• Biomolecules & Therapeutics
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• 제16권1호
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• pp.1-8
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• 2008

Mitochondria are important sensor of apoptosis. $H_2O_2-induced$ cell death rate was enhanced by serum deprivation. In this study, we investigated whether serum deprivation using 0.5 or 3 % FBS induces apoptotic cell death through mitochondrial enzyme activation as compared to 10 % FBS. Apoptotic cell death was observed by chromosome condensation and the increase of sub-G0/G1 population. Serum deprivation reduced cell growth rate, which was confirmed by the decrease of S-phase population in cell cycle. Serum deprivation significantly increased caspase-9 activity and cytochrome c release from mitochondria into cytosol. Serum deprivation-induced mitochondrial changes were also indicated by the increase of ROS production and the activation of mitochondrial enzyme, succinate dehydrogenase. Mitochondrial enzyme activity increased by serum deprivation was reduced by the treatment with rotenone, mitochondrial electron transport inhibitor. In conclusion, serum deprivation induced mitochondrial apoptotic cell death through the elevation of mitochondrial changes such as ROS production, cytochrome c release and caspase-9 activation. It suggests that drug sensitivity could be enhanced by the increase of mitochondrial enzyme activity in serum-deprived condition.

• Journal of Nutrition and Health
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• 제20권1호
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• pp.46-53
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• 1987

The effect of bile deprivation on serum lipid and gastrin contents was investigat\ulcornered after choledocho-urinary cystostomy in Sprague-Dawley rats. Bile deprivated rats were compared with sham operated control group. Gastrin levels in serum and antral tissue were measured and serum lipid concentrations were also measured. Gastrin levels of serum and tissue after bile deprivation were increased significantly compared with those of the controL At the end of 1st and 2nd week after bile deprivation, serum cholesterol and triglyceride contents were significantly lower han those of the control. By 4th week, there was no significant difference between two groups. Increases in serum and antral gastrin levels temporarily coincided well with decreases in serum lipid contents after bile deprivation. These results suggest that there is increase in biosynthesis and release of gastrin and decrease in fat absorption at early stage of bile deprivation.

• The Korean Journal of Physiology and Pharmacology
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• 제5권6호
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• pp.467-477
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• 2001

We examined astrocyte regional heterogeneity in their morphological changes in response to various stimuli. Astrocytes were cultured from six different neonatal rat brain regions including cerebral cortex, hippocampus, cerebellum, mid brain, brain stem and hypothalamus. Astrocyte stellation was induced by serum deprivation and the maximum stellation in different regional astrocytes was achieved after 2 h. After 24 h, in all astrocyte cultures, the level of stellation returned to their original level. Cerebellar or hypothalamic astrocytes were the most or the least sensitive, respectively, to serum deprivation. The order of maximum sensitivity to serum deprivation among different regional astrocytes was: cerebellum＞mid $brain{\ge}hippocampus,\;brain\;stem{\ge}cerebral$ cortex＞hypothalamus. Isoproterenol-induced astrocyte stellation was also examined in different regional astrocytes, and similar order of maximum sensitivity as in serum deprivation was observed. Next a possible developmental effect on astrocyte morphological changes was examined in cerebral cortex and cerebellum astrocytes cultured from postnatal day 1 (P1), P4 and P7 rat brains. A much higher sensitivity of cerebellum astrocytes to serum deprivation as well as isoproterenol treatment was consistently observed in P1, P4 and P7-derived astrocytes compared to cerebral cortex astrocytes. The present study demonstrates different regional astrocytes maintain different levels of morphological plasticity in vitro.

• 생명과학회지
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• 제23권7호
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• pp.926-932
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• 2013

글루타민과 혈청은 세포의 생존과 증식에 기본적으로 요구되지만, 그들의 양적 변화에 따른 내피세포 반응에 관한 신호전달 관련 연구는 거의 이루어지지 않았다. 본 연구에서는 인체 재대정맥 내피세포(human umbilical vein endothelial cells, HUVECs)의 증식에 미치는 글루타민과 혈청의 결핍에 관한 영향을 조사하였다. 본 연구의 결과에 의하면 글루타민 및 혈청이 결핍된 조건에서 배양된 HUVECs의 증식 억제는 apoptosis 유발과 연관성이 있었음을 DAPI staining에 의한 핵의 형태 변화와 유세포 분석을 통하여 확인하였다. 비록 혈청이 결핍된 조건보다 글루타민 결핍에 의한 apoptosis 유발 정도가 더 높게 나타났으나, 두 현상에 의한 apoptosis의 유발은 anti-apoptotic Bcl-2 및 Bcl-xL의 발현 저하와 pro-apoptotic Bax의 발현 증가, IAP family 단백질의 발현 감소, caspase의 활성 증가에 따른 PARP 단백질의 단편화와 연관성이 있었다. 또한 이러한 조건에서 HUVECs의 Bid 발현의 감소 또는 tBid 발현의 증가 현상이 관찰되어, 글루타민 또는 혈청 결핍에 의한 HUVECs의 apoptosis 유발은 세포막 수용체 및 미토콘드리아 활성 경로를 동시에 통하여 이루어지고 있음을 알 수 있었다. 그러나 글루타민과 혈청이 동시에 결핍된 조건에서 배양된 HUVECs의 증식 억제 현상은 각각의 조건에 비하여 증가되었으나 apoptosis는 유발되지 않았다.

• The Korean Journal of Physiology and Pharmacology
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• 제1권5호
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• pp.515-521
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• 1997

Endothelial cells play a central role in the inflammatory processes, and activation of nuclear factor kappa B ($NF-_{\kappa}B$) is a key component in that inflammatory processes. Previously, we reported that tumor necrosis factor alpha($TNF{\alpha}$) had protective effect of cell death induced by serum deprivation and this protection was related to $NF-_{\kappa}B$ activation. Inducible nitric oxide synthase (iNOS) is a member of the molecules which transcription is regulated mainly by $NF-_{\kappa}B$. And the role of nitric oxide (NO) generated by iNOS on cell viability is still controversial. To elucidate the mechanism of $TNF{\alpha}$ and $NF-_{\kappa}B$ activation on cell death protection, we investigate the effect of NO on the cell death induced by serum- deprivation in bovine cerebral endothelial cells in this study. Addition of $TNF{\alpha}$, which are inducer of iNOS, prevented serum-deprivation induced cell death. Increased expression of iNOS was confirmed indirectly by nitrite measurement. When selective iNOS inhibitors were treated, the protective effect of $TNF{\alpha}$ on cell death was partially blocked, suggesting that iNOS expression was involved in controlling cell death. Exogenously added NO substrate (L-arginine) and NO donors (sodium nitroprusside and S-nitroso-N-acetylpenicillamine) also inhibited the cell death induced by serum deprivation. These results suggest that NO has protective effect on bovine cerebral endothelial cell death induced by serum-deprivation and that iNOS is one of the possible target molecules by which $NF-_{\kappa}B$ exerts its cytoprotective effect.

• The Korean Journal of Physiology and Pharmacology
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• 제24권2호
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• pp.173-183
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• 2020

An in vitro model for ischemia/reperfusion injury has not been well-established. We hypothesized that this failure may be caused by serum deprivation, the use of glutamine-containing media, and absence of acidosis. Cell viability of H9c2 cells was significantly decreased by serum deprivation. In this condition, reperfusion damage was not observed even after simulating severe ischemia. However, when cells were cultured under 10% dialyzed FBS, cell viability was less affected compared to cells cultured under serum deprivation and reperfusion damage was observed after hypoxia for 24 h. Reperfusion damage after glucose or glutamine deprivation under hypoxia was not significantly different from that after hypoxia only. However, with both glucose and glutamine deprivation, reperfusion damage was significantly increased. After hypoxia with lactic acidosis, reperfusion damage was comparable with that after hypoxia with glucose and glutamine deprivation. Although high-passage H9c2 cells were more resistant to reperfusion damage than low-passage cells, reperfusion damage was observed especially after hypoxia and acidosis with glucose and glutamine deprivation. Cell death induced by reperfusion after hypoxia with acidosis was not prevented by apoptosis, autophagy, or necroptosis inhibitors, but significantly decreased by ferrostatin-1, a ferroptosis inhibitor, and deferoxamine, an iron chelator. These data suggested that in our SIR model, cell death due to reperfusion injury is likely to occur via ferroptosis, which is related with ischemia/reperfusion-induced cell death in vivo. In conclusion, we established an optimal reperfusion injury model, in which ferroptotic cell death occurred by hypoxia and acidosis with or without glucose/glutamine deprivation under 10% dialyzed FBS.

• 동의생리병리학회지
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• 제20권6호
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• pp.1459-1466
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• 2006

The water extract of Hwansodan has been traditionally used for treatment of ischemic brain damage in oriental medicine. However, little is known about the mechanism by which the water extract of Hwansodan rescues cells from neurodegenerative disease. PC12 pheochromocytoma cells have been used extensively as a model for studying the cellular and molecular mechanisms of neuronal cell damages. Under deprivation of growth factor and ischemic injury, PC12 cells spontaneously undergoes apoptotic cell death. Serum and glucose deprivation markedly decreased the viability of PC12 cells, which was characterized with apparent apoptotic features such as membrane blebbing as well as fragmentation of genomic DNA and nuclei. However, the aqueous extract of Hwansodan significantly reduced serum and glucose deprivation-induced cell death and apoptotic characteristics through reduction of intracellular peroxide generation. Pretreatment of Hwansodan also ingibited the activation of caspase-3, in turn, degradation of ICAD/DFF45 was completely abolished in serum and glucose deprivated cells. Furthermore, pretreatment of Hwansodan obviously increased heme oxygenase 1 (HO-1) expression in PC12 cells. Taken together, the data suggest that the protective effects of Hwansodan against serum and glucose deprivation induced oxidative injuries may be achieved through the scavenging of reactive oxygene species accompanying with HO-1 induction.

• The Korean Journal of Physiology and Pharmacology
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• 제7권1호
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• pp.33-37
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• 2003

Oxidative damage to mitochondria is a critical mechanism in necrotic or apoptotic cell death induced by many kinds of toxic chemicals. Thioredoxin (Trx) family proteins are known to play protective roles in organisms under oxidative stress through redox reaction by using reducing equivalents of cysteines at a conserved active site, Cys-X-X-Cys. Whereas biological and physiological properties of Trx1 are well characterized, significance of mitochondrial thioredoxin (Trx2) is not well known. Therefore, we addressed physiological role of Trx2 in PC12 cells under oxidative stress. In PC12 cells, transiently overexpressed Trx2 significantly reduced cell death induced by hydrogen peroxide, whereas mutant Trx2, having serine residues instead of two cysteine residues at the active site did not. In addition, stably expressed Trx2 protected PC12 cells from serum deprivation. These results suggest that Trx2 may play defensive roles in PC12 cells by reducing oxidative stress to mitochondria.

• 한방재활의학과학회지
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• 제19권2호
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• pp.103-112
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• 2009

Objectives : This study was to evaluate the pharmacological effect of Korea Red Ginseng aqueous extract (KRGE) on serum-deprived apoptosis of neuronal-like pheochromocytoma PC12 cells and to investigate its underlying action mechanism. Methods : KRGE was prepared by extracting Korea Red Ginseng with hot water and concentrating using a vacuum evaporator. Cell viability was determined after incubation of cells with KRGE or chemical inhibitor in serum-deprived medium for 60 h by counting intact nuclei following lysing of the cell membrane. Caspase activities were measured using chromogenic substrates and signal-associated protein phosphorylation and cytochrome c release were determined by Western blot analyses using their specific antibodies. Results : Serum deprivation induced PC12 cell death, which was accompanied by typical morphological features of apoptotic cell, such as nuclear fragmentation, caspase-3 activation, and cytochrome c release. This apoptotic cell death was significantly inhibited by KRGE and caspase-3 inhibitor, but not by the addition of NMA, ODQ, and PD98059. KRGE promoted phosphorylation of Akt and Bad, and this phosphorylation was inhibited by the PI3K inhibitor LY92004. In addition, this inhibitor also reversed KRGE-mediated protection of PC 12 cells from serum deprivation. These results suggested that KRGE protects PC12 cells from serum deprivation-induced apoptosis through the activation of PI3K/Akt-dependent Bad phosphorylation and cytochrome c release, resulting in caspase-3 activation. Conclusions : KRGE should be considered as a potential therapeutic drug for brain diseases including stroke induced by apoptosis of neuronal cells.

• 대한한의학회지
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• 제24권2호
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• pp.179-192
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• 2003

Objectives : Boyanghwanoh-tang (Buyanhaiwu-tang) has been used as a prescription for stroke, senile and vascular dementia, ischemic brain and heart damage in Oriental traditional medicine. However, there is little known about the mechanism by which the water extracts of Boyanghwanoh-tang (Buyanhaiwu-tang) rescue cells fromthese damages, and little is known about the protective mechanisms of Boyanghwanoh-tang (Buyanhaiwu-tang) on oxidative stress in neuronal cells. Therefore, we have investigated the role of Boyanghwanoh-tang (Buyanhaiwu-tang) on serum and glucose deprived apoptosis in PC12 cells. Methods : PC12 Cells have been used extensively as a model for studying the cellular and molecular effects of neuronal cells. The viability of cells was measured by MIT assay. We used DNA fragmentation and caspase 1, 2, 3, 6, 9-likeproteases activation assay. Transcriptional activation of NF-kB was assessed by using electrophoretic mobility shift assay. Results : Boyanghwanoh-tang (Buyanhaiwu-tang) rescued PC12 cells from apoptotic death by serum and glucose deprivation in a dose-dependent manner. The nuclear staining of PC12 cells clearly showed that Boyanghwanoh-tang (Buyanhaiwu-tang) attenuated nuclear condensation and fragmentation, which represent typical neuronal apoptotic characteristics. Boyanghwanoh-tang (Buyanhaiwu-tang) also prevents fragmentation of genomic DNA and activation of caspase 3-like protease in serum and glucose deprived PC12 cells. Furthermore, Boyanghwanoh-tang (Buyanhaiwu-tang) reduced the activation of NF-kB by serum and glucose-deprived apoptosis. Conclusions : These findings suggest that serum and glucose deprivation induces reduced glutathione (GSH) depletion, and consequently, apoptosis through endogenously produced reactive oxygen species in PC12 cells. Also, our data indicated that Boyanghwanoh-tang (Buyanhaiwu-tang) has protective effects against the serum and glucose deprived deaths of PC12 cells, which are mediated by the generation of GSH that, in turn, can reduce oxidative stress caused by reactive oxygen species (ROS) such as hydrogen peroxide.