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Structure and energetic basis of overrepresented ? light chain in systemic light chain amyloidosis patients.


ABSTRACT: Amyloid formation and deposition of immunoglobulin light-chain proteins in systemic amyloidosis (AL) cause major organ failures. While the ? light-chain is dominant (?/?=1:2) in healthy individuals, ? is highly overrepresented (?/?=3:1) in AL patients. The structural basis of the amyloid formation and the sequence preference are unknown. We examined the correlation between sequence and structural stability of dimeric variable domains of immunoglobulin light chains using molecular dynamics simulations of 24 representative dimer interfaces, followed by energy evaluation of conformational ensembles for 20 AL patients' light chain sequences. We identified a stable interface with displaced N-terminal residues, provides the structural basis for AL protein fibrils formation. Proline isomerization may cause the N-terminus to adopt amyloid-prone conformations. We found that ? light-chains prefer misfolded dimer conformation, while ? chain structures are stabilized by a natively folded dimer. Our study may facilitate structure-based small molecule and antibody design to inhibit AL. This article is part of a Special Issue entitled: Accelerating Precision Medicine through Genetic and Genomic Big Data Analysis edited by Yudong Cai & Tao Huang.

SUBMITTER: Zhao J 

PROVIDER: S-EPMC5927852 | biostudies-literature | 2018 Jun

REPOSITORIES: biostudies-literature

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Structure and energetic basis of overrepresented λ light chain in systemic light chain amyloidosis patients.

Zhao Jun J   Zhang Baohong B   Zhu Jianwei J   Nussinov Ruth R   Ma Buyong B  

Biochimica et biophysica acta. Molecular basis of disease 20171212 6 Pt B


Amyloid formation and deposition of immunoglobulin light-chain proteins in systemic amyloidosis (AL) cause major organ failures. While the κ light-chain is dominant (λ/κ=1:2) in healthy individuals, λ is highly overrepresented (λ/κ=3:1) in AL patients. The structural basis of the amyloid formation and the sequence preference are unknown. We examined the correlation between sequence and structural stability of dimeric variable domains of immunoglobulin light chains using molecular dynamics simula  ...[more]

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