整合素/塔林相互作用的结构多样性。
Structural diversity in integrin/talin interactions.
机构信息
Department of Biochemistry, University of Oxford, South Parks Road, Oxford OX13DR, UK.
出版信息
Structure. 2010 Dec 8;18(12):1654-66. doi: 10.1016/j.str.2010.09.018.
Abstract
The adhesion of integrins to the extracellular matrix is regulated by binding of the cytoskeletal protein talin to the cytoplasmic tail of the β-integrin subunit. Structural studies of this interaction have hitherto largely focused on the β3-integrin, one member of the large and diverse integrin family. Here, we employ NMR to probe interactions and dynamics, revealing marked structural diversity in the contacts between β1A, β1D, and β3 tails and the Talin1 and Talin2 isoforms. Coupled with analysis of recent structures of talin/β tail complexes, these studies elucidate the thermodynamic determinants of this heterogeneity and explain why the Talin2/β1D isoforms, which are co-localized in striated muscle, form an unusually tight interaction. We also show that talin/integrin affinity can be enhanced 1000-fold by deleting two residues in the β tail. Together, these studies illustrate how the integrin/talin interaction has been fine-tuned to meet varying biological requirements.
摘要
整合素与细胞外基质的黏附受细胞骨架蛋白塔林与β整合素亚基胞质尾部结合的调节。到目前为止,对这种相互作用的结构研究主要集中在β3 整合素上,它是大型和多样化整合素家族的一员。在这里,我们利用 NMR 探测相互作用和动态,揭示了β1A、β1D 和β3 尾部与 Talin1 和 Talin2 同工型之间的接触的显著结构多样性。结合对塔林/β 尾部复合物的最新结构分析,这些研究阐明了这种异质性的热力学决定因素,并解释了为什么定位于横纹肌的 Talin2/β1D 同工型形成异常紧密的相互作用。我们还表明,通过删除β 尾部的两个残基,可将塔林/整合素的亲和力增强 1000 倍。总之,这些研究说明了整合素/塔林相互作用是如何被精细调整以满足不同的生物学需求的。
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