Mammalian protein methylesterase. Physical and enzymic properties.

Protein methylesterase (PME) amino acid composition and substrate specificity towards methylated normal and deamidated protein substrates were investigated. The enzyme contained 23% acidic and 5% basic residues. These values are consistent with a pI of 4.45. The product formed from methylated protein by PME was confirmed as methanol by h.p.l.c. The kcat. and Km values for several methylated protein substrates ranged from 20 x 10(-6) to 560 x 10(-6) s-1 and from 0.5 to 64 microM respectively. However, the kcat./Km ratios ranged within one order of magnitude from 11 to 52 M-1.s-1. Results with the irreversible cysteine-proteinase inhibitor E-64 suggested that these low values were in part due to the fact that only one out of 25 molecules in the PME preparations was enzymically active. When PME was incubated with methylated normal and deamidated calmodulin, the enzyme hydrolysed the latter substrate at a higher rate. The Km and kcat. for methylated normal calmodulin were 0.9 microM and 31 x 10(-6) s-1, whereas for methylated deamidated calmodulin values of 1.6 microM and 188 x 10(-6) s-1 were obtained. The kcat./Km ratios for methylated normal and deamidated calmodulin were 34 and 118 M-1.s-1 respectively. By contrast, results with methylated adrenocorticotropic hormone (ACTH) substrates indicated that the main difference between native and deamidated substrates resides in the Km rather than the kcat. The Km for methylated deamidated ACTH was 5-fold lower than that for methylated native ACTH. The kcat./Km ratios for methylated normal and deamidated ACTH were 43 and 185 M-1.s-1 respectively. These results indicate that PME recognizes native and deamidated methylated substrates as two different entities. This suggests that the methyl groups on native calmodulin and ACTH substrates may not be on the same amino acid residues as those on deamidated calmodulin and ACTH substrates.