Hydrazine and amphetamine binding to amine oxidases: Old drugs with new prospects

P. Knowles; C. Kurtis; J. Murray; C. Saysell; W. Tambyrajah; C. Wilmot; M. McPherson; S. Phillips; D. Dooley; D. Brown; M. Rogers; M. Mure

doi:10.1007/s00702-007-0681-0

Hydrazine and amphetamine binding to amine oxidases: Old drugs with new prospects

P. Knowles, C. Kurtis, J. Murray, C. Saysell, W. Tambyrajah, C. Wilmot, M. McPherson, S. Phillips, D. Dooley, D. Brown, M. Rogers, M. Mure

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Abstract

Tranylcypromine (TCP), an amphetamine, is a reversible inhibitor of copper-containing amine oxidases. We have solved the structure of the complex of TCP with the amine oxidase from E. coli (ECAO) and shown that only the (+)-enantiomer of TCP binds. Kinetic studies on 2-phenylethylamine and TCP binding to wild-type ECAO and mutational variants fully support the model in which binding of the protonated amine is the first step in the catalytic cycle. Hydrazines are irreversible inhibitors of copper-containing amine oxidases. Binding of hydrazines leads to an adduct ("Adduct 1") with a chromophore at 430nm which converts at higher pH to another adduct ("Adduct 2") with a chromophore at 520nm. We have determined the structures of Adduct 1 and 2 for 2-hydrazinopyridine reacted with ECAO. It has been found that Adduct 1 corresponds to the hydrazone and azo tautomers whilst Adduct 2 corresponds to the azo tautomer coordinated to the active site copper. The implications of these results in developing more specific drugs are discussed.

Original language	English (US)
Pages (from-to)	743-746
Number of pages	4
Journal	Journal of Neural Transmission
Volume	114
Issue number	6
DOIs	https://doi.org/10.1007/s00702-007-0681-0
State	Published - Jun 1 2007

Keywords

2-hydrazinopyridine (2-HP)
2-phenylcyclopropylamine (TCP)
Amine oxidase
Trihydroxyphenylalanine (TPQ)
pH

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abstract = "Tranylcypromine (TCP), an amphetamine, is a reversible inhibitor of copper-containing amine oxidases. We have solved the structure of the complex of TCP with the amine oxidase from E. coli (ECAO) and shown that only the (+)-enantiomer of TCP binds. Kinetic studies on 2-phenylethylamine and TCP binding to wild-type ECAO and mutational variants fully support the model in which binding of the protonated amine is the first step in the catalytic cycle. Hydrazines are irreversible inhibitors of copper-containing amine oxidases. Binding of hydrazines leads to an adduct ({"}Adduct 1{"}) with a chromophore at 430nm which converts at higher pH to another adduct ({"}Adduct 2{"}) with a chromophore at 520nm. We have determined the structures of Adduct 1 and 2 for 2-hydrazinopyridine reacted with ECAO. It has been found that Adduct 1 corresponds to the hydrazone and azo tautomers whilst Adduct 2 corresponds to the azo tautomer coordinated to the active site copper. The implications of these results in developing more specific drugs are discussed.",

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AU - Knowles, P.

AU - Kurtis, C.

AU - Murray, J.

AU - Saysell, C.

AU - Tambyrajah, W.

AU - Wilmot, C.

AU - McPherson, M.

AU - Phillips, S.

AU - Dooley, D.

AU - Brown, D.

AU - Rogers, M.

AU - Mure, M.

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AB - Tranylcypromine (TCP), an amphetamine, is a reversible inhibitor of copper-containing amine oxidases. We have solved the structure of the complex of TCP with the amine oxidase from E. coli (ECAO) and shown that only the (+)-enantiomer of TCP binds. Kinetic studies on 2-phenylethylamine and TCP binding to wild-type ECAO and mutational variants fully support the model in which binding of the protonated amine is the first step in the catalytic cycle. Hydrazines are irreversible inhibitors of copper-containing amine oxidases. Binding of hydrazines leads to an adduct ("Adduct 1") with a chromophore at 430nm which converts at higher pH to another adduct ("Adduct 2") with a chromophore at 520nm. We have determined the structures of Adduct 1 and 2 for 2-hydrazinopyridine reacted with ECAO. It has been found that Adduct 1 corresponds to the hydrazone and azo tautomers whilst Adduct 2 corresponds to the azo tautomer coordinated to the active site copper. The implications of these results in developing more specific drugs are discussed.

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Hydrazine and amphetamine binding to amine oxidases: Old drugs with new prospects

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