与铜的位点特异性相互作用促进λ6aJL2-R24G的淀粉样原纤维形成。

Site-Specific Interactions with Copper Promote Amyloid Fibril Formation for λ6aJL2-R24G.

作者信息

Pelaez-Aguilar Angel E, Valdés-García Gilberto, French-Pacheco Leidys, Pastor Nina, Amero Carlos, Rivillas-Acevedo Lina

机构信息

Centro de Investigación en Dinámica Celular-IICBA, Universidad Autónoma del Estado de Morelos, Cuernavaca, Morelos 62209, Mexico.

Department of Molecular Medicine and Bioprocesses, Instituto de Biotecnología, Universidad Nacional Autónoma de México, Cuernavaca, Morelos 62210, Mexico.

出版信息

ACS Omega. 2020 Mar 23;5(13):7085-7095. doi: 10.1021/acsomega.9b03220. eCollection 2020 Apr 7.

DOI:10.1021/acsomega.9b03220

PMID:32280849

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7143407/

Abstract

Light-chain amyloidosis (AL) is one of the most common systemic amyloidoses, and it is characterized by the deposition of immunoglobulin light chain (LC) variable domains as insoluble amyloid fibers in vital organs and tissues. The recombinant protein 6aJL2-R24G contains λ6a and JL2 germline genes and also contains the Arg24 by Gly substitution. This mutation is present in 25% of all amyloid-associated λ6 LC cases, reduces protein stability, and increases the propensity to form amyloid fibers. In this study, it was found that the interaction of 6aJL2-R24G with Cu(II) decreases the thermal stability of the protein and accelerates the amyloid fibril formation, as observed by fluorescence spectroscopy. Isothermal calorimetry titration showed that Cu(II) binds to the protein with micromolar affinity. His99 may be one of the main Cu(II) interaction sites, as observed by nuclear magnetic resonance spectroscopy. The binding of Cu(II) to His99 induces larger fluctuations of the CDR1 and loop C″, as shown by molecular dynamics simulations. Thus, Cu(II) binding may be inducing the loss of interactions between CDR3 and CDR1, making the protein less stable and more prone to form amyloid fibers. This study provides insights into the mechanism of metal-induced aggregation of the 6aJL2-R24G protein and sheds light on the bio-inorganic understanding of AL disease.

摘要

轻链淀粉样变性（AL）是最常见的全身性淀粉样变性之一，其特征是免疫球蛋白轻链（LC）可变区以不溶性淀粉样纤维的形式沉积在重要器官和组织中。重组蛋白6aJL2-R24G包含λ6a和JL2种系基因，并且还包含由甘氨酸取代的精氨酸24。这种突变存在于所有与淀粉样变性相关的λ6 LC病例的25%中，会降低蛋白质稳定性，并增加形成淀粉样纤维的倾向。在本研究中，通过荧光光谱观察发现，6aJL2-R24G与铜（II）的相互作用降低了蛋白质的热稳定性并加速了淀粉样纤维的形成。等温滴定量热法表明，铜（II）以微摩尔亲和力与该蛋白质结合。通过核磁共振光谱观察发现，His99可能是主要的铜（II）相互作用位点之一。如分子动力学模拟所示，铜（II）与His99的结合会引起CDR1和环C″的更大波动。因此，铜（II）的结合可能会导致CDR3和CDR1之间相互作用的丧失，使蛋白质更不稳定且更容易形成淀粉样纤维。本研究为6aJL2-R24G蛋白的金属诱导聚集机制提供了见解，并为AL疾病的生物无机理解提供了启示。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1d7b/7143407/aa35a1d0d4ce/ao9b03220_0001.jpg

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与铜的位点特异性相互作用促进λ6aJL2-R24G的淀粉样原纤维形成。

Site-Specific Interactions with Copper Promote Amyloid Fibril Formation for λ6aJL2-R24G.

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