posted on 2003-01-17, 00:00authored byF. Peter Guengerich, Imad H. Hanna, Martha V. Martin, Elizabeth M. J. Gillam
Human cytochrome P450 (P450) 2D6 is an important enzyme involved in the metabolism of
drugs, many of which are amines or contain other basic nitrogen atoms. Asp301 has generally been
considered to be involved in electrostatic docking with the basic substrates, on the basis of previous
modeling studies and site-directed mutagenesis. Substitution of Glu216 with a residue other than Asp
strongly attenuated the binding of quinidine, bufuralol, and several other P450 2D6 ligands. Catalytic
activity with the substrates bufuralol and 4-methoxyphenethylamine was strongly inhibited by neutral or
basic mutations at Glu216 (>95%), to the same extent as the substitution of Asn at Asp301. Unlike the
Asp301 mutants, the Gln216 mutant (E216Q) retained 40% enzyme efficiency with the substrate
spirosulfonamide, devoid of basic nitrogen, suggesting that the substitutions at Glu216 affect binding of
amine substrates more than other catalytic steps. Attempts to induce catalytic specificity toward new
substrates by substitutions at Asp301 and Glu216 were unsuccessful. Collectively, the results provide
evidence for electrostatic interaction of amine substrates with Glu216, and we propose that both of these
acidic residues plus at least another residue(s) is (are) involved in binding the repertoire of P450 2D6
ligands.