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Article Abstract
Light chain amyloidosis (AL) originates from the deposition of immunoglobulin light chains (LCs) as amyloid fibrils in the extracellular space of vital organs. Although non-enzymatic post-translational modifications (PTMs) have been shown to contribute to protein misfolding diseases, little is known about their contributions to LC amyloidogenicity. In this study, we investigated the effects of three oxidative PTMs, carbonylation by hydroxynonenal (HNE), oxidation and nitration, on the structure, thermodynamic stability and self-assembly propensity of a LC variable domain from the λ6 germline, Wil. We initially identified the specific residues that are susceptible to oxidative chemical modifications. HNE-conjugation at specific His residues and nitration of Tyr side chains modulated the conformational conversion driving Wil self-assembly and fibrillar aggregates formation. This study reinforces the notion that not only the thermodynamic stability, but also the chemical and structural properties, should be considered when evaluating the amyloidogenic potential of a LC.
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| http://dx.doi.org/10.1016/j.bpc.2016.10.001 | DOI Listing |
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