Study of the chaperoning mechanism of bovine lens alpha-crystallin, a member of the alpha-small heat shock superfamily.

We have studied the interaction between lysozyme, destabilized by reducing its -S-S- bonds, and bovine eye lens alpha-crystallin, a member of the alpha-small heat shock protein superfamily. We have used gel filtration, photon correlation spectroscopy, and analytical ultracentrifugation to study the binding of lysozyme by alpha-crystallin at 25 degrees C and 37 degrees C. We can conclude that alpha-crystallin chaperones the destabilized protein in a two-step process. First the destabilized proteins are bound by the alpha-crystallin so that nonspecific aggregation of the destabilized protein is prevented. This complex is unstable, and a reorganization and inter-particle exchange of the peptides result in stable and soluble large particles. alpha-Crystallin does not require activation by temperature for the first step of its chaperone activity as it prevents the formation of nonspecific aggregates at 25 degrees C as well as at 37 degrees C. The reorganization of the peptides, however, gives rise to smaller particles at 37 degrees C than at 25 degrees C. Indirect evidence shows that the association of several alpha-crystallin/substrate protein complexes leads to the formation of very large particles. These are responsible for the increase of the light scattering.