The interaction of the molecular chaperone, alpha-crystallin, with molten globule states of bovine alpha-lactalbumin.
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Small heat shock proteins function in a chaperone-like manner to prevent the precipitation of proteins under conditions of stress (e. g. heat). alpha-Crystallin, the major mammalian lens protein, is a small heat shock protein. The mechanism of chaperone action of these proteins is poorly understood. In this paper, the conformational state of a protein when it forms a high molecular weight complex with alpha-crystallin is investigated by examining, using NMR spectroscopy and size exclusion high performance liquid chromatography, the interaction of alpha-crystallin with alpha-lactalbumin and its various intermediately folded (molten globule) states. The complex is formed following reduction of alpha-lactalbumin by dithiothreitol in the presence of alpha-crystallin, and this interaction has been monitored in real time by 1H NMR spectroscopy. It is concluded that alpha-crystallin interacts with a disordered molten globule state of alpha-lactalbumin while it is on an irreversible pathway toward aggregation and precipitation. alpha-Crystallin does not interact, however, with molten globule states of alpha-lactalbumin that are stable in solution, e.g. the reduced and carboxyamidated species. It is proposed that alpha-crystallin distinguishes between the various molten globule states of alpha-lactalbumin on the basis of the lifetimes of these states, i.e. the protein must be in a disordered molten globule state for a significant length of time and on the pathway to aggregation and precipitation for interaction to occur.