Domain interaction sites of human lens betaB2-crystallin

J Biol Chem. 2006 Feb 3;281(5):2624-30. doi: 10.1074/jbc.M509017200. Epub 2005 Nov 29.

Abstract

betaB2-crystallin, the major component of beta-crystallin, is a dimer at low concentrations but can form oligomers under physiological conditions. The interaction domains have been speculated to be the beta-sheets, each of which is formed by two or more beta-strands. betaB2-crystallin consists of 16 beta-strands, 8 in the N-terminal domain and 8 in the C-terminal domain. Domain interaction sites may be removed by destroying the beta-strands, which can be done by site-specific mutations, substituting the beta-formers (Val, Phe, Leu) with Glu or Asn, strong beta-breakers. We have cloned the following beta-strand-deleted mutants, I20E, L34E, V54E, V60E, V73E, L97E, I109E, I124E, V144E, V152E, L162E, L165E, and V187E and their corresponding X --> Asn mutants. We also made two mutants, V46E and V129E, that were not on the beta-strand as controls. Disruption of protein-protein interactions was screened by a mammalian two-hybrid system assay. Protein-protein interactions decreased for all beta-strand-deleted mutants except I20E, L34E, and L162E mutants; this effect was not seen in the two mutant controls, V46E and V129E. The sequences around Val-54, Val-60, Val-73, and Leu-97 in the N-terminal region and Ile-109, Ile-124, Val-144, Val-152, Leu-165, and Val-187 in the C-terminal region that formed beta-strands appear to be important in dimerization. Some selected mutant proteins that showed strong (V46E and V129E) and reduced (V60E, V144E, V60N, and V144N) interactions were expressed in bacterial culture and were studied with spectroscopy and chromatography. The V60E and V144E mutants were found to be partially unfolded and incapable of forming a complete dimer.

Publication types

  • Research Support, N.I.H., Extramural
  • Research Support, Non-U.S. Gov't

MeSH terms

  • Amino Acid Substitution
  • Binding Sites
  • Dimerization
  • Humans
  • Lens, Crystalline / chemistry
  • Protein Binding / genetics
  • Protein Conformation
  • Two-Hybrid System Techniques
  • beta-Crystallin B Chain / chemistry
  • beta-Crystallin B Chain / genetics*
  • beta-Crystallin B Chain / metabolism*

Substances

  • beta-Crystallin B Chain
  • beta-crystallin B2