It has been reported that alphaA-crystallin has greater protective effects against apoptosis in lens epithelial cells than alphaB-crystallin [Andley, Song, Wawrousek, Fleming and Bassnett (2000) J. Biol. Chem. 275, 36823-36831]. Because the alphaA-crystallin proteins are specifically expressed in the vertebrate lens, we examine the non-specific properties of both alphaA- and alphaB-crystallins in an Escherichia coli system. E. coli cells were transformed with the inducible protein expression vector pET-11a, harbouring the gene for either human alphaA- or alphaB-crystallin, and two other control plasmids, pET-1la vector alone or pGEX-2T vector encoding GST (glutathione S-transferase). These cells were exposed to various stress conditions, such as cold-shock at 4 degrees C or extremely low or high pH environments (pH 4.7 or pH 8.0) for 6 h, and survival of the host cells and the solubility of the expressed target proteins in the cytosol were examined. Under these stress conditions, the cells expressing alphaB-crystallin protein demonstrated significantly improved survival when compared with the other cells, and the expressed protein in the cytosol was almost soluble, in contrast with the alphaA-crystallin protein. Differences in the amino acid sequence between the proteins in a phenylalanine-rich region next to the N-terminal consensus alpha-crystallin domain was considered to be responsible for chaperone activity and cell survival.
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