Michael M. Miles scite author profile

Michael M. Miles

2Publications

26Citation Statements Received

26Citation Statements Given

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London School of Hygiene & Tropical Medicine, University of London

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In Vitro and In Vivo Activities of Aminoadamantane and Aminoalkylcyclohexane Derivatives againstTrypanosoma brucei

Kelly

Quack

Miles

2001

Antimicrob Agents Chemother

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We reported recently that the bloodstream form of the African trypanosome, Trypanosoma brucei, is sensitive to the anti-influenza virus drug rimantadine. In the present report we describe the trypanocidal properties of a further 62 aminoadamantane and aminoalkylcyclohexane derivatives. Seventeen of the compounds were found to be more active than rimantadine, with four inhibiting growth in vitro of T. brucei by >90% at concentrations of 1 M. The most active derivative (1-adamantyl-4-amino-cyclohexane) was about 20 to 25 times more effective than rimantadine. We observed a correlation between structural features of the derivatives and their trypanocidal properties; hydrophobic substitutions to the adamantane or cyclohexane rings generally enhanced activity. As with rimantadine, the activity in vitro varied with the pH. T. brucei was more sensitive in an alkaline environment (including a normal bloodstream pH of 7.4) and less sensitive under acidic conditions. Tests for activity in vivo were carried out with a mouse model of infection with a virulent strain of T. brucei. Although the parasitemia was not eliminated, it could be transiently suppressed by >98% with the most active compounds tested. These results suggest that aminoadamantane derivatives could have potential as a new class of trypanocidal agents.

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Author response: Microevolution of Trypanosoma cruzi reveals hybridization and clonal mechanisms driving rapid genome diversification

Matos

Lewis

Talavera-López

et al. 2022

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Michael M. Miles

In Vitro and In Vivo Activities of Aminoadamantane and Aminoalkylcyclohexane Derivatives againstTrypanosoma brucei

Author response: Microevolution of Trypanosoma cruzi reveals hybridization and clonal mechanisms driving rapid genome diversification

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