Maxime D. Crozet scite author profile

The 5-nitroimidazole (NI) compound C17, with a side chain carrying a remote phenyl group in the 2-position of the imidazole ring, is at least 14-fold more active against the gut protozoan parasite Giardia lamblia than the 5-NI drug metronidazole (MTR), with a side chain in the 1-position of the imidazole ring, which is the primary drug for the treatment of giardiasis. Over 10 months, lines resistant to C17 were induced in vitro and were at least 12-fold more resistant to C17 than the parent strains. However, these lines had ID90 values (concentration of drug at which 10% of control parasite ATP levels are detected) for MTR of >200 μM, whilst lines induced to be highly resistant to MTR in vitro have maximum ID90 values around 100 μM (MTR-susceptible isolates typically have an ID90 of 5–12.8 μM). The mechanism of MTR activation in Giardia apparently involves reduction to toxic radicals by the activity of pyruvate:ferredoxin oxidoreductase (PFOR) and the electron acceptor ferredoxin. MTR-resistant Giardia have decreased PFOR activity, which is consistent with decreased activation of MTR in these lines, but C17-resistant lines have normal levels of PFOR. Therefore, an alternative mechanism of resistance in Giardia must account for these super-MTR-resistant cells.

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Synthesis of novel functionalized 5-nitroisoquinolines and evaluation of in vitro antimalarial activity

Rathelot¹,

Vanelle²,

Gasquet³

et al. 1995

European Journal of Medicinal Chemistry

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Lowering of 5-nitroimidazole's mutagenicity: Towards optimal antiparasitic pharmacophore

Crozet

Botta²,

Gasquet³

et al. 2009

European Journal of Medicinal Chemistry

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Maxime D. Crozet

A new-generation 5-nitroimidazole can induce highly metronidazole-resistant Giardia lamblia in vitro

Synthesis of novel functionalized 5-nitroisoquinolines and evaluation of in vitro antimalarial activity

Lowering of 5-nitroimidazole's mutagenicity: Towards optimal antiparasitic pharmacophore

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