Protein carboxymethylase (EC 2.1.1.24) from cytosol of bovine brain was found to exist as two apparent isozymes that could be separated by chromatography on DEAE-cellulose at pH 8.0. Rechromatography of the two forms, designated PCM I and PCM II, indicated that they are not interconvertible. Both enzymes have a molecular weight of 24,300 by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, PCM I consists mainly of one isoelectric form, pI 6.5, whereas PCM II resolves into two forms of pI 5.6 and 5.7. The relative amounts of PCM I and PCM II show a marked tissue dependence. Brain has approximately twice as much PCM I as II, whereas liver contains only the type II enzyme. The two enzymes were found to have similar substrate specificities when tested with five different methyl-accepting proteins. Synapsin I, a basic protein associated with synaptic vesicles, was found to be an excellent methyl-accepting protein with regard to its Km (1.2 microM), but it exhibited a low stoichiometry of methyl incorporation.
A method of polyacrylamide gel electrophoresis utilizing the discontinuous pH-stacking gel format, the cationic detergent cetylpyridinium chloride, and an acidic buffer system has been applied to detection of specific substrates for protein carboxyl methyltransferase (PCM, EC 2.1.1.24) in cytosol fractions of bovine cerebral cortex. This electrophoresis system produces a high-resolution separation of proteins while preventing spontaneous hydrolysis of protein carboxyl methyl esters. Separation occurs largely on the basis of molecular weight. By running polyacrylamide gels at 4 degrees C or 25 degrees C, it was possible to demonstrate that any specific methyl-accepting protein is modified to form a labile methyl ester rather than the more stable N-derivative. Using this system, we have found that partially purified fractions of PCM contain a variety of endogenous methyl-accepting proteins. The apparent specificity of these substrates varies widely; some apparently abundant proteins show little or no methylation, while other apparently less abundant proteins exhibit a relatively high degree of methylation. One protein, with an apparent Mr of 46,000, exhibited an exceptional degree of methylation. Two distinct classes of protein carboxyl methyl esters could be distinguished by their differing susceptibility to nonenzymatic hydrolysis. The possible relevance of our findings to the recent suggestion that PCM specifically methylates abnormal D-aspartyl residues in age-racemized proteins is considered.
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