潜伏 TGF-β1 复合物的单分子力学。

The single-molecule mechanics of the latent TGF-β1 complex.

机构信息

Laboratory of Cell Biophysics, Ecole Polytechnique Fédérale de Lausanne, 1015 Lausanne, Switzerland.

出版信息

Curr Biol. 2011 Dec 20;21(24):2046-54. doi: 10.1016/j.cub.2011.11.037. Epub 2011 Dec 8.

DOI:10.1016/j.cub.2011.11.037

PMID:22169532

Abstract

BACKGROUND

TGF-β1 controls many pathophysiological processes including tissue homeostasis, fibrosis, and cancer progression. Together with its latency-associated peptide (LAP), TGF-β1 binds to the latent TGF-β1-binding protein-1 (LTBP-1), which is part of the extracellular matrix (ECM). Transmission of cell force via integrins is one major mechanism to activate latent TGF-β1 from ECM stores. Latent TGF-β1 mechanical activation is more efficient with higher cell forces and ECM stiffening. However, little is known about the molecular events involved in this mechanical activation mechanism.

RESULTS

By using single-molecule force spectroscopy and magnetic microbeads, we analyzed how forces exerted on the LAP lead to conformational changes in the latent complex that can ultimately result in TGF-β1 release. We demonstrate the unfolding of two LAP key domains for mechanical TGF-β1 activation: the α1 helix and the latency lasso, which together have been referred to as the "straitjacket" that keeps TGF-β1 associated with LAP. The simultaneous unfolding of both domains, leading to full opening of the straitjacket at a force of ~40 pN, was achieved only when TGF-β1 was bound to the LTBP-1 in the ECM.

CONCLUSIONS

Our results directly demonstrate opening of the TGF-β1 straitjacket by application of mechanical force in the order of magnitude of what can be transmitted by single integrins. For this mechanism to be in place, binding of latent TGF-β1 to LTBP-1 is mandatory. Interfering with mechanical activation of latent TGF-β1 by reducing integrin affinity, cell contractility, and binding of latent TGF-β1 to the ECM provides new possibilities to therapeutically modulate TGF-β1 actions.

摘要

背景

TGF-β1 控制着许多生理病理过程，包括组织稳态、纤维化和癌症进展。TGF-β1 与其潜伏相关肽（LAP）一起，与细胞外基质（ECM）的一部分潜伏 TGF-β1 结合蛋白-1（LTBP-1）结合。整合素通过传递细胞力是激活 ECM 储存中潜伏 TGF-β1 的主要机制之一。较高的细胞力和 ECM 变硬可使潜伏 TGF-β1 的机械激活效率更高。然而，对于这种机械激活机制中涉及的分子事件知之甚少。

结果

通过使用单分子力谱学和磁性微珠，我们分析了施加在 LAP 上的力如何导致潜伏复合物发生构象变化，最终导致 TGF-β1 释放。我们证明了机械激活 TGF-β1 的两个 LAP 关键结构域的展开：α1 螺旋和潜伏套索，它们共同被称为“紧身衣”，使 TGF-β1 与 LAP 相关联。只有当 TGF-β1 与 ECM 中的 LTBP-1 结合时，两个结构域的同时展开才会导致紧身衣完全打开，力约为 40 pN。

结论

我们的结果直接证明了在可以通过单个整合素传递的数量级上施加机械力时，TGF-β1 紧身衣的打开。对于这种机制的存在，潜伏 TGF-β1 与 LTBP-1 的结合是强制性的。通过降低整合素亲和力、细胞收缩性和潜伏 TGF-β1 与 ECM 的结合来干扰潜伏 TGF-β1 的机械激活，为治疗性调节 TGF-β1 作用提供了新的可能性。

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潜伏 TGF-β1 复合物的单分子力学。

The single-molecule mechanics of the latent TGF-β1 complex.

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSIONS

背景

结果

结论

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