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MMP-12 活性较高,MMP-3 稳定性和灵活性增强,二者似乎存在此消彼长的关系。

Apparent tradeoff of higher activity in MMP-12 for enhanced stability and flexibility in MMP-3.

机构信息

Department of Biochemistry, University of Missouri, Columbia, Missouri, USA.

出版信息

Biophys J. 2010 Jul 7;99(1):273-83. doi: 10.1016/j.bpj.2010.04.002.

DOI:10.1016/j.bpj.2010.04.002
PMID:20655856
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2895380/
Abstract

The greater activity of MMP-12 than MMP-3 toward substrates from protein fibrils has been quantified. Why is MMP-12 the more active protease? We looked for behaviors associated with the higher activity of MMP-12 than MMP-3, using nuclear magnetic resonance to monitor backbone dynamics and residue-specific stabilities of their catalytic domain. The proteolytic activities are likely to play important roles in inflammatory diseases of arteries, lungs, joints, and intestines. Nuclear magnetic resonance line broadening indicates that regions surrounding the active sites of both proteases sample conformational substates within milliseconds. The more extensive line broadening in MMP-3 suggests greater sampling of conformational substates, affecting the full length of helix B and beta-strand IV forming the active site, and more remote sites. This could suggest more excursions to functionally incompetent substates. MMP-3 also has enhanced subnanosecond fluctuations in helix A, in the beta-hairpin of strands IV and V, and before and including helix C. Hydrogen exchange protection in the EX2 regime suggests that MMP-3 possesses 2.8 kcal/mol higher folding stability than MMP-12(E219A). The beta-sheet of MMP-3 appears to be stabilized still more. The higher stability of MMP-3 relative to MMP-12 coincides with the former's considerably lower proteolytic activity. This relationship is consistent with the hypothesis that enzymes often trade stability for higher activity.

摘要

已经定量了 MMP-12 对来自蛋白质原纤维的底物的活性高于 MMP-3。为什么 MMP-12 是更活跃的蛋白酶?我们使用核磁共振监测其催化结构域的骨架动力学和残基特异性稳定性,寻找与 MMP-12 比 MMP-3 更高活性相关的行为。蛋白酶的活性可能在动脉、肺、关节和肠道的炎症性疾病中发挥重要作用。核磁共振线宽表明,两种蛋白酶的活性位点周围的区域在毫秒内采样构象亚稳态。MMP-3 中更广泛的线宽表明构象亚稳态的采样更多,影响形成活性位点的 B 螺旋和 IV 链的β-折叠的全长,以及更远的位点。这可能表明更多的功能无效亚稳态的偏移。MMP-3 还在 A 螺旋、IV 和 V 链的β发夹以及 C 螺旋之前和包括 C 螺旋在内,具有增强的亚纳秒波动。在 EX2 区的氢交换保护表明,MMP-3 比 MMP-12(E219A)具有 2.8 千卡/摩尔更高的折叠稳定性。MMP-3 的β-折叠似乎更稳定。MMP-3 相对于 MMP-12 的稳定性增加与前者的蛋白酶活性显著降低一致。这种关系与酶经常通过稳定性换取更高活性的假设一致。

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