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2
Reactive-site mutants of N-TIMP-3 that selectively inhibit ADAMTS-4 and ADAMTS-5: biological and structural implications.N-TIMP-3 的反应位点突变体,选择性抑制 ADAMTS-4 和 ADAMTS-5:生物学和结构意义。
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Calcium pentosan polysulfate is a multifaceted exosite inhibitor of aggrecanases.聚硫酸戊聚糖钙是一种多方面的聚集蛋白聚糖酶外位点抑制剂。
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TIMP-3 inhibition of ADAMTS-4 (Aggrecanase-1) is modulated by interactions between aggrecan and the C-terminal domain of ADAMTS-4.基质金属蛋白酶组织抑制因子-3(TIMP-3)对含血小板反应蛋白基序的解聚蛋白样金属蛋白酶-4(ADAMTS-4,也称软骨聚集蛋白聚糖酶-1)的抑制作用受软骨聚集蛋白聚糖与ADAMTS-4 C端结构域之间相互作用的调节。
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ADAMTS-1 and -4 are up-regulated following transient middle cerebral artery occlusion in the rat and their expression is modulated by TNF in cultured astrocytes.在大鼠大脑中动脉短暂闭塞后,ADAMTS - 1和 - 4上调,并且它们的表达在培养的星形胶质细胞中受肿瘤坏死因子调节。
Brain Res. 2006 May 9;1088(1):19-30. doi: 10.1016/j.brainres.2006.02.136. Epub 2006 Apr 21.
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Low density lipoprotein receptor-related protein 1 (LRP1)-mediated endocytic clearance of a disintegrin and metalloproteinase with thrombospondin motifs-4 (ADAMTS-4): functional differences of non-catalytic domains of ADAMTS-4 and ADAMTS-5 in LRP1 binding.低密度脂蛋白受体相关蛋白 1(LRP1)介导热激金属蛋白酶与血小板反应蛋白 4(ADAMTS-4)的内吞清除:ADAMTS-4 和 ADAMTS-5 的非催化结构域在 LRP1 结合中的功能差异。
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Metalloproteinase and inhibitor expression profiling of resorbing cartilage reveals pro-collagenase activation as a critical step for collagenolysis.正在吸收的软骨的金属蛋白酶和抑制剂表达谱分析显示,前胶原酶激活是胶原溶解的关键步骤。
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Parallel Networks to Predict TIMP and Protease Cell Activity of Nucleus Pulposus Cells Exposed and Not Exposed to Pro-Inflammatory Cytokines.用于预测暴露和未暴露于促炎细胞因子的髓核细胞中组织金属蛋白酶抑制剂(TIMP)和蛋白酶细胞活性的并行网络
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本文引用的文献

1
Three-dimensional domain architecture of the ADAM family proteinases.ADAM 家族蛋白酶的三维结构域架构
Semin Cell Dev Biol. 2009 Apr;20(2):146-52. doi: 10.1016/j.semcdb.2008.07.009. Epub 2008 Jul 26.
2
Structural determinants of the ADAM inhibition by TIMP-3: crystal structure of the TACE-N-TIMP-3 complex.TIMP-3对ADAM抑制作用的结构决定因素:TACE-N-TIMP-3复合物的晶体结构
J Mol Biol. 2008 Sep 19;381(5):1307-19. doi: 10.1016/j.jmb.2008.06.088. Epub 2008 Jul 7.
3
Calcium pentosan polysulfate is a multifaceted exosite inhibitor of aggrecanases.聚硫酸戊聚糖钙是一种多方面的聚集蛋白聚糖酶外位点抑制剂。
FASEB J. 2008 Oct;22(10):3515-24. doi: 10.1096/fj.08-112680. Epub 2008 Jul 16.
4
Extensive contacts between ADAMTS13 exosites and von Willebrand factor domain A2 contribute to substrate specificity.ADAMTS13外位点与血管性血友病因子A2结构域之间的广泛接触决定了底物特异性。
Blood. 2008 Sep 1;112(5):1713-9. doi: 10.1182/blood-2008-04-148759. Epub 2008 May 20.
5
The isolated N-terminal domains of TIMP-1 and TIMP-3 are insufficient for ADAM10 inhibition.基质金属蛋白酶组织抑制因子-1(TIMP-1)和基质金属蛋白酶组织抑制因子-3(TIMP-3)的分离N端结构域不足以抑制ADAM10。
Biochem J. 2008 Apr 15;411(2):433-9. doi: 10.1042/BJ20071430.
6
Functional differences of the catalytic and non-catalytic domains in human ADAMTS-4 and ADAMTS-5 in aggrecanolytic activity.人ADAMTS-4和ADAMTS-5催化结构域与非催化结构域在蛋白聚糖分解活性方面的功能差异。
J Biol Chem. 2008 Mar 14;283(11):6706-16. doi: 10.1074/jbc.M708647200. Epub 2007 Dec 22.
7
Crystal structures of the two major aggrecan degrading enzymes, ADAMTS4 and ADAMTS5.两种主要的聚集蛋白聚糖降解酶ADAMTS4和ADAMTS5的晶体结构。
Protein Sci. 2008 Jan;17(1):16-21. doi: 10.1110/ps.073287008. Epub 2007 Nov 27.
8
High resolution crystal structure of the catalytic domain of ADAMTS-5 (aggrecanase-2).ADAMTS-5(软骨聚集蛋白聚糖酶-2)催化结构域的高分辨率晶体结构。
J Biol Chem. 2008 Jan 18;283(3):1501-1507. doi: 10.1074/jbc.M705879200. Epub 2007 Nov 8.
9
Crystal structures of human ADAMTS-1 reveal a conserved catalytic domain and a disintegrin-like domain with a fold homologous to cysteine-rich domains.人类ADAMTS-1的晶体结构揭示了一个保守的催化结构域和一个与富含半胱氨酸结构域折叠同源的解整合素样结构域。
J Mol Biol. 2007 Nov 2;373(4):891-902. doi: 10.1016/j.jmb.2007.07.047. Epub 2007 Aug 2.
10
Crystal structures of catrocollastatin/VAP2B reveal a dynamic, modular architecture of ADAM/adamalysin/reprolysin family proteins.卡曲胶原酶/血管相关蛋白2B的晶体结构揭示了ADAM/解整合素金属蛋白酶/类蛇毒金属蛋白酶家族蛋白的动态模块化结构。
FEBS Lett. 2007 May 29;581(13):2416-22. doi: 10.1016/j.febslet.2007.04.057. Epub 2007 Apr 30.

ADAMTS-4 和 ADAMTS-5 的 C 端结构域促进与 N-TIMP-3 的结合。

The C-terminal domains of ADAMTS-4 and ADAMTS-5 promote association with N-TIMP-3.

机构信息

Kennedy Institute of Rheumatology, Imperial College London, Hammersmith, London, W6 8LH, UK.

出版信息

Matrix Biol. 2009 Oct;28(8):463-9. doi: 10.1016/j.matbio.2009.07.005. Epub 2009 Jul 28.

DOI:10.1016/j.matbio.2009.07.005
PMID:19643179
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2835468/
Abstract

We investigated whether the affinity of tissue inhibitor of metalloproteinases (TIMP)-3 for adamalysins with thrombospondin motifs (ADAMTS)-4 and ADAMTS-5 is affected by the non-catalytic ancillary domains of the enzymes. For this purpose, we first established a novel method of purifying recombinant FLAG-tagged TIMP-3 and its inhibitory N-terminal domain (N-TIMP-3) by treating transfected HEK293 cells with sodium chlorate to prevent heparan sulfate proteoglycan-mediated TIMP-3 internalization. TIMP-3 and N-TIMP-3 affinity for selected matrix metalloproteinases and forms of ADAMTS-4 and -5 lacking sequential C-terminal domains was determined. TIMP-3 and N-TIMP-3 displayed similar affinity for various matrix metalloproteinases as has been previously reported for E. coli-expressed N-TIMP-3. ADAMTS-4 and -5 were inhibited more strongly by N-TIMP-3 than by full-length TIMP-3. The C-terminal domains of the enzymes enhanced interaction with N-TIMP-3 and to a lesser extent with the full-length inhibitor. For example, N-TIMP-3 had 7.5-fold better K(i) value for full-length ADAMTS-5 than for the catalytic and disintegrin domain alone. We propose that the C-terminal domains of the enzymes affect the structure around the active site, favouring interaction with TIMP-3.

摘要

我们研究了组织金属蛋白酶抑制剂(TIMP)-3 与具有血小板反应蛋白基序的解聚素金属蛋白酶(ADAMTS)-4 和 ADAMTS-5 的亲和力是否受酶的非催化辅助结构域的影响。为此,我们首先通过用氯酸钠处理转染的 HEK293 细胞来防止肝素硫酸蛋白聚糖介导的 TIMP-3 内化,建立了一种纯化重组 FLAG 标记的 TIMP-3 和其抑制性 N 端结构域(N-TIMP-3)的新方法。确定了 TIMP-3 和 N-TIMP-3 对选定的基质金属蛋白酶和缺乏连续 C 端结构域的 ADAMTS-4 和 -5 形式的亲和力。TIMP-3 和 N-TIMP-3 对各种基质金属蛋白酶的亲和力与先前报道的大肠杆菌表达的 N-TIMP-3 相似。N-TIMP-3 比全长 TIMP-3 更强烈地抑制 ADAMTS-4 和 -5。酶的 C 端结构域增强了与 N-TIMP-3 的相互作用,并在较小程度上增强了与全长抑制剂的相互作用。例如,N-TIMP-3 对全长 ADAMTS-5 的 K(i) 值比单独的催化和解聚结构域高 7.5 倍。我们提出,酶的 C 端结构域影响活性位点周围的结构,有利于与 TIMP-3 的相互作用。