primates and equids. These hormones consist of non-covalently associated α-, β- subunits. Within a species, the amino acid sequence of α-subunit is identical across all glycoprotein hormones and is encoded by a single gene. The αβ dimer is the active form of the hormone, and biological specificity is conferred by the β-subunit. Both of α and β subunit of eel FSH has two N-glycosylation sites (α-subunit: Asn56 and Asn79; β -subunit: Asn5 and Asn22, respectively).
In the present study, we constructed deglycosylated mutants at single and double sites in each subunits of eel FSH for identification of Asn linked oligosaccharides' biological role. Mutant cDANs were cloned into pcDNA3 expression vector and transiently transfected into CHO suspension cells. The quantity of rec-eelFSHs were quantified by sandwich ELISA system, using monoclonal antibodies produced in our lab. The wild type rec-FSH protein was detected at the predicted molecular weight of 34 kDa by western blot. The molecular weight of deglycosylated mutants at single site decreased with about 4 kDa and of mutants at double sites decreased with 8 kDa. After PNGase treatment in the rec-eel FSH proteins, molecular weight also decreased to 7-8 kDa. We generated stably parental cell lines, engineered to express a β-arrestin 2EA fusion protein, expressing eel FSHR and C-terminal deleted mutant. 2 out of 5 receptor cells each were selected by G-418 and we tested these cell lines in a receptor functionality using PathHunter β arrestin assay (DiscoverX).
Follicle stimulating hormone acts through binding to its specific receptor. Binding of ligand to the receptor activates the adenosine 3',5'-cyclic monophosphate (cAMP) pathway (McFarland et al., 1989; Ji and Ji, 1991a; Rose, 1998) and the inositol 1phosphate (IP1) the second messenger systems. After stimulation of eelFSH receptor stably transfected Parental CHO cells with FSH wild type and mutant hormones as a ligand, production of cAMP and IP-1 were evaluated (Cisbio). cAMP IC-50 values by eelFSHwt; αΔ56; αΔ79; αΔ56_79; and βΔ5 were 33.1; 1154.7; 22; 410 and 311.9 ng/ml, respectively. IP-1 IC-50 values by eelFSHwt; αΔ56; αΔ79; αΔ56_79 and βΔ5 were 6.8; 7.1; 4.4; 3.8 and 10.2 ng/ml, respectively too. The cAMP activation was greatly decreased in the αΔ56αmutant. Thus, the site of α56 oligosaccharide in the eel plays an pivotal role for the cAMP stimulation using eel FSH receptor cell lines. In the IP-one assay, the activity in the αΔ56 and βΔ5 mutants was a little decreased than the wt. The biological roles of N-linked oligosaccharides in GPCR internalization are going to be estimated by measuring β arrestin recruitment system.
In all mammalian species, progesterone is essential in the preparation for and maintenance of pregnancy, if it occurs. Progesterone primes the endometrium for possible implantation and inhibits uterine contraction until birth. Aldo-keto reductases (AKRs) belong to a superfamily of NADPH-dependent reductases that act on a wide range of substrates, including simple carbohydrates, steroid hormones, and endogenous prostaglandins. 20-alpha hydroxysteroid dehydrogenase (20α-HSD; EC.1.1.1.149) enzyme belongs to the family of aldo-keto reductases. 20α-HSD predominantly converts progesterone into its biologically inactive form 20α-hydroxyprogesterone (20α -OHP), and plays a crucial role in the termination of pregnancy and initiation of parturition. In addition, the activity of 20α-HSD during the luteal phase is known to be inhibited by prolactin. We have been reporting on the molecular characterizations of placental and ovarian 20α-HSD in the bovine, pig, deer and monkey.
In this study, we focused on the 20α-HSD expression in testis(6, 9, 12, 18 and 21 days after birth) of miniature pig. The protein expression and localization were detected by Western blotting and Immunohistochemical analysis. 20α-HSD protein was detected at molecular weight of 37-kDa by Western blot analysis. Also the RNA expression were detected by Reverse Transcription-PCR and quantification PCR. Additionally, We are going to analysis the function and role of 20α-HSD in the pig testis.
In all mammalian species, progesterone is essential in the preparation for and maintenance of pregnancy, if it occurs. Progesterone primes the endometrium for possible implantation and inhibits uterine contraction until birth. 20-alpha hydroxysteroid dehydrogenase (20α-HSD; EC.1.1.1.149) enzyme belongs to the family of aldo-keto reductases. 20α-HSD predominantly converts progesterone into its biologically inactive form 20α-hydroxyprogesterone (20α-OHP), and plays a crucial role in the termination of pregnancy and initiation of parturition. In addition, the activity of 20α-HSD during the luteal phase known to be inhibited by prolactin.
In this study, we focused on the analysis of transgenic mice expressing EGFP under control of monkey 20α-HSD promotor in mice testis. The protein expression and localization were detected by Western blotting and Immunohistochemical analysis, respectively. 20α-HSD protein was detected at molecular weight of 37-kDa by Western blotting analysis and EGFP was found at 27-kDa in the testis of TG mice. Also EGFP and 20a-HSD protein expression on 1, 2, 4, 6 and 8 weeks after birth were assessed. Both of them were increased the expression level time-dependently. 20α-HSD were strongly expressed in seminiferous tubule from 1 week after birth as seen in Immunohistochemical analysis. However, EGFP was strongly expressed in the seminiferous epithelial cells. Then, we determined the expression of EGFP mRNA in mice testis. Using primers specific for mouse EGFP, mRNA expression levels were analyzed by RT-PCR. The EGFP molecular weights is 400bp, qRT-PCR results using EGFP primer, The Cq value of the ratio decreased as the age increased. On this basis, mRNA were increased the expression level time-dependently.
In conclusion, these observations suggest that the 20α-HSD in testis could be play a pivotal role in the spermatogenesis.
Our objective was to evaluate the function of treahlose and erythritol in reducing ROS concentrations, which is associated with a general improvement in the quality of frozen-thawing miniature pig sperm. Semen was mixed in modified Modena B extender, added to cooling media and freezing media, followed by the supplement of 100 mM trehalose and/or 100 mM erythritol with spermatozoa (1000x 109cells/straw). The trehalose plus erythritol (TE) added group had less intracellular H2O2 than did control and trehalose (36.6±1.6 vs. 49.0±5.8 and 48.8±7.9; P<0.05). The percentage of viable acrosome-intact sperm (FITC-PNA-/PI-) was higher in erythritol and TE than controls (57.0±5.5% and 62.5±4.3% vs. 45.4±5.4%; P<0.05 and P<0.001). The percentage of sperm with high fragmented DNA was observed in control group when compared with erythritol and TE also trehalose (65.5±1.3% vs 59.3±0.7% and 59.0±0.3% vs 62.2± 0.8%; P<0.001). The percentage of sperm LPO was higher in control and trehalose than erythritol (4.4±0.5% and 5.0±0.5% vs. 3.5±0.2; P<0.01 and P<0.001), and was lowest in the TE (control and trehalose vs. TE: P<0.001, erythritol vs. TE: P<0.05). Also, we performed that surgical insemination based on above data to evaluate the function of new cryoprotectant such as trehalose plus erythritol in vivo. Finally, 1 pregnant gilt showed natural estrus was allowed to go to term and 8 live piglets were born. In conclusion, miniature pig sperm was successfully cryopreserved with trehalose plus erythritol provided the increasing the sperm quality and reducing the ROS.
Sperm adhesion molecule 1 (SPAM1) and Hyaluronidase 5 (HYAL5) has been well-known as assistants for sperm penetrate through the cumulus mass surrounding the ovulated eggs. However, so far their role in mammalian fertilization remain elusive, because mouse sperm lacking SPAM1 or HYAL5 were still capable of penetrating the cumulus mass despite a delayed dispersal of cumulus mass. Those data collectively demonstrated that SPAM1 or HYAL5 deficiency alone was not sufficient to cause male infertility in mice. In the present study, SPAM1 and HYAL5-simultaneous deficient male mice model was generated. Because of inhibition in sperm hyaluronidases, SPAM1 and HYAL5-deficient male mice produced significantly smaller numbers of offspring than hetero type and wild type mice.
Hyaluronic acid degradation assay and cumulus oocyte complex dispersal assay as well as sperm motility assay using double knock out sperm and extracts had severe adverse effects on the dispersal of cumulus oocyte complex, which was the main reason for the impaired fertility of double knock out male sperm. Moreover, hyaluronic acid degradation assay using human sperm extracts revealed that sperm hyaluronidase has a principal role in sperm penetration through the cumulus oocyte complex. In conclusion, our results suggest that sperm hyaluronidase deficiency may be sufficient to cause male sterility in mammal because SPAM1 and HYAL5 deficiency sperm not impaired the sperm motility in hyaluronic acid but also cumulus oocyte complex penetration.
국내 승용마 산업 발전과 더불어 인공수정 기술을 활용하여 생산된 승용마 두수가 증 가하고 있다. 말 인공수정용 정액은 신선정액, 냉장정액, 냉동정액의 형태로 활용된다. 말 동결정액은 타축종과는 달리 개체 차이가 크고 해동 후 운동성이 크게 낮아지는 문제 점 때문에 인공수정 시 신선정액 또는 냉장정액을 이용하는 비율이 높다. 본 연구에서는 정장 제거 후 정액 냉장보관 시 pentoxifylline이 미치는 효과를 구명하기 위하여 수행하 였다. 본 실험은 제주산마 3두를 공시하였으며, 정액채취는 예비 채취 후 일주일 간격으 로 각 2회 수행하였다. pentoxifylline 1mM, 2mM, 3mM, 4mM이 포함된 INRA96 희석제 에 희석 후 4℃에 보관하며 평가를 위해 정자의 운동성, 생존율, 원형질막 온전성을 24시 간 간격으로 조사하였다. 운동성과 직진 운동성은 CASA 분석 시스템을 이용하여 분석하 였고 생존율을 검사를 위하여 eosin-nigrosin 염색과 원형질막 온전성 검사를 위하여 HOSTest가 수행되었다. 본 실험에서는 대조군에 비해 pentoxifylline 1mM, 2mM 첨가군 이 48시간 이후 운동성과 직진 운동성에서 더 높은 경향을 보였으며, 생존율과 원형질막 온전성에서 24시간 측정 결과 대조군에 비해 pentoxifylline 2mM첨가군이 높은 경향을 보였다. 본 연구결과 향후 정자의 수정능력에 대한 연구가 추가적으로 이루어져야 할 것 으로 고려된다.
정자 생존성은 정자기능평가에서 중요한 부분이며 Eosin-nigrosin 염색법, Hypo osmotic swelling test법, CFDA, SYBR-14, Hoechst-33342, Calcein AM 등의 형광염색법을 통해 평가될 수 있다. 또한 Flow ctyometer를 이용, 단시간에 형광 염색된 세포를 검사하여 생 존성뿐만 아니라 정자의 여러 기능적 특성을 평가하는 기술이 최근 이용되고 있다. 이 연 구는 Flowcytometry를 사용하여 제주흑우의 동결정액에서 정자의 생존성을 평가하는 2가 지 형광염색법 간의 비교분석을 통해 정자 생존율의 차이가 있는지 알아보고자 하였다.
국립축산과학원 난지축산연구소에서 사육중인 제주흑우 2두를 인공질법을 이용하여 채 정하였으며, 정자 최종농도가 2.0×107/ml가 되도록 Triladyl-eggyolk로 희석 후 4℃에 1시 간 30분간 평형과정을 수행하였다. 그 후 스트로 정액 충전기로 정액을 충전 후 간이 액 체질소 증기 동결법으로 동결하여 LN2에 동결보존하였다. 동결보존된 정액 스트로(n=12) 를 융해하여 PBS를 이용하여 5×105/ml 농도로 희석 후 2개로 분획하였으며, 각각 Calcein Am-PI(CAM/PI)와 6-CFDA-PI(CFDA/PI)의 이중 형광염색을 실시하고 37℃, 15분간 정치 후 Flow ctyometry로 생존율을 비교 분석하였다. 분석결과 살아있는 정자 의 비율은 29.26±1.28(CAM+/PI-), 27.50±0.76(CFDA+/PI-), 약간의 생체막의 손상이 있으나 살아있는 정자의 비율은 21.67±4.92(CAM+/PI+), 23.29±2.76(CFDA+/PI+), 생체막의 손 상으로 죽은 정자의 비율은 48.44±4.18(CAM-/PI+), 48.61±2.71(CFDA-/PI+)이었으며 각 각 형광염색법간의 유의적인 차이는 없었다(SPSS v18.0 통계프로그램 사용).
본 연구결과 Flow cytometry를 사용하여 정자의 생존율을 평가할 때 Calcein AM과 6-CFDA의 차이는 존재하지 않는 점을 알 수 있었으며, 정자의 생존성 평가에 CAM/PI 방법과 CFDA/PI 방법 중 하나를 선택하여 사용 가능하다고 판단된다.
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.
The present study was conducted to investigate the effect of caffeine and theophilline on sperm motility during in vitro fertilization (IVF). Briefly, commercial boar semen was centrifuged and resuspended (5x107 sperms/ml) with fertilization medium (mTBM) supplemented with 2 mM caffeine (Caf), 5 mM theophylline (The), 2 mM caffeine + 5mM theophylline (Caf + The), and not supplemented control. The semen parameters of the four groups were analyzed by computer-assisted semen analysis (CASA, Medical Supply Co. Ltd) system at 6 h as time for IVF at 38.5 C under 5 % CO2 in air. The groups were examined 11 semen parameters such as total motility (TM), curvilinier velocity (VCL), straight-line velocity (VSL), average-path velocity (VAP), and hyperactivated (HYP), etc. A total motility of control group (41.3 %) at 6 h showed significantly (P<0.05) higher than those of other groups (Caf, 37.2; The, 35.2; Caf + The, 30.1 %). Results from many other sperm parameters indicated that the theophylline and caffeine negatively affected on sperm motility during IVF. These results suggested that the supplementation of caffeine and/or theophylline was not essential for IVF in pigs. To prove this suggestion, further studies are needed to analyze fertility and embryonic development after IVF with or without the supplementation of caffeine and/or theophylline.
Semen collection from epididymis has been used as an important alternative tool, particularly on abnormal animals including those with joint disorder, poor sex drive and poor libido. However, previous studies had been focused on only recovery of sperm derived from testes, regardless of fundamental parameters such as age, body weight, scrotal circumference, testicular size (weight, length, width and volume) and semen volume. In addition, there is no precise castrating periods to recover sperm from young Hanwoo bulls’ testis. Therefore, we investigated fundamental parameters in Hanwoo bulls at 7, 8, 14, 15, 16 and 17 months of age, which parameter can be used for sperm recovery from testis. Before castration, body weight and scrotal circumference were recorded. After castration, testes were transported to laboratory and testicular weight, length and width were recorded. About 2 cm of epididymal tail was collected and minced using blades on 100 mm petridish. Minced epididymal tail tissues were mixed with Optixcell (France, IMV technologies) and debris were removed by filteration with 100 um nylon mesh. Seven to 8 months of age in bulls showed low fundamental parameters compared to those of at 14 to 17 months of age in bulls (body weight, 218-258 vs. 330-429 kg; scrotal circumference, 23.4-24.6 vs. 28.8-32.8 cm; testicular weight, 92-104 vs. 222.3-269.9 g; testicular length, 10.9-11.6 vs. 13.4-15.6 cm; testicular width, 4.7 vs. 6.2-6.6; testicular volume, 126.4-136.4 vs. 268.9-357.6 cm3, semen volume, 3.0-4.8 vs. 60.6-68.3 ml, p<0.001). In conclusion, to recover semen derived from epididymis of testis in young Hanwoo bull, these fundamental parameters should be satisfied; 330 kg of body weight, 28.8 cm of scrotal circumference, 222.3 g of testicular weight, 13.4 cm of testicular length, 6.2 cm of testicular width, 268.9 cm3 of testicular volume. In further study, fundamental parameters of 9 to 13 months of age in bull should be investigated to determine more accurate castrating periods for sperm recovery from testis.
Sperm recovery from epididymis in animals considered as important tools to preserve high-value or endangered species. However, there are no appropriate castrating indicators of timing for recovery of sperm which can be available to artificial reproduction technologies such as artificial insemination (AI) and in vitro fertilization (IVF), particularly in young Hanwoo bull. Therefore, this study aimed to investigate semen volume, morphology and motility of sperm in epididymis of young Hanwoo bulls at 8, 13, 14, and 15 months of age. About 2 cm of the epididymal tail only was cut and minced using blades. Minced epididymal tail tissues were mixed with semen extender (OptixCell, France, IMV technologies) and sperm were recovered with a cell strainer (100 μm nylon mesh). The number of sperm at 8 months of age was lower than that at 13, 14, 15 months of age in bulls after collection (33.6±27.2 vs. 352.4±39.2, 320.4±113.6 and 422.8±252.4×107cells respectively; P<0.05). After the frozen-thawed sperm the the percentage of abnormal head, tail and dead damaged acrosome did not differ between the ages 13, 14 and 15 months of age in bulls (P>0.05), however, the dead sperm with intact acrosome (DIA), the numbers showed that more than 15 months in 8, 13, 14 months (8.7±4.1 vs. 47.3±12.2, 34.8±14.0, 28.8±8.5, P<0.05). In addition, frozen-thawed sperm at 8 months of age showed low total motile sperm compared to those at 13, 14 and 15 months of age (26.4±8.2 vs. 45.7±29.5, 62.3±41.0, 70.4±15.9%, respectively; P<0.05). In conclusion, sperm derived from epididymal tail at 8 months of age in Hanwoo bulls showed high abnormal morphology and poor motility, which is not adequate for artificial insemination(AI) and in vitro fertilization(IVF). On the other hand, sperm derived from epididymal tail at 13, 14, 15 months of age in bull showed high normal morphology and motility, which may be available for AI and IVF. Epididymal sperm collected from bulls over 13 months is needed for further study whether to use the actual in vitro fertilization.
The study aims to assess viability, acrosomal menbrane, integrity and mitochondria membrane potential of sperm separated using a percoll density gradient(45% and 90%) and swim-up methods using Hanwoo epididymal sperm frozen semen. Briefy, motile sperm separated using a percoll gradient and swim-up. 25 μl of sperm dilution from droplets were transferred to 1.5 mL tube and incubated with fluorescent probes at 39°C in dark as follows. After incubation, 75 μl of 5,5',6,6'-tetrachloro-1,1',3,3'- -JC-1; Mitochondrial Membrane Potential Detection kit, Cell Technology Inc., USA) working solution was mixed with sperm dilution and incubated for 30 min. One μl of Hoechst 33342 (H1339; Molecular Probe, Eugene, OR, USA) stock solution was mixed with sperm dilution and incubated for 10 min. And then, 0.5 μl of propidium iodide (PI) stock solution and 0.5 μl of fluorescein peanut agglutinin FITC conjugate (FITC-PNA; Vector Laboratories, FL-1071) were mixed with sperm dilution and incubated for 8 min. After mixing with fluorescent probes and sperm dilution, 5 μl of stained sperm dilution was mounted on a slide glass and covered with cover glass. More than 200 sperms in a slide glass were counted with × 400 magnification by fluorescent microscope (Eclipse Ci_L, Nikon, JAPAN) and evaluated viability, acrosomal membrane integrity, and mitochondrial membrane potential of sperm with triple band filter (DAPI/FITC/TRITC; Nikon, Tokyo, Japan). Live sperm were stained with Hoechst 33342(blue) and dead sperm were stained with PI (red). Damaged acrosomal membrane of sperm was stained with FITC-PNA (green) and intact acrosomal membrane of sperm was not stained. Both of sperm swim-up method with or without BSA separated to Live intact mitochondria (15.39±4.31 vs, 12.58±3.74, and) without significant difference. and percoll density gradient method also similar (7.29±6.54), swim-up method of sperm preparation appeared to be more efficacious in percentage recovery of motile sperm concentration compared to Density gradient method.
To have a better understanding of pluripotency, whole gene expression of embryo-derived stem cells (EdSCs) in bovine species was investigated. EdSCs were established from the embryos produced by in vitro fertilization, parthenogenesis and somatic cell nuclear transfer. Then, the microarray was performed and analyzed. Differently expressed genes (DEGs) were also confirmed by Real-time PCR. Among 10,203 DEGs, little difference was found in gene expression among three kinds of EdSCs. Conversely, all EdSCs have an immensely different gene expression when compared with somatic cells, consistent with scatter plat results. To investigate shared pathways for pluripotency in all EdSCs, 2,415 co-DEGs were identified which compared with somatic cells. By KEGG database, there were 54 signaling pathways in co-DEGs and some of them were related with pluripotency maintenance such as TGFβ, WNT and JAK-STAT signaling. In TGFβ signaling, BMP family and SMAD family were involved in co-up-regulated DEGs. In WNT signaling, WNT family and receptors were included in co-up-regulated DEGs, while inhibitors of WNT signaling were associated with co-down-regulated DEGs. In JAK-STAT signaling, STAT3 belonged to co-down-regulated DEGs. These DEGs were also confirmed by Real-time PCR. Taken together, BMP and WNT pathways may be activated and paly central roles to retain pluripotency in bovine EdSCs, whereas the LIF/STAT3 pathway may not be operated well. This study was supported by a grant from the National Research Foundation of Korea (NRF-2006-2004042, and No. 2015048003 through the Oromaxillofacial Dysfunction Research Center for the Elderly at Seoul National University) and the Technology Development Program for Agriculture and Forestry, Ministry of Agriculture, Food and Rural Affairs (MAFRA; 111160-04), Republic of Korea.
A meningioma is the second most common primary intracranial tumor of the central nervous system. One critical obstacle in meningioma research and preclinical development of novel therapeutic agents is a relative lack of suitable preclinical in vitro and in vivo model systems. In the current study, we assessed the proliferative characteristics of patient derived five primary meningioma cancer cell lines (WHO grade I and II) from brain tumor lesions. All of the meningioma cell lines showed homogenous expression of meningioma marker, VIMENTIN. The GTG-banding analysis determined the existence of different patterns of chromosomal abnormalities in representative cancer cell lines. The almost of the meningioma cell lines showed homogeneously spindle shaped cells, except for M160425 which have two prominent cell morphologies, spindle and round. Population-doubling (PD) was measured for every passage. The M160425 cell line had significantly longer PD time (39.8 ± 0.9 h, P<0.05) than the other meningioma cell lines. Consistent with the PD time, we confirmed that mRNA expression of Ki67, the conventional proliferation marker, was significantly lower in M160425 cell line compared to the other cell lines. The correlation between the PD time and the abundance of Ki67 in the meningioma derived cell lines was negative, indicating higher Ki67 abundance and a shorter PD time. The patient derived meningioma cancer cell lines established in this study might contribute to understanding cancer biology and help the success in the clinic by explaining the slightly different clinical behavior among the patients.