• Archives of Pharmacal Research
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• 제26권8호
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• pp.631-637
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• 2003

Chloroquine has been used for many decades in the prophylaxis and treatment of malaria. It is metabolized in humans through the N-dealkylation pathway, to desethylchloroquine (DCQ) and bisdesethylchloroquine (BDCQ), by cytochrome P450 (CYP). However, until recently, no data are available on the metabolic pathway of chloroquine. Therefore, the metabolic pathway of chloroquine was evaluated using human liver microsomes and cDNA-expressed CYPs. Chloroquine is mainly metabolized to DCQ, and its Eadie-Hofstee plots were biphasic, indicating the involvement of multiple enzymes, with apparent $K_m and V_{max}$ values of 0.21 mM and 1.02 nmol/min/mg protein 3.43 mM and 10.47 nmol/min/mg protein for high and low affinity components, respectively. Of the cDNA-expressing CYPs examined, CYP1A2, 2C8, 2C19, 2D6 and 3A4/5 exhibited significant DCQ formation. A study using chemical inhibitors showed only quercetin (a CYP2C8 inhibitor) and ketoconazole (a CYP3A4/5 inhibitor) inhibited the DCQ formation. In addition, the DCQ formation significantly correlated with the CYP3A4/5-catalyzed midazolam 1-hydroxylation (r=0.868) and CYP2C8-catalyzed paclitaxel 6$\alpha$-hydroxylation (r = 0.900). In conclusion, the results of the present study demonstrated that CYP2C8 and CYP3A4/5 are the major enzymes responsible for the chloroquine N-deethylation to DCQ in human liver microsomes.

• 대한약리학회지
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• 제29권2호
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• pp.275-282
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• 1993

Microsomal epoxide hydrolase (mEH)은 epoxide형 중간대사물을 해독화하는 효소이다. 본 실험실에서는 thiazole 또는 pyrazine을 rat에 투여할 때 mEH mRNA수준이 증가되고 mEH가 유도증가한다는 것을 밝힌바 있다(Carcinogenesis, Kim et al, 1993). 본 연구에서는 Thiazole처리를 한 rat의 간 microsome 분획으로 부터 DEAE-cellulose column chromatography를 이용하여 mEH를 순수분리하였고, 이를 SDS-PAGE분석 및 N 말단 amino acid 서열분석으로 확인하였다. Pyrazine처리를 한 rat의 간 microsome분획에서는 mEH와 더불어 이와 관련된 43 kDa 단백질이 함께 정제되었다. 정제된 thiazole 유도성 mEH를 토끼에 주사하여 항체를 생산하였고, 이 항체를 이용한 immunoblot 분석을 하였을 때 간 microsome 분획의 mEH가 thiazole투여군에서는 대조군에 비하여 10배, pyrazine 투여군에서 7배 증가하였다. Pyrazine처치한 rat의 간 microsome 분획에서는 mEH 관련성 43 kDa 단백질이 동시 유도증가하는 것을 면역화학적 반응으로도 확인하였다. 이때 Pyrazine으로 유도된 rat의 간 microsome 분획 또는 정제분획에 존재하는 43 kDa 단백질과 mEH의 비율은 1 : 15로 나타났다. 정제된 mEH와 43 kDa 단백질의 N 말단 amino acid 서열을 분석하였을때 43 kDa 단백질의 N 말단이 mEH와 동일하게 나타나 관련 단백질임을 확인하였다. 이러한 mEN 유도현상에 종차가 있는지를 알아보기 위하여 thiazole과 pyrazine을 각각 rabbit에 투여하였을 때 rabbit에서 는 mEH의 유도증가가 일어나지 않았으며, pyrazine 투여군에서 43 kDa 단백질의 증가는 관찰 되었다. 본 연구는 thiazole 또는 pyrazine 투여후 mEH 발현이 유도증가되며, pyrazine 투여 후에는 mEH 및 이와 관련된 43 kDa 단백질이 동시유도되고, 이러한 mEH 유도발현에 rat와 rabbit간에는 종차가 있음을 보여준다.

• 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.

• Archives of Pharmacal Research
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• 제28권11호
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• pp.1287-1292
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• 2005

KR-33028 (N-[4-cyano-benzo[b]thiophene-2-carbonyl]guanidine) is a new cardioprotective agent for preventing ischemia-reperfusion injury. This study was performed to identify the metabolic pathway of KR-33028 in human liver microsomes and to compare its metabolism with that of cryopreserved human hepatocytes. Human liver microsomal incubation of KR-33028 in the presence of NADPH and UDPGA resulted in the formation of four metabolites, M1, M2, M3, and M4. M1 and M2 were identified as 5-hydroxy-KR-33028 and 7-hydroxy-KR-33028, respectively, on the basis of LC/MS/MS analysis with the synthesized authentic standard. M3 and M4 were suggested to be dihydroxy-KR-33028 and hydroxy-KR-33028-glucuronide, respectively. Metabolism of KR-33028 in cryopreserved human hepatocytes resulted in the formation of M1, M2, and M4. These data show a good correlation between major metabolites formed in human liver microsomes and cryopreserved human hepatocytes. In addition, KR­33028 was found to inhibit moderately the metabolism of CYP1A2 substrates. Based on the results obtained metabolic pathway of KR-33028 is proposed.

• 한국생물물리학회:학술대회논문집
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• 한국생물물리학회 1997년도 학술발표회
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• pp.22-22
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• 1997

The physiological activity of tracheal epithelial cells is closely related with the ionic conditions of cytosol, specially the concentration of cytosolic Ca$\^$2＋/. We have prepared microsomes in these cells and the molecular mechanisms of ionic regulations were investigated.(omitted)

• 대한약학회:학술대회논문집
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• 대한약학회 2000년도 춘계총회 및 학술대회
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• pp.219.1-219.1
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• 2000

• 대한약학회:학술대회논문집
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• 대한약학회 2000년도 NEW STRATEGY FOR DRUG DEVELOPMENT IN POST-GENOMIC ERA(대한약학회)
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• pp.271.1-271.1
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• 2000

• 한국식품영양과학회지
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• 제29권3호
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• pp.531-536
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• 2000

뽕나무 (Morus alba) 및 꾸지뽕나무(Cudrania tricuspidata) 잎으로부터 추출한 수용성 물질을 0.5% 콜레스테롤 투여 식이에 1%(w/w) 수준으로 첨가하여 각 조직에서의 지질 과산화물 생성정도를 나타내는 TBARS 측정법으로 항산화 활성을 검토하였다. 흰쥐의 체중 및 식이 섭취량은 실험군 간의 유의적인 차이는 없었다. 간장 및 뇌 조직 중량은 뽕잎 추출물군에서 증가하였다. 신장의 지질 과산화물 함량은 대조군에 비해서 뽕잎 추출물군에서 유의적으로 감소하였다. 뇌 및 심장의 지질 과산화에서 유의적으로 감소하였다. 뇌 및 심장의 지질 과산화물 함량은 대조군에 비교해서 꾸지뽕잎 추출물군에서 유의적으로 증가하였다. 간장 및 비장의 경우에는 각 실험군 간에 유의적인 차이가 없었다. 각 조직의 microsomes 분획으 지질 과산화물은 심장과 비장에서 뽕잎 및 꾸지뽕잎 추출물군에서 감소하였으나, 다른 조직에서는 현저한 차이가 없었다. 한편, 각 조직의 microsomes 분획을 얻어서 Fe2+/ascorbate로 지질 과산화물을 유도하기 위하여 37$^{\circ}C$에서 한시간 반응을 시킨 결과, 뽕잎 및 꾸지뽕잎 추출물군에서 약 절반 정도 감소하였으며, 상대적 증가량은 뇌조직 microsomes에서 현저하였다. 본 실험의 결과 신장조직 및 간장 microsome막 지질 과산화물 함량은 뽕잎 및 꾸지뽕잎 수용성 추출물에 의해 감소되었으며, 뇌 및 심장조직의 지질 과산화물 함량은 꾸지뽕잎 수용성 추출물에 의해 증가됨으로써 봉잎 추출물간의 차이를 나타내었다.

• 한국식품영양학회지
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• 제10권1호
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• pp.37-43
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• 1997

본 연구는 지질의 과산화에 대한 항산화 효과를 조사하기 위하여 엉겅퀴(Silybum marianum)로부터 silymarin 및 silybin을 정제하여 실험하였다. Silymarin 및 silybin은 xanthine oxidase system에서 superoxide anion의 생성을 억제하였다. 쥐의 간 mitochondria에서는 silymarin 및 silybin은 reduced nicotinamide adenine dinucleotide phosphate(NADPH)에 의해 효과적 또는 ascorbic acid 또는 Fenton's reagent에 의하여 비효소적으로 유도되는 지질의 과산화를 억제하였다. 또 mitochondria의 지질과산화도 silymarin 및 silybin에 의하여 억제되었고 NADPH 의존 cychrome P-450 reductase에 의한 Fe2+의 산화도 silymarin 및 silybin에 의하여 억제되었다. Silymarin 및 silybin은 microsome의 효소 시스템 및 linoleic acid hydroperoxide induced peroxidation system에서 지질의 과산화의 연쇄반응에서 유리기의 억제효과가 있었다.

• Archives of Pharmacal Research
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• 제29권11호
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• pp.984-989
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• 2006

1-Furan-2-yl-3-pyridin-2-yl-propenone (FPP-3) has been characterized to have an anti-inflammatory activity through the inhibition of the production of nitric oxide and tumor necrosis $factor-{\alpha}$. In the present studies, the phase 1 metabolism of FPP-3 was investigated in rat liver microsomes and cytosols. When FPP-3 was incubated with rat liver microsomes and cytosols in the presence of NADPH. 2 major peaks were detected on a liquid chromatography/electrospray ionization-mass spectrometry. Two metabolites (i.e., M1 and M2) were characterized as reduced forms on propenone: M1 (1-furan-2-yl-3-pyridin-2-yl-propan-1-one) was the initial metabolite and M2 (1-furan-2-yl-3-pyridin-2-yl-propan-1-ol) was a secondary alcohol believed to be formed from M1.