Abstract
Previously we showed that alpha-crystallins are autophosphorylated (Kantorow, M., and Piatigorsky, J. (1994) Proc. Natl. Acad. Sci. U. S. A. 91, 3112-3116). Here we report that addition of 1% deoxycholate converted alpha A-crystallin aggregates into 80-kDa tetramers which were 10-fold more active for autophosphorylation. Circular dichroism (CD) spectra of alpha-crystallin revealed little or no change in secondary and tertiary structures in 1% deoxycholate, alpha A2D, a truncated form of bovine alpha A that exists as a tetramer, was as active for autophosphorylation in the absence of deoxycholate as intact alpha A was in the presence of deoxycholate. At least one serine between amino acids 131 and 145 of bovine alpha A was autophosphorylated in peptide mapping experiments. Chicken alpha A-crystallin, which lacks the Ser-122 cAMP-dependent kinase site of bovine alpha A, was also autophosphorylated in the presence of deoxycholate. In contrast to alpha A-crystallin, autophosphorylation by alpha B-crystallin was not activated by deoxycholate despite its conversion to a tetrameric form, and alpha B was also more efficiently phosphorylated by cAMP-dependent kinase than alpha A. These data suggest metabolic differences between the alpha-crystallin subunits that may be related to specific expression of alpha A in the lens and ubiquitous expression of alpha B in numerous normal and diseased tissues.
Highlights
We showed that a-crystallins are autophosphorylated (Kantorow, M., and Piatigorsky, J. (1994) Proc
Circular dichroism (CD) spectra of a-crystallin revealed little or no change in secondary and tertiary structures in 1% deoxycholate. aA2D, a truncated form of bovine aA that exists as a tetramer, was as active for autophosphorylation in the absence of deoxycholate as intact aA was in the presence of deoxycholate
In vivo phosphorylation of bovine aA-crystallin occurs predominately on serine 122 [32, 33], but at least three in vivo phosphorylation sites in addition to Ser-122 have been identified between amino acids 122 and 173 in peptide mapping experiments [34]
Summary
Vol 270, No 29, Issue of July 21, pp. 17215-17220, 1995 Printed in U.S.A. Conversion from Oligomers to Tetramers Enhances Autophosphorylation by Lens aA-Crystallin. In contrast to aA-crystallin, autophosphorylation by aB-crystallin was not activated by deoxycholate despite its conversion to a tetrameric form, and aB was more efficiently phosphorylated by cAMP-dependent kinase than aA. These data suggest metabolic differences between the a-crystallin subunits that may be related to specific expression of aA in the lens and ubiquitous expression of aB in numerous normal and diseased tissues. The 173-amino-acid aA- and 175-amino-acid aB-crystallin polypeptides undergo a large variety of post-translational modifications [29] One of these is serine-specific phosphorylation which occurs via a cAMP-dependent pathway in crude lens extracts [30,31,32,33]. We provide evidence that autophosphorylation of aA- but not aB-crystallin is activated by reducing the average molecular mass of the aA complex from approximately 800 kDa to 80 kDa, and we provide evidence for functional differences between aA- and aBcrystallin subunits with respect to phosphorylation
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