Dimerization of beta B2-crystallin: the role of the linker peptide and the N- and C-terminal extensions.

Abstract

beta B2- and gamma B-crystallins of vertebrate eye lens are 2-domain proteins in which each domain consists of 2 Greek key motifs connected by a linker peptide. Although the folding topologies of beta B2- and gamma B-domains are very similar, gamma B-crystallin is always monomeric, whereas beta B2-crystallin associates to homodimers. It has been suggested that the linker or the protruding N- and C-terminal arms of beta B2-crystallin (not present in gamma B) are a necessary requirement for this association. In order to investigate the role of these segments for dimerization, we constructed two beta B2 mutants. In the first mutant, the linker peptide was replaced with the one from gamma B (beta B2 gamma L). In the second mutant, the N- and C-terminal arms of 15- and 12-residues length were deleted (beta B2 delta NC). The beta B2 gamma L mutant is monomeric, whereas the beta B2 delta NC mutant forms dimers and tetramers that cannot be interconverted without denaturation. The spectral properties of the beta B2 mutants, as well as their stabilities against denaturants, resemble those of wild-type beta B2-crystallin, thus indicating that the overall peptide fold of the subunits is not changed significantly. We conclude that the peptide linker in beta B2-crystallin is necessary for dimerization, whereas the N- and C-terminal arms appear to be involved in preventing the formation of higher homo-oligomers.