• Title/Summary/Keyword: Inactivator

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ACE 억제작용성 고혈압 강하제 개발

  • 김동한;고차원
    • Proceedings of the Korean Society of Applied Pharmacology
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    • 1994.04a
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    • pp.214-214
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    • 1994
  • 본 실험실에서 개발한 대표적인 함아연 가수분해 효소인 carboxypeptidase A에 선택적으로 작용하는 mechanism-based inactivator의 설계법을 ACE 억제제 개발에 적용하여 고혈 압강하효과가 있을 것으로 기대되는 새로운 형태의 ACE 억제제들을 합성하였다. 그 대표적인 합성경로는 아래와 같다. (Figure Omitted)

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Angiotensin Converting Enzyme에 작용하는 Mechanism-Based Inactivator의 설계와 합성

  • 김동한
    • Proceedings of the Korean Society of Applied Pharmacology
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    • 1993.04a
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    • pp.42-42
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    • 1993
  • Angiotensin converting enzyme (ACE)은 혈압 상승작용과 밀접한 관계가 있는 효소이다. 따라서 이 효소의 작용 억제는 혈압 강하를 초래한다. 본 실험에서는 ACE와 여러점에서 유사점을 가진 Carboxypeptidase A에 대하여 강력한 억제 효과를 나타내는 간단한 구조의 억제제를 개발한 바 있는데. 이때 사용한 억제제 설계방법을 ACE 억제제 개발에 적용시켜 ACE 억제를 통한 고혈압 강하제 개발을 목적으로 하였다. ACE 억제작용에 있어서의 알려진 구조-활성 상관 관계와 ACE의 활성부위를 기초로 해서 아래와 같은 구조의 물질을 억제작용 보유의 물질로 설계하고 합성하였다.

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The Influences of G Proteins, $Ca^{2+}$, and $K^+$ Channels on Electrical Field Stimulation in Cat Esophageal Smooth Muscle

  • Park, Jun-Hong;Kim, Hyun-Sik;Park, Sun-Young;Im, Chae-Uk;Jeong, Ji-Hoon;Kim, In-Kyeom;Sohn, Uy-Dong
    • The Korean Journal of Physiology and Pharmacology
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    • v.13 no.5
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    • pp.393-400
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    • 2009
  • NO released by myenteric neurons controls the off contraction induced by electrical field stimulation (EFS) in distal esophageal smooth muscle, but in the presence of nitric oxide synthase (NOS) inhibitor, L-NAME, contraction by EFS occurs at the same time. The authors investigated the intracellular signaling pathways related with G protein and ionic channel EFS-induced contraction using cat esophageal muscles. EFS-induced contractions were significantly suppressed by tetrodotoxin ($1\;{\mu}M$) and atropine ($1\;{\mu}M$). Furthermore, nimodipine inhibited both on and off contractions by EFS in a concentration dependent meaner. The characteristics of 'on' and 'off contraction and the effects of G-proteins, phospholipase, and $K^+$ channel on EFS-induced contraction in smooth muscle were also investigated. Pertussis toxin (PTX, a $G_i$ inactivator) attenuated both EFS-induced contractions. Cholera toxin (CTX, $G_s$ inactivator) also decreased the amplitudes of EFS-induced off and on contractions. However, phospholipase inhibitors did not affect these contractions. Pinacidil (a $K^+$ channel opener) decreased these contractions, and tetraethylammonium (TEA, ${K^+}_{Ca}$ channel blocker) increased them. These results suggest that EFS-induced on and off contractions can be mediated by the activations Gi or Gs proteins, and that L-type $Ca^{2+}$ channel may be activated by G-protein ${\alpha}$ subunits. Furthermore, ${K^+}_{Ca^-}$ channel involve in the depolarization of esophageal smooth muscle. Further studies are required to characterize the physiological regulation of $Ca^{2+}$ channel and to investigate the effects of other $K^+$ channels on EFS-induced on and off contractions.

Transformation of cis-1,2-Dichlororethylene and its Epoxide by a Butane-Grown Mixed Culture

  • Kim, Young;Lewis Semprini
    • Proceedings of the Korean Society of Soil and Groundwater Environment Conference
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    • 2004.04a
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    • pp.147-152
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    • 2004
  • Aerobic cometabolism of cis-1,2-dichloroethylene (c-DCE) and c-DCE epoxide by a butane-grown mixed culture was evaluated. Transformation of c-DCE resulted in the concomitant generation of c-DCE epoxide. Chloride release studies showed nearly complete oxidative dechlorination of c-DCE (approximately 75%). Mass spectrometry confirmed tile presence of a compound with mass-to-charge-fragment ratios of 112, 83, 48, and 35. The values are in agreement with the spectra of a chemically synthesized c-DCE epoxide. Some evidences indicating the involvement of the monooxygenase in the transformation of c-DCE epoxide are: 1) $O_2$ requirement for c-DCE transformation and butane degradation; 2) butane inhibition on c-DCE transformation and vice versa; 3) the inactivation of c-DCE and c-DCE epoxide transformations by acetylene (a known monooxygenase inactivator); and 4) tire inhibition of c-DCE epoxide transformation by c-DCE.

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Effects of Cysteine on the Inactivation of Bovine Liver Catalase

  • R. Yousefi;A. A. Saboury;M. Ghadermarzi;A. A. Moosavi-Movahedi
    • Bulletin of the Korean Chemical Society
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    • v.21 no.6
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    • pp.567-570
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    • 2000
  • Bovine liver catalase was exposed to cysteine, as a natural inactivator metabolize, causing autoxidation-generating $H_2O_2$ continuously. The catalase species concentrations and activity measurement were done by spectrophotometry in phosphate buffer 10mM, pH 6.5, and 27 $^{\circ}C$. The activity of catalase decreased continuously due to the conversion of active ferricatalase species, E-Fe (III), to an inactive enzyme species, E-Fe (IV). This conversion is related to the slow production of $H_2O_2generated$ by autoxidation of cysteine. The free SH-group of cysteine has an essential role in production of $H_2O_2$ and hence inactivation of catalase. NADPH can protect catalase against inactivation due to the conversion of inactive form of E-Fe (IV) to ferricatalase species, E-Fe (III).

MLCK and PKC Involvements via Gi and Rho A Protein in Contraction by the Electrical Field Stimulation in Feline Esophageal Smooth Muscle

  • Park, Sun-Young;Shim, Jae-Ho;Kim, Mi-Na;Sun, Yih Hsiu;Kwak, Hyun-Soo;Yan, Xiangmei;Choi, Byung-Chul;Im, Chae-Uk;Sim, Sang-Soo;Jeong, Ji-Hoon;Kim, In-Kyeom;Min, Young-Sil;Sohn, Uy-Dong
    • The Korean Journal of Physiology and Pharmacology
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    • v.14 no.1
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    • pp.29-35
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    • 2010
  • We have shown that myosin light chain kinase (MLCK) was required for the off-contraction in response to the electrical field stimulation (EFS) of feline esophageal smooth muscle. In this study, we investigated whether protein kinase C (PKC) may require the on-contraction in response to EFS using feline esophageal smooth muscle. The contractions were recorded using an isometric force transducer. On-contraction occurred in the presence of $N^G$-nitro-L-arginine methyl ester (L-NAME), suggesting that nitric oxide acts as an inhibitory mediator in smooth muscle. The excitatory composition of both contractions was cholinergic dependent which was blocked by tetrodotoxin or atropine. The on-contraction was abolished in $Ca^{2+}$-free buffer but reappeared in normal $Ca^{2+}$-containing buffer indicating that the contraction was $Ca^{2+}$ dependent. 4-aminopyridine (4-AP), voltage-dependent $K^+$ channel blocker, significantly enhanced on-contraction. Aluminum fluoride (a G-protein activator) increased on-contraction. Pertussis toxin (a $G_i$ inactivator) and C3 exoenzyme (a rhoA inactivator) significantly decreased on-contraction suggesting that Gi or rhoA protein may be related with $Ca^{2+}$ and $K^+$ channel. ML-9, a MLCK inhibitor, significantly inhibited on-contraction, and chelerythrine (PKC inhibitor) affected on the contraction. These results suggest that endogenous cholinergic contractions activated directly by low-frequency EFS may be mediated by $Ca^{2+}$, and G proteins, such as Gi and rhoA, which resulted in the activation of MLCK, and PKC to produce the contraction in feline distal esophageal smooth muscle.

Protective Effects of Hwansodan(Huanshao-dan) Water Extract in Serum Deprivation-induced Apoptosis of PC12 Cells (환소단이 영양혈청 결핍성 PC12 신경세포의 apoptosis에 미치는 영향)

  • 임준식;김명선;소홍섭;이지현;한상혁;허윤;박래길;문병순
    • The Journal of Korean Medicine
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    • v.21 no.4
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    • pp.64-72
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    • 2000
  • Objectives : This study was designed to investigate the neuroprotective effect of Hwansodan(Huanshao-dan) on the apoptosis induced by withdrawal of neurotrophic support. Methods : PCl2 pheochromocytoma 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 MTT assay. We used DNA fragmentation and caspase 3-like protease activation assay. Results : The water extract of Hwansodan(Huanshao-dan) significantly showed protective effects on serum and glucose deprivation-induced apoptotic death. Hwansodan(Huanshao-dan) also prevents DNA fragmentation and caspase 3-like protease activation, representing typical neuronal apoptotic phenomena in PCl2 pheochromocytoma cells and induces tyrosine phosphorylation of proteins around 44 kDa, which was identified as ERK1 with electrophoretic gel mobility shift by Western blot. In addition, MAPK kinase(MEK) inhibitor PD98059 and Ras inactivator, ${\alpha}-hydroxyfarnesylphosphonic$ acid attenuated the neuroprotective effects of Hwansodan(Huanshao-dan) in serum-deprived PCl2 cells. Conclusions : These results indicate that Ras/MEK/ERK signaling pathway plays a key role in neuroprotective effects of Hwansodan(Huanshao-dan) in serum-deprived PCl2 cells. Taken together, we suggest the possibility that Hwansodan(Huanshao-dan) might provide a neurotrophic-like activity in PCl2 cells.

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Reaction Characteristics of 4-Methylcatechol 2,3-Dioxygenase from Pseudomonas putida SU10

  • Ha, You-Mee;Jung, Young-Hee;Kwon, Dae-Young;Kim, Young-Soo;Kim, Chy-Kyung;Min, Kyung-Hee
    • Journal of Microbiology and Biotechnology
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    • v.10 no.1
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    • pp.35-42
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    • 2000
  • Reaction characteristics of 4-methylcatechol 2,3-dioxygenase (4MC230) purified from Pseudomonas putida SU10 with a higher activity toward 4-methylcatechol than catechol or 3-cethylcatechol were studied by altering their physical and chemical properties. The enzyme exhibited a maximum activity at pH 7.5 and approximately 40% at pH 6.0 for 4-methylcatechol hydrolysis. The optimum temperature for the enzyme was around $35^{\circ}C$, since the enzyme was unstable at higher temperature. Acetone(10%) stabilized the 4MC230. The effects of solvent and other chemicals (inactivator or reactivator) for the reactivation of the 4MC230 were also investigated. Silver nitrate and hydrogen peroxid severely deactivated the enzyme and the deactivation by hydrogen peroxide severely deactivated the enzyme and the deactivation by hydrogen peroxide was mainly due to the oxidation of ferrous ion to ferric ion. Some solvents acted as an activator and protector for the enzyme from deactivation by hydrogen peroxide. Ascorbate, cysteine, or ferrous ion reactivated the deactivated enzyme by hydrogen peroxide. The addition of ferrous ion together with a reducing agent fully recovered the enzyme activity and increased its activity abut 2 times.

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