Nypa fruticans Wurmb (NFW) contains a large amount of phenolic acid and flavonoids, and is popular as a superfood in Myanmar. NFW has various biological activities, such as anti-inflammatory, anti-oxidant, and neuroprotective properties; however, the anti-cancer effect of NFW have not been reported. In this study, we investigated the anticancer activity of water extracts of NFW (WeNFW) and the underlying mechanism in human FaDu hypopharyngeal squamous carcinoma cells. The WeNFW inhibited FaDu cell growth in a dose-dependent manner without affecting normal cells (L929), as determined by an MTT assay and Live and Dead assay. In addition, the concentrations of WeNFW without cytotoxicity (0.025, 0.05, and 0.1 mg/mL) inhibited wound healing and colony formation. Furthermore, WeNFW significantly induced apoptosis through the proteolytic cleavage of caspase-3 and -9, poly (ADP-ribose) polymerase, and downregulation of Bcl-2 and upregulation of Bax in FaDu cells, as determined by DAPI staining, FACS analysis, and western blot analysis. Taken together, these results suggest that WeNFW exhibits potent anti-cancer effects by suppressing the growth of oral cancer cells, wound healing and colony formation activity. Via mitrochondrial-dependent apoptotic pathways in human FaDu hypopharyngeal squamous carcinoma cells. Therefore, WeNFW can provide a natural chemotherapeutic drug for oral cancer in humans.

보구치는 난류성으로 전 세계적으로 널리 분포하며 해양 저층에 주로 서식하는 어종이다. 광양만에 서식하는 보구치의 미토콘드리아 DNA에서 cytochrome c oxidase subunit I (COI) 유전자를 발굴하고 해양 어류종에서의 계통유전학적인 위치를 분석하였다. 발굴된 미토콘드리아 DNA 내 605 bp COI 시컨스의 다중배열 결과 광양만 보구치들 에서는 높은 염기서열 상동성을 확인하였다 (98~100%). 하지만 광양만 내해와 외해의 어획지점에 따라 염기서 열 변이가 다르게 나타나는 것을 확인하였다. 외해지점의 보구치들에서 COI 내 염기서열 변이가 높게 나타났다 (43.2~70.3%). 나아가 13종 어류의 COI 계통유전학적 분석결과 광양만 보구치는 타이완에서 보고된 보구치와 하나의 계통군 (clade)으로 묶이고 진화적 거리는 0.036으 로 나타났다. 또한 민어 (M. miiuy)와 대두이석태 (Pennahia Macrocephalus)에 속한 어종과 진화적 거리가 가까운 것으로 나타났다 (0.041~0.048). 본 연구의 결과는 국내산 보구치의 분자 계통유전학적 정보를 제공함으로 연안환경에 따른 어류자원 모니터링 및 종다양성 관리에 주요한 유전 적 자료로 활용될 것이다.

The Ryanodine Receptor in wild type Drosophila melanogaster has an amino acid substitution which is known to cause Chlorantraniliprole resistance in Pluteall xylostella. Even though we have reported that two Chlorantraniliprole resistant Drosophila strains have elevated total esterase activities, our report does not fully explain the significantly increased resistant ratios in two Chlorantraniliprole resistant Drosophila strains. Thus, we further analyzed alteration of reactive oxygen species and mitochondria activities in two Chlorantraniliprole resistant Drosophila strains. Our result suggested that Chlorantraniliprole resistance development in Drosophila requires alteration of various signal transduction pathways.

In general, the shape of cumulus-oocyte-complexes (COCs) at germinal vesicle (GV) stage is important roles on meiotic maturation of porcine oocyte during in vitro maturation (IVM). Then, mitochondria produce reactive oxygen species (ROS) such as superoxide from electron transport system during oocyte maturation. ROS levels on oocytes are regulated by various antioxidant enzymes in cumulus cells (CCs). However, the effect of mitochondria derived superoxide production from CCs during IVM of porcine oocyte has not been reported. Firstly, we divided groups according to large number of CCs (Grade 1: G1) and small number of CCs (Grade 2: G2). Then, we counted cumulus cells of G1 and G2 oocyte by using haemocytometer. The oocyte maturation rate was significant decreased (p < 0.05) in G2 oocytes than that of G1 oocytes. We measured mitochondria derived superoxide in G1 and G2 COCs by using Mito-SOX staining. Mitochondrial superoxide was higher in G2 COCs than G1 COCs. Then, the mRNA expression levels of antioxidant enzymes (SOD1, SOD2 and PRDX3) in G2 COCs were decreased compared to G1 COCs. To reduce mitochondria derived superoxide, we used Mito-TEMPO as mitochondrial superoxide scavenger. Oocyte maturation rates in both G1 and G2 groups treated with Mito-TEMPO were increased than that of non-treated groups. Mitochondrial superoxide was lower in G1 and G2 groups treated with Mito-TEMPO than that of non-treatment groups. The mRNA expression levels of antioxidant enzymes in G1 and G2 COCs treated with Mito-TEMPO were increased compared to non-treated groups. Based on these findings, we suggest that reduction of mitochondria derived superoxide by Mito-TEMPO assists maturation competence in porcine oocytes.

Mitochondria participate in various intracellular metabolic pathways such as generating intracellular ATP, synthesizing several essential molecules, regulating calcium homeostasis, and producing the cell’s reactive oxygen species (ROS). Emerging studies have demonstrated newly discovered roles of mitochondria, which participate in the regulation of innate immune responses by modulating NLRP3 inflammasomes. Here, we review the recently proposed pathways to be involved in mitochondria-mediated regulation of inflammasome activation and inflammation: 1) mitochondrial ROS, 2) calcium mobilization, 3) nicotinamide adenine dinucleotide (NAD+) reduction, 4) cardiolipin, 5) mitofusin, 6) mitochondrial DNA, 7) mitochondrial antiviral signaling protein. Furthermore, we highlight the significance of mitophagy as a negative regulator of mitochondrial damage and NLRP3 inflammasome activation, as potentially helpful therapeutic approaches which could potentially address uncontrolled inflammation.

Mitochondria are well known to regulate the mammalian embryo development. Recent studies showed that the mitochondrial dynamics responses are mainly generated through mitochondrial membrane potential (MMP) and cellular ATP production, which is dependent on mitochondrial reactive oxygen species (ROS). However, these mechanisms are unclear on development process of preimplantation porcine embryos. The aim of this study was to evaluate that difference of the mitochondrial dynamics-derived various functions on the embryo development according to lipid composition of zygote. First, zygote was classify two groups (high lipid, grade 1: G1 and low lipid, grade 2: G2) by lipid composition of cytoplasm. And, we performed the in vitro culture (IVC) using zygote of divided groups. The nuclei numbers and developmental rates of blastocysts were lower in G2 than those of G1 embryos. Next, we investigated the intracellular ROS and mitochondrial derived superoxide production in porcine embryos by using DCF-DA and Mito-SOX staining. As expected, both intracellular ROS and mitochondrial derived superoxide were significantly increased (p<0.05) in the preimplantation stage embryos of G2 group compared with G1 group. In addition, to observe difference of the mitochondrial functions, we investigated the mitochondrial membrane potential (MMP, ΔΨ) and contents of ATP in the preimplantation stage embryos by using JC-1 kit and ATP determination kit. These functions of mitochondria were dramatically reduced in cleavage stage embryos or blastocysts of G2 group. Finally, to verify the difference of the mitochondrial dynamics-derived various functions, we investigated the expressions of mitochondrial fission (Drp1, pDrp1-616) and fusion (Mfn1, Mfn2) factors by Western blotting analysis. Interestingly, the protein levels of pDrp1-616 in embryos of G1 group were continuously increased until blastocyst stage. Whereas, the expression patterns of Mfn1/2 in embryos of G2 group were significantly reduced during IVC progression. The expression patterns of mitochondria dynamic between the two groups were shown opposite. These results demonstrated that the lipid contents of zygote were related the positive-correlation with mitochondrial dynamics-derived functions in porcine embryos. Moreover, we suggest that lipid of zygote is play a important role on mitochondrial functions and dynamics during preimplantation embryos development in pigs.

In this study, we used flow a cytometric assay to evaluate plasma membrane integrity and mitochondrial activity in post-thawed sperm that was supplemented with ginsenoside-Rg1. Varying concentrations of ginsenoside-Rg1 (0, 25, 50 and 100 μM/ml) were used in the extender during cryopreservation to protect the DNA of thawed sperm, thereby increasing the viability and motility rate as evaluated using a computer-assisted sperm analysis (CASA) method. The results derived from CASA were used to compare the fresh, control, and ginsenoside-Rg1 groups. Sperm motility and the number of progressively motile sperm were significantly (p<0.05) higher in the 50 μM/ml ginsenoside-Rg1 group (61.0±4.65%) than in the control (46.6±7.02%), 25 μM/ml (46.2±4.76%), and 100 μM/ml ginsenoside-Rg1 (52.0± 1.90%) groups. However, the velocity distribution of post-thawed sperm did not differ significantly. Membrane integrity and MMP staining as revealed using flow cytometry were significantly (p<0.05) higher (91.6±0.82%) in the 50 μM/ml ginsenoside-Rg1 group than in the other groups. Here, we report that ginsenoside-Rg1 affects the motility and viability of boar spermatozoa. Moreover, ginsenoside- Rg1 can be used as a protective additive for the suppression of intracellular mitochondrial oxidative stress caused by cryopreservation.

The reactive oxygen species (ROS) generated during the somatic cell transfer nuclear (SCNT) procedures may cause the mitochondrial dysfunction and DNA damage, which may result in restricts the reprogramming of SCNT embryos and play a key direct role in apoptosis. The present study was conducted to investigate the effect of antioxidant treatment during the SCNT procedures on the inhibition of mitochondria and DNA damages in bovine SCNT embryos. The reconstituted oocytes were treated with antioxidants of 25 μM β-mercaptoethanol (β-ME) or 50 μM vitamin C (Vit. C) during the SCNT procedures. In vitro fertilization (IVF) was performed for controls. Mitochondrial morphology and membrane potential (ΔΨ) were evaluated by staining the embryos with MitoTracker Red or JC-1. Apoptosis was analyzed by Caspase-3 activity assay and TUNEL assay, and DNA fragmentation was measured by comet assay at the zygote stage. Mitochondrial morphology of non-treated SCNT embryos was diffused within cytoplasm without forming clumps, while the IVF embryos and antioxidant treated SCNT embryos were formed clumps. The ΔΨ of β-ME (1.3±0.1, red/green) and Vit. C-treated (1.4±0.2, red/green) SCNT embryos were significantly higher (p<0.05) than that of non-treated SCNT embryos (0.9±0.1, red/ green), which similar to that of IVF embryos (1.3±0.1, red/green). Caspase-3 activity was not difference among the groups. TUNEL assay also revealed that little apoptosis was occurred in SCNT embryos as well as IVF embryos regardless of antioxidant treatment. Comet tail lengths of β-ME and Vit. C-treated SCNT embryos (337.8±23.5 μm and 318.7 ±27.0 μm, respectively) were shorter than that of non-treated SCNT embryos (397.4± 21.4 μm) and similar to IVF embryos (323.3±10.6 μm). These results suggest that antioxidant treatment during SCNT procedures can inhibit the mitochondrial and DNA damages of bovine SCNT embryos.

It is well established that mitochondrial genome is strictly maternally inherited in mammalian, despite the fact that paternal mitochondria enter into oocyte during fertilization. To date, although some mechanisms have been extrapolated to interpret the elimination of paternal mitochondria, the exact mechanism still is unclear. Recent studies suggest that autophagy process and the ubiquitin-mediated degradation pathway may be involved in elimination of paternal mitochondria. However, the dynamic profiles of autophagy and ubiquitination associated with paternal mitochondria degradation have not been determined in mouse model. Through immunostaining with specific antibody LC3 and Ubiquitin and confocal microscopy, we investigated the dynamic profiles of LC3 and Ubiquitin signals in mouse embryos during preimplantation development. In addition, embryos were stained with MitoTracker Red for tracking the degradation process of paternal mitochondria. Our results showed that paternal mitochondria gradually degraded during postfertilization development, and sporadic paternal mitochondria were found at least in 16 cell embryos. LC3 and Ubiquitin signals appeared in the midpiece of sperm at 3 h postfertilization, and they were strictly colocalizated with paternal mitochondria from zygote to 2 cell embryo. Nevertheless, the colocalization became loose at 4 cell embryos, and gradually disappeared beyond 4 cell embryos. Our results confirmed that autophagy process and the ubiquitin-mediated degradation pathway may take part in the postfertilization remove of paternal mitochondria.

Prediction of semen's fertilizing ability used in artificial insemination (AI) is one of very important factors on pig reproductive performance. In vitro fertilization (IVF) has been used for indirect evaluation of sperm's fertilizing ability and it has been showed as highly correlated index. In swine industry, increasing interest in preservation of boar semen raises questions on the sperm motility from semen used in commercial AI centers. Mitochondria in sperm mid-piece generate the energy to support motility and could be an explanation of impaired fertility. Objective of this study was to suggest usable sperm motility to farms in measuring the effect of sperm motility and sperm abnormality on in vitro production of embryo in which sperm's fertilizing ability can be determined indirectly. Semen samples were provided from local AI center and used within 3 days after collection. Semen samples were divided by 4 different motile groups (>70%; 61~70%; 51~60%; <50%) using CASA (computer-assisted sperm analysis) on the days of IVF. Developmental rate to the blastocyst stage from over 61% motile sperm group showed significantly higher rate than below 60% motile sperm group ( vs , p<0.05). In experiment to determine the relationship between sperm motility and viability and abnormality, over 61% motile sperm groups showed significantly higher viability rate compared to below 60% motile sperm groups ( vs , p<0.05). On the other hand, morphological sperm abnormality showed significantly higher in over 70% motile sperm group ( vs , p<0.05). In experiment to find the correlation between sperm motility of 4 different motile groups and amount of mitochondria, lower motility group also showed lower level of mitochondria (p<0.05). The mitochondria parameter used in this study showed another possibility to differentiate the sperm motility. Taken together, because below 60% motile semen used in AI reduce the fertility, AI centers should provide the over 60% motile sperm to the farms at the time of AI.

Sperm-mediated gene transfer (SMGT) can be used to transfer exogenous DNA into the oocyte at fertilization. The main objective of this study was to assess efficiency of transferring mitochondrial DNA (mtDNA) fragment into boar spermatozoa in either presence or absence of liposome and quality of transfected spermatozoa. The mtDNA of chicken liver was isolated and purified by phenol and alkaline lysis extraction, and it was inserted to plasmid. The genome of transfected spermatozoa treated with DNase Ⅰ was purified by alkaline lysis, and then amplified by the PCR analysis. After electrophoresis, DNA quantitation of each well was calculated by comparison of the band intensity with standard. As a result, exogenous DNA was composed of mtDNA fragment (1.2 kb) and plasmid (2.7 kb). On the other hand, efficiency of transfection by liposome (9.0±0.34 ng/l) in SMGT was higher than that by DNA solution (6.9±0.53 ng/l). However, there was no significant difference. Transfering exogenous DNA into spermatozoa was completed within 90 min of incubation. In another experiment, there were significant (p<0.05) differences between transfected spermatozoa using both DNA solution and DNA/liposome complexes with untreated spermatozoa for viability (70.8±1.80 and 68.0±2.16% vs. 83.3±1.69%, respectively) and motility (78.7±1.59 and 79.3±2.14% vs. 86.7±1.59%, respectively). This study indicates that exogenous mtDNA can be efficiently transferred into boar spermatozoa regardless of the presence of liposome, and transfected spermatozoa can also use insemination and in vitro fertilization to generate transgenic pig.

본 연구는 한우 난구 복합체의 체외성숙에서 OA가 미치는 영향에 대하여 조사하였다. 도축 한우암소의 난소로부터 난구 복합체를 채취하여 PVA-TCM199로 3회 이상 세정 후 PVA-TCM 199, 0.2 uM, 2 uM, 20 uM OA를 각각 첨가하여 공기, 에서 6, 12, 24시간 동안 체외성숙을 실시하였다. 또한 체외성숙시 cycloheximide(CX)와 OA와 체외성숙 효과를 확인하기 위하여 0.1M-PVA TCM199, CX 25 ug/m

This experiment was to investigate whether the mitochondria function assessment can be used for the prediction of sperm fertility through examining the correlation between mitochondria fluoromicroscopic frequency of frozen-thawed eight Hanwoo bull semen using rhodamine123 (R123) and in vitro embryo development following fertilization. Individual sperm were stained in 5ug/mL R123-added calcium-free Sp-TALP for 30 min at 0 h, 6 h, 12 h and 24 h after thawing and examined their mid-piece under an epifluorescence microscope using 495 nm excitation filter (x1,000). Three replications were taken, and at least 300 sperm per individual were examined. When semen samples were separated into two groups (good and poor) by sperm motility and fluorescent frequencies at just after thawing, average fluorescent frequencies were remarkably reduced as time going (0 h; 53.29~72.94%, 6 h; 21.40~58.90%, 12 h; 8.26~25.93%, 24 h; 1.00~13.78%, irrespective of selected group, and there were no differences at 6 h or 12 h after thawing between selected groups but indicated significant difference at 24 h after thawing (p<0.05). In vitro fertilization rates in good and poor groups ranging 70.8~77.8% and 52.1~84.5%, respectively, were not significantly different. However, in vitro development rates of the same groups ranging 25.7~40.0% and 12.9~1.8%, respectively, were significant different (p<0.05). These results demonstrate that mitochondria fluoromicroscopic assessment of frozen-thawed bovine sperm may be used as a criterion to select more fertile sperm.