• 제목/요약/키워드: serpin

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동양달팽이 (Nesiohelix samarangae) 의 expressed sequence tags (ESTs) 로부터 분리한 2종류의 Serpin 유전자 분석 (Identification and in silico analysis of two types of serpin genes from expressed sequence tags (ESTs) of the Oriental land snail, Nesiohelix samarangae)

  • 박소영;정지은;황희주;왕태훈;박은비;김용민;이준상;한연수;양승하;이용석
    • 한국패류학회지
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    • 제30권2호
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    • pp.155-163
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    • 2014
  • 동양달팽이의 EST 에서 serpin 유전자는 2가지 type이 추정되었다. Ns-serpin type 1 (partial) 서열의 코딩 영역은 총 819 bp 이었으며, 272개의 아미노산으로 이루어져 있었으며, Ns-serpin type 2 (partial) 의 코딩영역은 총 555 bp, 185개의 아미노산으로 이루어져 있었다. Laminarin 처리 전에는 Ns-serpin type 1이 2개 발현되었으며 처리 후에는 Ns-serpin type 2가 1개 발현되고 있었다. BLAST 결과를 바탕으로 유사도가 높은 17개의 참고 서열과 동양달팽이의 Ns-serpin type 1, 2의 아미노산 서열을 MEGA6 프로그램의 clustalW 엔진을 이용하여 multiple sequence alignment 를 수행한 결과, 척색동물의 포유강 9종, 조류강 1종, 양서강 1종과 척색동물인 해초강, 절지동물의 거미강 1종과 곤충강 1종이 같은 군으로 묶였으며, 연체동물문의 경우 동양달팽이의 두 가지 type 을 포함한 복족강 4종이 같은 군으로 묶이는 것을 확인하였다. Psipred 프로그램을 활용하여 예측한 2D 구조도 multiple align 및 phylodendrogram 결과와 연관이 있음을 확인할 수 있었다. EST를 통해 밝힌 동양달팽이의 두 가지 type의 Ns-serpin 서열은 Aplysia californica 등의 근연종들의 서열과 유사하였다. 본 연구에서는 무척추동물에서의 선천성 면역과 연관이 있는 것으로 잘 알려진 두 종류의 serpin 유전자 서열을 동양달팽이 EST 결과에서 발굴 하였으며, 동양달팽이에서도 여러 가지 type의 serpin 이 존재 할 수 있음을 입증하였다.

Anti-Apoptotic Effects of SERPIN B3 and B4 via STAT6 Activation in Macrophages after Infection with Toxoplasma gondii

  • Song, Kyoung-Ju;Ahn, Hye-Jin;Nam, Ho-Woo
    • Parasites, Hosts and Diseases
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    • 제50권1호
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    • pp.1-6
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    • 2012
  • $Toxoplasma$ $gondii$ penetrates all kinds of nucleated eukaryotic cells but modulates host cells differently for its intracellular survival. In a previous study, we found out that serine protease inhibitors B3 and B4 (SERPIN B3/B4 because of their very high homology) were significantly induced in THP-1-derived macrophages infected with $T.$ $gondii$ through activation of STAT6. In this study, to evaluate the effects of the induced SERPIN B3/B4 on the apoptosis of $T.$ $gondii$-infected THP-1 cells, we designed and tested various small interfering (si-) RNAs of SERPIN B3 or B4 in staurosporine-induced apoptosis of THP-1 cells. Anti-apoptotic characteristics of THP-1 cells after infection with $T.$ $gondii$ disappeared when SERPIN B3/B4 were knock-downed with gene specific si-RNAs transfected into THP-1 cells as detected by the cleaved caspase 3, poly-ADP ribose polymerase and DNA fragmentation. This anti-apoptotic effect was confirmed in SERPIN B3/B4 overexpressed HeLa cells. We also investigated whether inhibition of STAT6 affects the function of SERPIN B3/B4, and vice versa. Inhibition of SERPIN B3/B4 did not influence STAT6 expression but SERPIN B3/B4 expression was inhibited by STAT6 si-RNA transfection, which confirmed that SERPIN B3/B4 was induced under the control of STAT6 activation. These results suggest that $T.$ $gondii$ induces SERPIN B3/B4 expression via STAT6 activation to inhibit the apoptosis of infected THP-1 cells for longer survival of the intracellular parasites themselves.

Elucidation of Serpin's Conformational Switch Mechanism By Rapid Kinetic Study

  • Kang, Un-Beom;Lee, Cheolju;Baek, Je-Hyun;Seunghyun Ryu;Kim, Joon;Yu, Myeong-Hee
    • 한국생물물리학회:학술대회논문집
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    • 한국생물물리학회 2003년도 정기총회 및 학술발표회
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    • pp.62-62
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    • 2003
  • The native form of serpin (serine protease inhibitor) is kinetically trapped in metastable state. Metastability in these proteins is critical to their biological function. Serpins inhibit target proteases by forming a stable covalent complex in which the cleaved reactive site loop of the serpin is inserted into $\beta$-sheet A of the serpin with concomitant translocation of the protease to the opposite of the initial binding site. Despite recent determination of the crystal structures of a Michaelis protease-serpin complex as well as a stable covalent complex, details on the kinetic mechanism remain unsolved. In this study we constructed several $\alpha$$_1$-antitrypsin variants and examined their kinetic mechanism of loop translocation and formation of protease-serpin complex by stopped-flow experiments of fluorescence resonance energy transfer as well as quenched-flow experiment. We report here the relationship of serpin's conformational switch mechanism with Inhibitory activity. There is little direct correlation between loop insertion rate and inhibitory activity. Rather, disrupting a salt bridge between R196 and E354 accelerates loop translocation even though it impairs the inhibitory activity. Moreover, the serpin's reactive site loop is translocated, at least partially, prior to loop cleavage.

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Conformational Switch of the Strained Native Serpin Induced by Chemical Cleavage of the Reactive Center Loop

  • Im, Ha-Na;Yu, Myeong-Hee
    • BMB Reports
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    • 제33권5호
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    • pp.379-384
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    • 2000
  • The native conformation of serpins (serine protease inhibitors) is strained. Upon cleavage of the reactive center loop of serpins by a protease, the amino terminal portion of the cleaved loop is inserted into the central ${\beta}-sheet$, A sheet, as the fourth strand, with the concomitant release of the native strain. We questioned the role of protease in this conformational switch from the strained native form into a stable relaxed state. Chemical cleavage of the reactive center loop of ${\alpha}_1-antitrypsin$, a prototype serpin, using hydroxylamine dramatically increased the stability of the serpin. A circular dichroism spectrum and peptide binding study suggests that the amino terminal portion of the reactive center loop is inserted into the A sheet in the chemically-cleaved ${\alpha}_1-antitrypsin$, as in the enzymatically-cleaved molecule. These results indicate that the structural transformation of a serpin molecule does not require interaction with a protease. The results suggest that the serpin conformational switch that occurred during the complex formation with a target protease is induced by the cleavage of the reactive center loop per se.

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Determination of Translocation and Deacylation Rate Constants for Complex Formation between Serpin and Protease

  • Shin, Jong-Shik;Yu, Myeong-Hee
    • 한국생물물리학회:학술대회논문집
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    • 한국생물물리학회 2001년도 학술 발표회 진행표 및 논문초록
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    • pp.62-62
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    • 2001
  • Serpins inhibit target proteases by forming tight acyl complex Via incorporation of the reactive center loop into ${\beta}$-sheet A. Metastability of the serpins control the translocation of the protease from the initial binding site to the opposite pole of the serpin. Recently the crystal structure of a serpin-protease complex revealed that the active site of the protease is distorted.(omitted)

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CRYSTAL STRUCTURE OF AN UNCLEAVED $\alpha_1$-ANTITRYPSIN WITH SEVEN STABILIZING MUTATIONS AT 2.7 $\{AA}$ RESOLUTION

  • Ryu, Seong-Eon;Park, Hee-Jeong;Kwon, Ki-Sun;Lee, Kee-Nyung;Yu, Myung-Hee
    • 한국생물물리학회:학술대회논문집
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    • 한국생물물리학회 1996년도 정기총회 및 학술발표회
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    • pp.4-4
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    • 1996
  • $\alpha$$_1$-arantitrypsin, a member of the serpin (serine protease inhibitor) family, undergoes a large structural rearrangement upon the cleavage and insertion of the reactive site loop. This conformational change is driven by the metastability of the native serpin structures and has an important role in the regulation of the inhibitory-serpin function. (omitted)

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Regulatory Role of the Serpin Strain

  • Seo, Eun-Joo;Yu, Myeong-Hee
    • 한국생물물리학회:학술대회논문집
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    • 한국생물물리학회 2002년도 제9회 학술 발표회 프로그램과 논문초록
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    • pp.30-30
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    • 2002
  • The native forms of common globular proteins are in their most stable state but the native forms of plasma serpins (serine protease inhibitors) show high-energy state interactions. The high-energy state strain of a ${\alpha}$$_1$-antitrypsin, a prototype serpin, is distributed throughout the whole molecule, but the strain that regulates the function directly appears to be localized in the region where the reactive site loop is inserted during complex formation with a target protease.(omitted)

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