Immobilization of the C-terminal Extension of Bovine αA-Crystallin Reduces Chaperone-like Activity

α-Crystallins occur as multimeric complexes, which are able to suppress precipitation of unfolding proteins. Although the mechanism of this chaperone-like activity is unknown, the affinity of α-crystallin for aggregation-prone proteins is probably based on hydrophobic interactions. α-Crystallins...

Full description

Saved in:
Bibliographic Details
Published in:The Journal of biological chemistry 1996-11, Vol.271 (46), p.29060
Main Authors: Ronald H. P. H. Smulders, John A. Carver, Robyn A. Lindner, Martinus A. M. van Boekel, Hans Bloemendal, Wilfried W. de Jong
Format: Article
Language:English
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:α-Crystallins occur as multimeric complexes, which are able to suppress precipitation of unfolding proteins. Although the mechanism of this chaperone-like activity is unknown, the affinity of α-crystallin for aggregation-prone proteins is probably based on hydrophobic interactions. α-Crystallins expose a considerable hydrophobic surface to solution, but nevertheless they are very stable and highly soluble. An explanation for this paradox may be that α-crystallin subunits have a polar and unstructured C-terminal extension that functions as a sort of solubilizer. In this paper we have described five αA-crystallins in which charged and hydrophobic residues were inserted in the C-terminal extension. Introduction of lysine, arginine, and aspartate does not substantially influence chaperone-like activity. In contrast, introduction of a hydrophobic tryptophan greatly diminishes functional activity. CD experiments indicate that this mutant has a normal secondary structure and fluorescence measurements show that the inserted tryptophan is located in a polar environment. However, NMR spectroscopy clearly demonstrates that the presence of the tryptophan residue dramatically reduces the flexibility of the C-terminal extension. Furthermore, the introduction of this tryptophan results in a considerably decreased thermostability of the protein. We conclude that changing the polarity of the C-terminal extension of αA-crystallin by insertion of a highly hydrophobic residue can seriously disturb structural and functional integrity.
ISSN:0021-9258
1083-351X
DOI:10.1074/jbc.271.46.29060