• Title/Summary/Keyword: Viability Mechanism

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Anti-angiogenic Effects of Shiquandabutang (십전대보탕(十全大補湯)이 혈관신생(血管新生) 억제(抑制)에 미치는 효과(效果))

  • Cui, Xun;Kang, Hee;Shim, Bum-Sang;Kim, Sung-Hoon;Choi, Seung-Hoon;Ahn, Kyoo-Seok
    • Journal of Korean Traditional Oncology
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    • v.11 no.1
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    • pp.119-134
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    • 2006
  • Shiquandabutang is very famous prescription for tonifying vital energy. We examined the anti-metatstastic effect of Shiquandabutang with in vitro invasion assay model. We performed the following experiments and the results are listed below:Cell viability assay was carried to determine the dose of Shiquandabutang. At lower dose under 200 ${\mu}g/m{\ell}$ (89.6%) viability was very high. But, viability downed as dose grows. At the dose of 600 ${\mu}g/m{\ell}$ (54.2%) viability was almost half of that of control. And at high dose of 1000 ${\mu}g/m{\ell}$ (15.8%) viability was very pure. In BrdU incorporation assay, Shiquandabutang treated groups showed the decreased DNA synthesis rate compared with control group.(200 ${\mu}g/m{\ell}$ (64.4%), 400 ${\mu}g/m{\ell}$ (7.3%)) The results of gelatinase assay showed that Shiquandabutang decreases the gelatinolytic activity of MMP-9. We examined tube formation assay and the result was that Shiquandabutang ihhibits the tube formation at the dose of 200 ${\mu}g/m{\ell}$ and 400 ${\mu}g/m{\ell}$. We examined rat aortic ring assay and the result was that Shiquandabutang ihhibits the angiogenesis of the rat aortic ring at the dose of 400 ${\mu}g/m{\ell}$. From our research, part of the mechanism underlying anti-metastastic effect of Shiquandabutang was proven in vitro. Moreover, we knew that Shiquandabutang is more effectively inhibits the angiogenesis at high dose.

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Antioxidative Effects of Parnassia palustris L. Extract on Ferrous Sulfate-Induced Cellular Injury of Cultured C6 Glioma Cells (파킨슨씨병 유발물질인 황산철로 손상된 배양 신경아교세포에 대한 물매화 추출물의 항산화 효과)

  • Young-Mi, Seo;Seung-Bum, Yang
    • Korean Journal of Clinical Laboratory Science
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    • v.54 no.4
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    • pp.298-306
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    • 2022
  • This study sought to evaluate the mechanism of cellular injury caused by ferrous sulfate (FeSO4) and the protective effects of Parnassia palustris L. (PP) extract against FeSO4-induced cytotoxicity of cultured C6 glioma cells. FeSO4 is known to cause neurotoxicity and induce Parkinson's disease. The antioxidative effects of PP, such as superoxide dismutase (SOD)-like and superoxide anion-radical (SAR)-scavenging activities, as well as effects on cell viability, were studied. FeSO4 significantly decreased cell viability in a dose-dependent manner and the XTT50 value, the concentration of FeSO4 which reduced the cell viability by half, was measured at 63.3 μM in these cultures. FeSO4 was estimated to be highly cytotoxic by the Borenfreund and Puerner toxicity criteria. Quercetin, an antioxidant, significantly improved cell viability, damaged by FeSO4-induced cytotoxicity. While evaluating the protective effects of the PP extract on FeSO4-induced cytotoxicity, it was observed that the extract significantly increased cell viability compared to the FeSO4-treated group. Also, the PP extract showed superoxide dismutase (SOD)-like and superoxide anion radical (SAR)-scavenging activities. Based on these findings, it can be concluded that FeSO4 induced oxidative stress-related cytotoxicity, and the PP extract effectively protected against this cytotoxicity via its antioxidative effects. In conclusion, natural antioxidant sources such as PP may be agents useful for preventing oxidative stress-related cytotoxicity induced by heavy metal compounds such as the FeSO4, a known Parkinsonism inducer.

Nitric Oxide-Induced Apoptosis of Human Dental Pulp Cells Is Mediated by the Mitochondria-Dependent Pathway

  • Park, Min Young;Jeong, Yeon Jin;Kang, Gi Chang;Kim, Mi-Hwa;Kim, Sun Hun;Chung, Hyun-Ju;Jung, Ji Yeon;Kim, Won Jae
    • The Korean Journal of Physiology and Pharmacology
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    • v.18 no.1
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    • pp.25-32
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    • 2014
  • Nitric oxide (NO) is recognized as a mediator and regulator of inflammatory responses. NO is produced by nitric oxide synthase (NOS), and NOS is abundantly expressed in the human dental pulp cells (HDPCs). NO produced by NOS can be cytotoxic at higher concentrations to HDPCs. However, the mechanism by which this cytotoxic pathway is activated in cells exposed to NO is not known. The purpose of this study was to elucidate the NO-induced cytotoxic mechanism in HDPCs. Sodium nitroprusside (SNP), a NO donor, reduced the viability of HDPCs in a dose- and time-dependent manner. We investigated the in vitro effects of nitric oxide on apoptosis of cultured HDPCs. Cells showed typical apoptotic morphology after exposure to SNP. Besides, the number of Annexin V positive cells was increased among the SNP-treated HDPCs. SNP enhanced the production of reactive oxygen species (ROS), and N-acetylcysteine (NAC) ameliorated the decrement of cell viability induced by SNP. However, a soluble guanylate cyclase inhibitor (ODQ) did not inhibited the decrement of cell viability induced by SNP. SNP increased cytochrome c release from the mitochondria to the cytosol and the ratio of Bax/Bcl-2 expression levels. Moreover, SNP-treated HDPCs elevated activities of caspase-3 and caspase-9. While pretreatment with inhibitors of caspase (z-VAD-fmk, z-DEVD-fmk) reversed the NO-induced apoptosis of HDPCs. From these results, it can be suggested that NO induces apoptosis of HDPCs through the mitochondria-dependent pathway mediated by ROS and Bcl-2 family, but not by the cyclic GMP pathway.

Nitric Oxide-Induced Autophagy in MC3T3-E1 Cells is Associated with Cytoprotection via AMPK Activation

  • Yang, Jung Yoon;Park, Min Young;Park, Sam Young;Yoo, Hong Il;Kim, Min Seok;Kim, Jae Hyung;Kim, Won Jae;Jung, Ji Yeon
    • The Korean Journal of Physiology and Pharmacology
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    • v.19 no.6
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    • pp.507-514
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    • 2015
  • Nitric oxide (NO) is important in the regulation of bone remodeling, whereas high concentration of NO promotes cell death of osteoblast. However, it is not clear yet whether NO-induced autophagy is implicated in cell death or survival of osteoblast. The present study is aimed to examine the role of NO-induced autophagy in the MC3T3-E1 cells and their underlying molecular mechanism. The effect of sodium nitroprusside (SNP), an NO donor, on the cytotoxicity of the MC3T3-E1 cells was determined by MTT assay and expression of apoptosis or autophagy associated molecules was evaluated by western blot analysis. The morphological observation of autophagy and apoptosis by acridine orange stain and TUNEL assay were performed, respectively. Treatment of SNP decreased the cell viability of the MC3T3-E1 cells in dose- and time-dependent manner. SNP increased expression levels of p62, ATG7, Beclin-1 and LC3-II, as typical autophagic markers and augmented acidic autophagolysosomal vacuoles, detected by acridine orange staining. However, pretreatment with 3-methyladenine (3MA), the specific inhibitor for autophagy, decreased cell viability, whereas increased the cleavage of PARP and caspase-3 in the SNP-treated MC3T3-E1 cells. AMP-activated protein kinase (AMPK), a major autophagy regulatory kinase, was activated in SNP-treated MC3T3-E1 cells. In addition, pretreatment with compound C, an inhibitor of AMPK, decreased cell viability, whereas increased the number of apoptotic cells, cleaved PARP and caspase-3 levels compared to those of SNP-treated MC3T3-E1 cells. Taken together, it is speculated that NO-induced autophagy functions as a survival mechanism via AMPK activation against apoptosis in the MC3T3-E1 cells.

Comparative Study on the Toxic Mechanism of Oxidant-Induced Neurotoxicity and Protective Effects of Several Herb Extracts as a Nerve Growth Factor in Spinal Motor Neurons Damaged by Oxygen Radicals (신경성장인자(神經成長因子)로서의 약류별(藥類別) 한약제(韓藥劑)가 척수(脊髓) 운동신경세포(運動神經細胞)의 손상(損傷)에 미치는 효능(效能) 및 기전(機轉)에 관(關)한 비교(比較) 연구(硏究))

  • Park Seung-Taeck;Yoon Hyang-Suk;Hyoung Keon-Young;Cho Chung-Gu;Lee Kang-Chang;Kim Won-Shin;Kim Hyung-Min;Jeon Byung-Hoon;Yun Young-Gap
    • Herbal Formula Science
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    • v.7 no.1
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    • pp.131-141
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    • 1999
  • In order to eludidate the mechanism of oxidative stress in cultured spinal motor neurons damaged by oxygen free radicals, cytoxicity was assesed by MTT assay and NR assay after spinal motor neurons from mouse were cultured in media containing various concentrations of xanthine oxidase(XO) and hypoxanthine(HX) for 3 hours. In addition, neuroprotective effects of several herb extracts on oxidant-induced neurotoxicity were examined in these cultures, compared with nerve growth factors such as basic fibroblast growth factor(bFGF). XO/HX decreased cell viability in dose- and time dependent manners on cultured mouse spinal motor neurons, and MTT50 and NR50 values were measured at 20mU/ml XO and 0.1mM HX for 3 hours in these cultures. bFGF significantlt increased cell viability. In neuroprotective of herb extracts, Epimedium Koreanum Nakai(EK) and Alpinia oxphylla Mig(IJI) was very effective in the prevention of the neurotoxicity induced by XO/HX in cultured mouse spinal motor neurons. From the above results, it is suggested that XO/HX shows toxic effect in cultured mouse spinal motor neurons and selective herb extracts such as Epimedium Koreanum Nakai(EK) and Alpinia oxphylla Mig(IJI) were very effective in the increase of cell viability against the neurotoxicity induced by oxygen radicals in these cultures.

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Resveratrol Induces Cell Death through ROS-dependent MAPK Activation in A172 Human Glioma Cells (사람의 신경교모세포종 기원 세포에서 레스베라트롤에 의한 활성산소종 생성 증가와 MAPK 활성화를 통한 세포 사멸 효과)

  • Jung, Jung Suk;Woo, Jae Suk
    • Journal of Life Science
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    • v.26 no.2
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    • pp.212-219
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    • 2016
  • Glioblastoma multiforme is the most common and most aggressive type of primary brain tumor in humans. Despite intensive treatment, including surgery, radiation, and chemotherapy, most patients die of the disease. Although the anti-cancer activity of resveratrol has been demonstrated in various cancer cell types, its underlying mechanism in glioma cells is not fully elucidated. The present study was undertaken to investigate the effect of resveratrol on cell viability and to determine the molecular mechanism in A172 human glioma cells. Resveratrol caused the generation of reactive oxygen species (ROS), and resveratrol-induced cell death was prevented by antioxidants (N-acetylcysteine and catalase), suggesting that an oxidative mechanism is responsible for resveratrol-induced cell death. Resveratrol-induced phosphorylation of extracellular signal-regulated kinase (ERK), p38 kinase, and c-Jun N-terminal kinase (JNK), and resveratrol-induced cell death were prevented by inhibitors of these kinases. Resveratrol-induced activation of caspase-3 and cell death were prevented by the caspase inhibitors. ERK activation and caspase-3 activation induced by resveratrol was blocked by N-acetylcysteine. Taken together, these results suggest that resveratrol causes a caspase-dependent cell death via activation of ERK, p38, and JNK, mediated by ROS generation, in human glioma cells.

Influence of Yeoldahanso-tang on the Hypoxic Damage of Cultured Cerebral Neurons from mouse and SK-N-MC cells (열다한소탕(熱多寒少湯)이 저산소성(低酸素性) 대뇌신경세포(大腦神經細胞) 손상에 미치는 영향(影響))

  • Kim, Hyoung-Soon;Bae, Young-Chun;Lee, Sang-Min;Kim, Kyung-Yo;Won, Kyoung-Sook;Sihm, Gyue-Hearn;Park, Su-Jeong
    • Journal of Sasang Constitutional Medicine
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    • v.15 no.1
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    • pp.72-89
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    • 2003
  • To elucidate the neuroprotective effect of Yeoldahanso-tang(YHT) on nerve cells damaged by hypoxia, the cytotoxic effects of exposure to hypoxia were determined by XTT(SODIUM3,3'-{I-[(PHENYLAMINO) CARBONYL]-3,4-TETRAZOLIUM}- BIS (4-METHOXY-6-NITRO) BENZENE SULFONIC ACID HYDRATE), NR(Neutral red), MTT(3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide) and SRB(Sulforhodamin B) asssay. The activity of catalase and SOD(Superoxide dismutase) was measured by spectrophometry, and $TNF-{\alpha}$(Tumor cell necrosis $fector-{\alpha}$) and PKC(Protein kinase C) activity was measured after exposure to hypoxia and treatment of YHTWE. Also the neuroprotective effect of YHTWE was researched for the elucidatioion of neuroprotective mechanism. The results were as follows; 1. Hypoxia decreased cell viability measured by XTT, NR assay when cultured cerebral neurons were exposed to 95% N2/5% CO2 for $2{\sim}26$ minutes in these cultures and YHTWE inhibited the decrease of cell viability. 2. H2O2 treatment decreased cell viability measured by MTT, and SRB assay when cultured cerebral neurons were exposed to 1-80 ${\mu}M$ for 6 hours, but YHTWE inhibited the decrease of cell viability. 3. Hypoxia decreased catalase and SOD activity, and also $TNF-{\alpha}$ and PKC activity in these cultured cerebral neurons, but YHTWE inhibited the decrease of the catalase and SOD activity in these cultures. 4. Hypoxia triggered the apoptosis via caspase activation and internucleosomal DNA fragmentation. Also hypoxia stimulate the release of cytochrome c forom mitochondria. YHTWE inhibited the apoptosis via caspase activation induced by hypoxia. From these results, it can be suggested that brain ischemia model induced hypoxia showed neurotoxicity on cultured mouse cerebral neurons, and the YHTWE has the neuroprotective effect in blocking the neurotoxicity induced by hypoxia in cultured mouse cerebral neurons.

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Hepatitis C Virus Nonstructural 5A Protein (HCV-NS5A) Inhibits Hepatocyte Apoptosis through the NF-κb/miR-503/bcl-2 Pathway

  • Xie, Zhengyuan;Xiao, Zhihua;Wang, Fenfen
    • Molecules and Cells
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    • v.40 no.3
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    • pp.202-210
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    • 2017
  • The nonstructural protein 5A (NS5A) encoded by the human hepatitis C virus (HCV) RNA genome is a multifunctional phosphoprotein. To analyse the influence of NS5A on apoptosis, we established an Hep-NS5A cell line (HepG2 cells that stably express NS5A) and induced apoptosis using tumour necrosis factor $(TNF)-{\alpha}$. We utilised the MTT assay to detect cell viability, real-time quantitative polymerase chain reaction and Western blot to analyse gene and protein expression, and a luciferase reporter gene experiment to investigate the targeted regulatory relationship. Chromatin immunoprecipitation was used to identify the combination of $NF-{\kappa}B$ and miR-503. We found that overexpression of NS5A inhibited $TNF-{\alpha}$-induced hepatocellular apoptosis via regulating miR-503 expression. The cell viability of the $TNF-{\alpha}$ induced Hep-mock cells was significantly less than the viability of the $TNF-{\alpha}$ induced Hep-NS5A cells, which demonstrates that NS5A inhibited $TNF-{\alpha}$-induced HepG2 cell apoptosis. Under $TNF-{\alpha}$ treatment, miR-503 expression was decreased and cell viability and B-cell lymphoma 2 (bcl-2) expression were increased in the Hep-NS5A cells. Moreover, the luciferase reporter gene experiment verified that bcl-2 was a direct target of miR-503, NS5A inhibited $TNF{\alpha}$-induced $NF-{\kappa}B$ activation and $NF-{\kappa}B$ regulated miR-503 transcription by combining with the miR-503 promoter. After the Hep-NS5A cells were transfected with miR-503 mimics, the data indicated that the mimics could reverse $TNF-{\alpha}$-induced cell apoptosis and blc-2 expression. Collectively, our findings suggest a possible molecular mechanism that may contribute to HCV treatment in which NS5A inhibits $NF-{\kappa}B$ activation to decrease miR-503 expression and increase bcl-2 expression, which leads to a decrease in hepatocellular apoptosis.

Influence of Kamijihwang-hwan on the Hypoxic Damage of Cultured Cerebral Neurons from mouse and SK-N-MC cells (가미지황환이 저산소성 신경세포 손상에 미치는 영향)

  • Kyung Baek Yeun;Ju Sung Min;Kim Kun Jun;Kim Dae Keun;Kang Jeong Ho;Lee Young Chan;Lee Jun;Kim Young Mok;Jeon Byung Hun
    • Journal of Physiology & Pathology in Korean Medicine
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    • v.17 no.4
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    • pp.1082-1091
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    • 2003
  • To elucidate the neuroprotective effect of Kamijihwang-hwan(KSH) on nerve cells damaged by hypoxia, the cytotoxic effects of exposure to hypoxia were determined by XTT, NR, MTT and SRB asssay. The activity of catalase and SOD was measured by spectrophometry, and TNF-α and PKC activity was measured after exposure to hypoxia and treatment of Kamijihwang-hwan(KSH) water extract(KJHWE). Also the neuroprotective effect of KJHWE was researched for the elucidation of neuroprotective mechanism. The results were as follows ; Hypoxia decreased cell viability measured by XTT, NR assay when cultured cerebral neurons were exposed to 95% N2/5% CO₂ for 2~26 minutes in these cultures and KJHWE inhibited the decrease of cell viability. H₂O₂ treatment decreased cell viability measured by MTT, and SRB assay when cultured cerebral neurons were exposed to 1-80 uM for 6 hours, but KJHWE inhibited the decrease of cell viability. Hypoxia decreased catalase and SOD activity, and also TNF-α and PKC activity in these cultured cerebral neurons, but KJHWE inhibited the decrease of the catalase and SOD activity in these cultures. Hypoxia triggered the apoptosis via caspase activation and internucleosomal DNA fragmentation. Also hypoxia stimulate the release of cytochrome c form mitochondria. KJHWE inhibited the apoptosis via caspase activation induced by hypoxia. From these results, it can be suggested that brain ischemia model induced hypoxia showed neurotoxity on cultured mouse cerebral neurons, and the KJHWE has the neuroprotective effect in blocking the neurotoxity induced by hypoxia in cultured mouse cerebral neurons.

Methylated-UHRF1 and PARP1 interaction is critical for homologous recombination

  • Hahm, Ja Young;Kang, Joo-Young;Park, Jin Woo;Jung, Hyeonsoo;Seo, Sang-Beom
    • BMB Reports
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    • v.53 no.2
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    • pp.112-117
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    • 2020
  • A recent study suggested that methylation of ubiquitin-like with PHD and RING finger domain 1 (UHRF1) is regulated by SET7 and lysine-specific histone demethylase 1A (LSD1) and is essential for homologous recombination (HR). The study demonstrated that SET7-mediated methylation of UHRF1 promotes polyubiquitination of proliferating cell nuclear antigen (PCNA), inducing HR. However, studies on mediators that interact with and recruit UHRF1 to damaged lesions are needed to elucidate the mechanism of UHRF1 methylation-induced HR. Here, we identified that poly [ADP-ribose] polymerase 1 (PARP1) interacts with damage-induced methylated UHRF1 specifically and mediates UHRF1 to induce HR progression. Furthermore, cooperation of UHRF1-PARP1 is essential for cell viability, suggesting the importance of the interaction of UHRF1-PARP1 for damage tolerance in response to damage. Our data revealed that PARP1 mediates the HR mechanism, which is regulated by UHRF1 methylation. The data also indicated the significant role of PARP1 as a mediator of UHRF1 methylation-correlated HR pathway.