M-纤维胶凝蛋白介导天然免疫识别的结构基础及其pH依赖性构象转换调控

Structural basis for innate immune sensing by M-ficolin and its control by a pH-dependent conformational switch.

作者信息

Garlatti Virginie, Martin Lydie, Gout Evelyne, Reiser Jean-Baptiste, Fujita Teizo, Arlaud Gérard J, Thielens Nicole M, Gaboriaud Christine

机构信息

Laboratoire de Cristallographie et Cristallogénèse des Protéines, Institut de Biologie Structurale Jean-Pierre Ebel, Commissariat à l'Energie Atomique-CNRS-Université Joseph Fourier, 38027 Grenoble, France.

出版信息

J Biol Chem. 2007 Dec 7;282(49):35814-20. doi: 10.1074/jbc.M705741200. Epub 2007 Sep 26.

DOI:10.1074/jbc.M705741200

PMID:17897951

Abstract

Ficolins are soluble oligomeric proteins with lectin-like activity, assembled from collagen fibers prolonged by fibrinogen-like recognition domains. They act as innate immune sensors by recognizing conserved molecular markers exposed on microbial surfaces and thereby triggering effector mechanisms such as enhanced phagocytosis and inflammation. In humans, L- and H-ficolins have been characterized in plasma, whereas a third species, M-ficolin, is secreted by monocytes and macrophages. To decipher the molecular mechanisms underlying their recognition properties, we previously solved the structures of the recognition domains of L- and H-ficolins, in complex with various model ligands (Garlatti, V., Belloy, N., Martin, L., Lacroix, M., Matsushita, M., Endo, Y., Fujita, T., Fontecilla-Camps, J. C., Arlaud, G. J., Thielens, N. M., and Gaboriaud, C. (2007) EMBO J. 24, 623-633). We now report the ligand-bound crystal structures of the recognition domain of M-ficolin, determined at high resolution (1.75-1.8 A), which provides the first structural insights into its binding properties. Interaction with acetylated carbohydrates differs from the one previously described for L-ficolin. This study also reveals the structural determinants for binding to sialylated compounds, a property restricted to human M-ficolin and its mouse counterpart, ficolin B. Finally, comparison between the ligand-bound structures obtained at neutral pH and nonbinding conformations observed at pH 5.6 reveals how the ligand binding site is dislocated at acidic pH. This means that the binding function of M-ficolin is subject to a pH-sensitive conformational switch. Considering that the homologous ficolin B is found in the lysosomes of activated macrophages (Runza, V. L., Hehlgans, T., Echtenacher, B., Zahringer, U., Schwaeble, W. J., and Mannel, D. N. (2006) J. Endotoxin Res. 12, 120-126), we propose that this switch could play a physiological role in such acidic compartments.

摘要

纤维胶凝蛋白是具有凝集素样活性的可溶性寡聚蛋白，由通过纤维蛋白原样识别结构域延长的胶原纤维组装而成。它们通过识别微生物表面暴露的保守分子标记物来充当先天免疫传感器，从而触发诸如增强吞噬作用和炎症等效应机制。在人类中，L-和H-纤维胶凝蛋白已在血浆中得到表征，而第三种类型，M-纤维胶凝蛋白，则由单核细胞和巨噬细胞分泌。为了解析其识别特性背后的分子机制，我们之前解析了L-和H-纤维胶凝蛋白识别结构域与各种模型配体复合物的结构（Garlatti, V., Belloy, N., Martin, L., Lacroix, M., Matsushita, M., Endo, Y., Fujita, T., Fontecilla-Camps, J. C., Arlaud, G. J., Thielens, N. M., and Gaboriaud, C. (2007) EMBO J. 24, 623 - 633）。我们现在报告了高分辨率（1.75 - 1.8 Å）下测定的M-纤维胶凝蛋白识别结构域的配体结合晶体结构，这为其结合特性提供了首个结构见解。与乙酰化碳水化合物的相互作用不同于先前描述的L-纤维胶凝蛋白的相互作用。这项研究还揭示了与唾液酸化化合物结合的结构决定因素，这是人类M-纤维胶凝蛋白及其小鼠对应物纤维胶凝蛋白B所特有的特性。最后，在中性pH下获得的配体结合结构与在pH 5.6下观察到的非结合构象之间的比较揭示了配体结合位点在酸性pH下是如何错位的。这意味着M-纤维胶凝蛋白的结合功能受到pH敏感的构象转换的影响。鉴于同源的纤维胶凝蛋白B存在于活化巨噬细胞的溶酶体中（Runza, V. L., Hehlgans, T., Echtenacher, B., Zahringer, U., Schwaeble, W. J., and Mannel, D. N. (2006) J. Endotoxin Res. 12, 120 - 126），我们提出这种转换可能在此类酸性区室中发挥生理作用。

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M-纤维胶凝蛋白介导天然免疫识别的结构基础及其pH依赖性构象转换调控

Structural basis for innate immune sensing by M-ficolin and its control by a pH-dependent conformational switch.

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