We report the use of a proteomic strategy to identify hitherto unknown substrates for mammalian protein L-isoaspartate O-methyltransferase. This methyltransferase initiates the repair of isoaspartyl residues in aged or stress-damaged proteins in vivo. Tissues from mice lacking the methyltransferase (Pcmt1 ؊/؊ ) accumulate more isoaspartyl residues than their wild-type littermates, with the most "damaged" residues arising in the brain. To identify the proteins containing these residues, brain homogenates from Pcmt1 ؊/؊ mice were methylated by exogenous repair enzyme and the radiolabeled methyl donor S-adenosyl-[methyl-3 H]methionine. Methylated proteins in the homogenates were resolved by both one-dimensional and twodimensional electrophoresis, and methyltransferase substrates were identified by their increased radiolabeling when isolated from Pcmt1 ؊/؊ animals compared with Pcmt1 ؉/؉ littermates.Mass spectrometric analyses of these isolated brain proteins reveal for the first time that microtubule-associated protein-2, calreticulin, clathrin light chains a and b, ubiquitin carboxylterminal hydrolase L1, phosphatidylethanolamine-binding protein, stathmin, -synuclein, and ␣-synuclein, are all substrates for the L-isoaspartate methyltransferase in vivo. Our methodology for methyltransferase substrate identification was further supplemented by demonstrating that one of these methyltransferase targets, microtubule-associated protein-2, could be radiolabeled within Pcmt1 ؊/؊ brain extracts using radioactive methyl donor and exogenous methyltransferase enzyme and then specifically immunoprecipitated with microtubule-associated protein-2 antibodies to recover co-localized protein with radioactivity. We comment on the functional significance of accumulation of relatively high levels of isoaspartate within these methyltransferase targets in the context of the histological and phenotypical changes associated with the methyltransferase knock-out mice.
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