| Literature DB >> 31724080 |
Matteo de Rosa1,2, Alberto Barbiroli3, Francesco Bonì4,5, Emanuele Scalone4,5, Davide Mattioni4,5, Maria A Vanoni5, Marco Patrone6, Michela Bollati4,5, Eloise Mastrangelo4,5, Toni Giorgino4,5, Mario Milani4,5.
Abstract
Mutations in the gelsolin protein are responsible for a rare conformational disease known as AGel amyloidosis. Four of these mutations are hosted by the second domain of the protein (G2): D187N/Y, G167R and N184K. The impact of the latter has been so far evaluated only by studies on the isolated G2. Here we report the characterization of full-length gelsolin carrying the N184K mutation and compare the findings with those obtained on the wild type and the other variants. The crystallographic structure of the N184K variant in the Ca2+-free conformation shows remarkable similarities with the wild type protein. Only minimal local rearrangements can be observed and the mutant is as efficient as the wild type in severing filamentous actin. However, the thermal stability of the pathological variant is compromised in the Ca2+-free conditions. These data suggest that the N to K substitution causes a local disruption of the H-bond network in the core of the G2 domain. Such a subtle rearrangement of the connections does not lead to significant conformational changes but severely affects the stability of the protein.Entities:
Keywords: Agel amyloidosis; Gelsolin; Misfolding; Thermal stability; X-ray crystallography
Year: 2019 PMID: 31724080 DOI: 10.1007/s00249-019-01409-9
Source DB: PubMed Journal: Eur Biophys J ISSN: 0175-7571 Impact factor: 1.733