CHARACTERIZATION OF WILD-TYPE AND MUTANT FORMS OF HUMAN MONOAMINE OXIDASE-A AND OXIDASE-B EXPRESSED IN A MAMMALIAN-CELL LINE

Monoamine oxidase (MAO)-A and MAO-B are FAD-containing mitochondrial enzymes which catabolize biogenic and xenobiotic amines. The N-terminal regions of both forms of MAO contain an ADP-binding consensus sequence found in several dinucleotide-dependent enzymes, but otherwise show remarkable sequence differences. In order to investigate whether the N-terminal region of MAOs participates in the different catalytic properties and inhibitor specificities exhibited by MAO-A and MAO-B, we constructed chimeric A/B forms and expressed them in a human embryonic kidney cell line (293 cells). The MAO-A chimeric form containing the N-terminus (36 amino acids) of MAO-B and the B chimera having the first 45 amino acid sequence of MAO-A were both catalytically active. Compared to the respective wild-type form, they did not show any significant difference in their catalytic properties (K(m), k(cat)) towards the substrates tested or in their sensitivity towards inhibitors. This indicates that the N-terminal region of the two isoenzymes is not involved in the different specificities of MAO-A and MAO-B. Substitution of Cys-397 of MAO-B, i.e. the residue covalently anchoring FAD, with an Ala or a His residue resulted in the total loss of enzymatic activity, suggesting that the covalent coupling of FAD to MAO occurs specifically at the -SH group of cysteine.