• 생명과학회지
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• 제16권3호
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• pp.409-414
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• 2006

소포체는 세포막의 합성뿐만 아니라 세포막에 존재하거나 세포외로 분비되어져야 할 단백질을 합성하는 세포내 소기관이다. 소포체에서 단백질이 합성되어질 경우 이황화결합이 형성되고 glycosylation 등의 수식이 일어나며, 이와 동시에 folding과 assembly과정을 거쳐 삼차원적 구조로 성숙이 되는데 이 과정은 folding enzyme과 molecular chaperone의 도움을 받아 이루어진다. 소포체 내에 존재하는 molecular chaperone 중 가장 잘 알려진 것으로 BiP이 있다. BiP의 기능은 N-terminus의 ATPase domain에 의해 조절되고 ATPase domain은 이것과 선택적으로 결합하는 조절인자에 의해 ATPase의 활성이 영향을 받는다. BiP의 핵산치환조절인자로서 발견된 BAP은 ATPase domain에 결합된 ADP를 ATP로 치환하는 것으로 기능이 알려져 있다. 이 BAP의 핵산치환기능이 BiP의 샤페론 작용에 어떤 영향을 미치는지를 in vitro에서 항체 heavy chain을 이용하여 알아보았다. BAP은 ATP보다 ADP가 결합되어 있는 BiP과 더 잘 결합을 하며, in vitro에서 BiP과 결합하고 있는 unfolded 단백질을 BAP은 BiP으로부터 해리하였다. 또한 소포체내에 존재하는 Hsp70 homologue chaperone인 BiP과 Grp170에 대한 BAP의 결합특이성을 anti-Grp170과 anti-BAP 항체로 co-immunoprecipitation을 하여 확인한 결과 BAP은 Grp170과 결합을 하지 않았다. 따라서 BAP은 ER내에 존재하는 동일한 family group에 속하는 Grp170과 BiP에 대하여 BiP에만 특이성을 갖는 것으로 나타났다.

• 한국식품영양과학회지
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• 제18권1호
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• pp.123-130
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• 1989

방어로부터 추출한 근원섬유 현탁액을 $0^{\circ}C$(빙장), $-3.5^{\circ}C$(PF저장), $-20^{\circ}C$(동결저장)에 저장하면서 Ca-과 Mg-ATPase활성을 측정하여 근육단백질의 변성을 조사하였으며 일부는 생선을 각 온도에 일정기간 저장한 후 근원섬유를 추출하여 단백질 변성정도를 비교한 결과 추출한 근원섬유를 저장하였을 때 빙장 및 PF저장한 시료의 ATPase활성은 비슷한 수준이었으나 동결 저장한 시료에서는 현저히 낮았다. 생선을 각 온도에 1주일간 저장한 후 추출한 근원섬유의 소활성은 근원섬유를 미리 추출하여 같은 기간동안 저장한 경우에 비하여 빙장과 PF저장에서는 1.2-1.8배, 동결저장에서는 2.5-3배 정도 높은 수준을 유지하고 있었다. 근원섬유를 각 온도에 저장하였을 때의 변성속도는 Ca-의 경우가 Mg-ATPase에 비 해 2-3배 빨랐으나 생선으로 저장한 경우에는 Ca-과 Mg-ATPase간에 큰 차이를 나타내지 않았다.

• 한국식품영양과학회지
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• 제14권1호
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• pp.82-87
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• 1985

닭의 가슴부위 및 다리부위의 골격근(骨格筋)에서 myofibril, actomyosin 및 myosin을 추출하고 ATPase activity(${\mu}mole$ pi/mg protein/min)로서 나타낸 몇가지 생물학적(生物學的) 활성(活性)을 비교하였다. 가슴부위에서 추출한 actomyosin, myofibril 그리고 myosin의 $Mg^{+2}$-ATPase 활성(活性)은 0.05M KCl에서 0.80, 0.42, 0.40으로서 다리부위에서 추출한 단백질(蛋白質)의 활성(活性)인 0.69, 0.33, 0.28 보다 높았다. 가슴부위와 다리부위의 myosin의 ATPase 활성(活性)은 EDTA 농도보다 $Mg^{+2}$농도가 높아지면서 ATPase 활성(活性)을 1/10정도 저해(沮害)시켰고, $Ca^{+2}$ 농도는 $10^{-3}M$에서 400%까지 활성(活性)을 증가시켰다. 가슴부위와 다리부위에서 추출한 actomyosin의 용해되는 시점(始點)은 각각 0.1M KCl 및 0.15 M KCl이었고 myosin인 경우는 각각 0.25 M KCi 및 0.30 M KCl이었다.

• The Korean Journal of Physiology
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• 제29권2호
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• pp.269-277
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• 1995

Membrane vesicles were prepared by differential centrifugation from epithelial cells of porcine trachea. Total activity of microsomal ATPases was measured spectrophotometrically by a coupled enzyme assay. The steady-state activity of the enzyme was $329{\pm}10$ nmol/min mg protein. Thapsigargin, a specific antagonist of intracellular $Ca^{2+}-ATPase$, inhibited about 50% of the activity, leaving $178{\pm}18\;nmol/min .mg$ protein (n=6), indicating that the $Ca^{2+}-ATPase$ is one of the major microsomal ATPases. The microsomes used in this study appeared to be tight-sealed vesicles since they showed saturation in $^{45}Ca^{2+}$ uptake experiments. Inositol 1,4,5-trisphosphate $InsP_{3}, 4\;{\mu}M$, an agonist of $InsP_{3}$-sensitive $Ca^{2+}$ release channel ($InsP_{3}$, receptor), and Ca-ionophore A23187 $(10\;{\mu}M)$ induced $^{45}Ca^{2+}$ releases of 20% and 50% of stored $^{45}Ca^{2+}$, respectively. The addition of $(10\;{\mu}M\;InsP_{3}$ also increased the microsomal ATPase activity from $282{\pm}8$ nmol/min mg protein to $334{\pm}21$ nmol/min . mg protein in the intact vesicles. Similar increase in the activity was observed by making microsomes leaky (uncoupling) using the Ca-ionophore A23187. ;$InsP_{3}-induced$ effects were blocked by either thapsigargin or heparin suggesting that: 1) the $InsP_{3}-induced$ increase in ATPase activity is mediated by microsomal $Ca^{2+}-ATPase$, and 2) dissipation of $Ca^{2+}$ gradient across the microsomal membrane is responsible for the $InsP_{3}-induced$ effect. In order to test the dependence of the $Ca^{2+}-ATPase$ activity on the activity of $InsP_{3}-induced$ the activity of ATPases was monitored in various concentrations of free $Ca^{2+}$ using $EGTA-Ca^{2+}$ buffers. The $Ca^{2+}$-dependent biphasic change is the well-known character of $InsP_{3} receptor but not of microsomal $Ca^{2+}-ATPase$ in non-excitable cells; however, the activity of microsomal ATPase appeared biphasic and a maxim진 activity of $397{\pm}36nmol/min\;.mg$ protein was obtained in the solution containing 100 nM free $Ca^{2+}$. Below or above this concentration, the activity of ATPases was lower. These results strongly support a positive correlation of microsomal $Ca^{2+}-ATPase$ to the $InsP_{3}$ receptors in epithelial microsomes.

• Applied Biological Chemistry
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• 제45권2호
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• pp.53-58
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• 2002

Quinacrine은 수소이온 농도변화에 민감한 형광 probe로서 양성자와 결합하지 않은 형광형이나, 양성자와 결합한 비형광형으로 존재한다. 따라서, quinacrine은 $H^+-ATPase$에 의한 수소이온이동 활성 측정에 이용된다. 본 연구에서는 토마조 뿌리조직에서 분리한 마이크로솜에서 quinacrine의 형광성을 이용한 $H^+-ATPase$ 활성측정의 최적 조건을 조사하였다. Quinacrine의 형광변화는 반응용액 중의 단백질 함량이 $0.43{\mu}g/{\mu}l$에서25-26% 감소하여 10%의 quinacrine 형광을 감소시키는 데 약 100nmo1/min의 $H^+-ATPase$ 활성이 필요함을 알 수 있었다. Quinacrine의 최대 형광변화는 pH 7.0-7.2 범위와 $2mM\;Mg^{2+}$ 조건에서 일어났다. 이것은 기존에 보고한 $H^+-ATPase$의 특성과 일치하여, quinacrine의 형광변화가 $H^+-ATPase$의 활성을 잘 반영하고 있음을 보인다. 원형질막 및 액포막 $H^+-ATPase$들의 선택적 저해제인 vanadate와 $NO_3-$는 각각의 효소에 의한 수소이온이동 활성을 저해하는데 성공적임을 확인하였다. 이상의 결과로 quinacrine이 토마토 뿌리조직에서 분리한 마이크로솜의 수소이온이동 활성측정에 유용하게 이용될 수 있음을 확인하였다.

• The Korean Journal of Physiology
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• 제23권1호
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• pp.23-34
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• 1989

Gentamicin (GM) is a polybasic, aminoglycoside antibiotic used frequently for the treatment of serious gram-negative infections. The major limiting factors in the clinical use of GM as well as other aminoglycoside antibiotics are their nephrotoxicity and ototoxicity. The primary mechanism of cell injury in aminoglycoside toxicity appears to be the disruption of normal membrane function and the inhibition of $Na^{+}-K^{+}$ ATPase activity. There are both indirect and direct evidences which suggests that the effect of aminoglycoside antibiotics on $Na^{+}-K^{+}$ ATPase may explain, or contribute to, their toxicity. It has been shown that aminoglycoside reduce total ATPase activity (Kaku et al., 1973) and $Na^{+}-K^{+}$ ATPase activity (linuma et al., 1967) in the stria vascularis and spiral ligament of the guinea-pig cochlea. Lipsky and Lietman (1980) reported that aminoglycoside antibitoics inhibited the activity of $Na^{+}-K^{+}$ ATPase in microsomal fractions of the cortex and medulla of the guinea-pig kidney, isolated rat renal tubule and human erythrocyte ghosts. The present invstigation was undertaken to elucidate the mechanism of GM on human erythrocytes by examining its effect on $Na^{+}-K^{+}$ ATPase activity, actives sodium and potassium transport across red blood cell and $^{3}H-ouabain$ binding to red blood cell membranes. The results obtained are summarized as follows: 1) CM inhibited significantly both the activity of total ATPase and $Na^{+}-K^{+}$ ATPase at all concentrations tested. 2) GM inhibited active $^{22}Na$ efflux across red blood cell. When ouabain is present, the rate of $^{22}Na$ efflux was completely inhibited. When both GM and ouabain were added, the inhibitory effect of active $^{22}Na$ efflux was more pronounced. 3) Active $^{86}Rb$ influx was inhibited significantly by GM. In the presence of ouabain, the rate of $^{86}Rb$ influx is markedly inhibited. But $^{86}Rb$ influx is not appreciably altered by the presence of both GM and ouabain. 4) In the presence of GM, $^{3}H-ouabain$ binding to red blood cell membrane increased. From the above results, it may be concluded that the inhibition of active sodium and potassium transport across red blood cell by gentamicin appears to be due to the inhibition of $Na^{+}-K^{+}$ ATPase activity and an increase in ouabain binding to red blood cell membranes.

• 분석과학
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• 제5권4호
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• pp.477-484
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• 1992

형질 전환된 사철느타리버섯으로부터 초원심분리 및 설탕밀도 기울기법으로 44% 층에서 미토콘드리아를 분리정제하였다. ATPase와 ATP synthase의 최적 활성조건은 각각 pH 7.4, $60^{\circ}C$ 및 pH 7.5, $57^{\circ}C$였고, km값은 11.6mM과 8.4mM였다. ATPase는 기질농도 5~6mM의 ATP에서, ATP synthase는 5~10mM ADP 농도에서 활성이 높으며, 그 이상의 농도에서는 기질 저해를 받았다. ATPase/ATP synthase 모두 $Mg^{2+}$ 의존성 효소로 $G_{418}$으로 비경쟁적인 저해를 받았다. 효소의 아미노산 분석결과 hydrophobic 아미노산 잔기는 50.5%, small 아미노산 잔기는 56.1%, hydrogen bonding 아미노산 잔기는 43.7%, helix breaking 아미노산 잔기는 55.2%였다. 인지질을 분석한 결과 phosphatidyl glycerol, phosphatidyl choline 및 phosphatidyl ethanolamine으로 구성되었고 phosphatidyl serine과 phosphatidyl inositol은 전혀 없었다. 포화 지방산은 palmitate(51.31%)와 stearate(18.32%)의 함량이 많았고, 불포화 지방산($C_{18:1}$, $C_{18:2}$ 및 $C_{16:1}$)의 함량도 많았다.

• Radiation Oncology Journal
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• 제12권2호
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• pp.129-141
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• 1994

Intracellular ions which have a major role in cellular function have been reported to affect repair of radiation damage. Recently it has been reported that ouabain sensitizes A549 tumor cellls but not CCL-120 normal cells to radiation. Ouabain inhibits the $Na^+-K^+$-pump rapidly thus it increases intracellular Na concentration, Vanadate which is distributed extensively in almost all living organisms is known to be a $Na^+-K^+$-ATPase inhibitors, This study was performed to see any change in radiosensitivity of tumor cell by vanadate and any role of $Na^+-K^+$ATPase in radiosensitization. Experiments have been carried out by pretreatment with vanadate in human cell line(A549, JMG) and mouse cell line(L1210, spleen). For the cell survival MTT assay was performed for A549 and JMC cells and frypan blue dye exclusion test for L120, and spleen cells. Measurements of $Na^+-K^+$-ATPase activity in control, vanadate treated cell, radiation treated cell (9 Gy for A549 and JMG, 2 Gy for L1201, spleen), and combined $10^{-6}M$ vanadate and radiation treated cells were done. The results were summerized as fellows. 1. L1210 cell was most radiosensitive, and spleen cell and JMG cell were intermediate, and A549 cell was least radiosensitive. 2. Mininum or no cytotoxicity was seen with vanadate below concentration of $10^{-6}M$. 3. In A549 cells there was a little change in radiosensitivity with treatment of vanadate. However radiation sensitization was shown in low dose level of radiation i. e. 2- Gy. In JMG cells no change in radiosensitivity was noted. Both L1210 and spleen cell had radiosensitization but change was greater in tumor cell. 4. $Na^+-K^+$-ATPase activity was inhibited significantly in tumor cell by treatment of vanadate. 5. Radiaiton itself inhibited $Na^+-K^+$-ATPase activity of tumor cell with high $Na^+-K^+$-ATPase concention. Increase in radiosensitivity by vanadate was closely associated with orginal $Na^+-K^+$-ATPase contents. From the above results vanadate had little cytotoxicity and it sensitized tumor cells to radiation. Inhibitory effect of vanadate on $Na^+-K^+$-ATPase activity might be one of the contributing factors for radiosensitization to tumor cells which has greater enzyme activity than that of normal cell. It was suggested vanadate could be used as a potential radiosensitizer for tumor cells.

• 약학회지
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• 제41권3호
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• pp.345-351
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• 1997

The purpose of this investigation was to determine the inhibition of $Na^+,\;K^+$-ATPase, cyclicAMP phophodiesterase and platelet activation by secondary metabolites isolated from mar ine organisms. The secondary metabolites were isolated and identified as six diterpenoids(1 : astrogorgin, 2 : ophirin, 3 : calicophirin B, 4, 5 and 6 : cladiellin) from the dichloromethane extract of Muricellajsp., four ceramides(1,2,3, and 4) from Acabaria undulata and three antharaquinones(1,2 : crysophanol, and 3 : physcion) from Urechis unicintus. The results demonstrated that diterpenoids(2,3, and 4) showed the inhibition of cyclicAMP phosphodiesterase, and ceramides(1,3, and 4) showed the inhibition of cyclicAMP phosphodiesterase and thrombin(0.1 units/ml)-induced aggregation of washed rabbit platelet, and anthrapuinones((1,2, and 3) showed the inhibition of $Na^+,\;K^+$-ATPase. Among the anthraquionones, 1,2-dimethoxy-3-methyl-8-hydroxy-anthraquinone(1) showed the inhibition of collagen(1.0 ${\mu}g$/ml)-induced aggregation in a concenration-dependent manner with IC50 value of 42.8 ${\mu}g$M.

• The Korean Journal of Physiology and Pharmacology
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• 제3권2호
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• pp.175-182
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• 1999

In the present study, the underlying mechanisms for diabetic functional derangement and insulin effect on diabetic cardiomyopathy were investigated with respect to sarcoplasmic reticulum (SR) $Ca^{2+}-ATPase$ and phospholamban at the transcriptional and translational levels. The maximal $Ca^{2+}$ uptake and the affinity of $Ca^{2+}-ATPase$ for $Ca^{2+}$ were decreased in streptozotocin-induced diabetic rat cardiac SR, however, even minimal amount of insulin could reverse both parameters. Levels of both mRNA and protein of phospholamban were significantly increased in diabetic rat hearts, whereas the mRNA and protein levels of SR $Ca^{2+}-ATPase$ were significantly decreased. In case of phospholamban, insulin treatment reverses these parameters to normal levels. Minimal amount of insulin could reverse the protein levels; however, it could not reverse the mRNA level of SR $Ca^{2+}-ATPase$ at all. Thus, the decreased SR $Ca^{2+}$ uptake appear to be largely attributed to the decreased SR $Ca^{2+}-ATPase$ level, which is further impaired due to the inhibition by the increased level of phospholamban. These results indicate that insulin is involved in the control of intracellular $Ca^{2+}$ in the cardiomyocyte through multiple target proteins via multiple mechanisms for the decrease in the mRNA for both SR $Ca^{2+}-ATPase$ and phospholamban which are unknown and needs further study.