CALF LENS ALPHA-CRYSTALLIN, A MOLECULAR CHAPERONE, BUILDS STABLE COMPLEXES WITH BETA(S)-CRYSTALLIN AND GAMMA-CRYSTALLIN

Calf water-soluble (WS) crystallins consist of high-molecular weight ( HM), alpha-, beta(H)-, beta(L)-, beta(s)- and gamma-crystallins. alpha -Crystallin as a molecular chaperone forms a structure with a central hole, known as Carver's model. The only crystallins fitting into this central cavity are beta(s)- and gamma-crystallins, with native molecul ar weights of 28 and 18.5-21 kD, respectively. The beta(s)-crystallin is loosely bound to this structure, whereas with the application of 7M urea in the sample, beta(s)-, may be some beta(L)-components and all gamma-crystallins emerge from the central hole. Although WS and water- insoluble (WI) crystallins display the same immunologic determinants, there is an appreciable difference in electrophoretic mobility already in the young calf lens. alpha-Crystallins from the WI part demonstrat e a clear cathodic shift. WI beta- and gamma-crystallins show smaller but well perceptible cathodic shifts. The chaperone function of alpha- crystallin preserves the original structures of beta(s)- and gamma-cry stallins for aggregation and other influences.