Pathogenic D76N Variant of β2-Microglobulin: Synergy of Diverse Effects in Both the Native and Amyloid States

β2-microglobulin (β2m), the light chain of the MHC-I complex, is associated with dialysis-related amyloidosis (DRA). Recently, a hereditary systemic amyloidosis was discovered, caused by a naturally occurring D76N β2m variant, which showed a structure remarkably similar to the wild-type (WT) protein...

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Published inBiology (Basel, Switzerland) Vol. 10; no. 11; p. 1197
Main Authors Bulyáki, Éva, Kun, Judit, Molnár, Tamás, Papp, Alexandra, Micsonai, András, Vadászi, Henrietta, Márialigeti, Borbála, Kovács, Attila István, Gellén, Gabriella, Yamaguchi, Keiichi, Lin, Yuxi, So, Masatomo, Józsi, Mihály, Schlosser, Gitta, Lee, Young-Ho, Liliom, Károly, Goto, Yuji, Kardos, József
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 17.11.2021
MDPI
Subjects
Affinity
Amyloidogenesis
Amyloidosis
Dialysis
dialysis-related amyloidosis
Equilibrium
Extracellular matrix
Fibrils
Investigations
ion-pairs
Lipids
Major histocompatibility complex
Molecular modelling
Mutants
Mutation
Nucleation
protein aggregation
Protein expression
protein stability
Proteins
Serum levels
Software
Spectrum analysis
β2 Microglobulin
United States > US
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Summary:β2-microglobulin (β2m), the light chain of the MHC-I complex, is associated with dialysis-related amyloidosis (DRA). Recently, a hereditary systemic amyloidosis was discovered, caused by a naturally occurring D76N β2m variant, which showed a structure remarkably similar to the wild-type (WT) protein, albeit with decreased thermodynamic stability and increased amyloidogenicity. Here, we investigated the role of the D76N mutation in the amyloid formation of β2m by point mutations affecting the Asp76-Lys41 ion-pair of WT β2m and the charge cluster on Asp38. Using a variety of biophysical techniques, we investigated the conformational stability and partial unfolding of the native state of the variants, as well as their amyloidogenic propensity and the stability of amyloid fibrils under various conditions. Furthermore, we studied the intermolecular interactions of WT and mutant proteins with various binding partners that might have in vivo relevance. We found that, relative to WT β2m, the exceptional amyloidogenicity of the pathogenic D76N β2m variant is realized by the deleterious synergy of diverse effects of destabilized native structure, higher sensitivity to negatively charged amphiphilic molecules (e.g., lipids) and polyphosphate, more effective fibril nucleation, higher conformational stability of fibrils, and elevated affinity for extracellular components, including extracellular matrix proteins.
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Present address: Astbury Centre for Structural Molecular Biology, University of Leeds, Leeds LS2 9JT, UK.
Equivalent first authors.
ISSN:2079-7737
2079-7737
DOI:10.3390/biology10111197