par Biot, Christophe 
;Delhaes, Laurence;Maciejewski, Lucien;Mortuaire, Marlène;Camus, Daniel;Dive, Daniel;Brocard, Jacques
Référence European journal of medicinal chemistry, 35, 7-8, page (707-714)
Publication Publié, 2000
;Delhaes, Laurence;Maciejewski, Lucien;Mortuaire, Marlène;Camus, Daniel;Dive, Daniel;Brocard, JacquesRéférence European journal of medicinal chemistry, 35, 7-8, page (707-714)
Publication Publié, 2000
Article révisé par les pairs
| Résumé : | A few years ago we proposed a strategy for the synthesis of new ferrocene-chloroquine analogues replacing the carbon chain of chloroquine by hydrophobic ferrocenyl moieties. Now, this strategy has been applied to the antimalarial amino-alcohols class to afford new potentially active analogues of mefloquine and quinine bearing a substituted ferrocenic group. The pathway used for the synthesis of the mefloquine analogues includes the coupling of an aminomethyl substituted ferrocene carboxaldehyde with a lithio quinoline compound. On the other hand, the synthesis of quinine analogues was ensured by the 'inverse' reaction of a lithio aminomethyl ferrocene with a quinoline carboxaldehyde. The configurations of each diastereoisomer were unambiguously determined by spectroscopic data. The mechanistic interpretations were fully discussed. Ferrocenyl analogues of mefloquine and quinine exhibited a lower antimalarial activity than mefloquine and quinine themselves. Comparing optical isomers, those isomers dissimilar to ferrocenyl derivatives presented better antimalarial activities than those similar to ferrocenyl. (C) 2000 Editions scientifiques et medicales Elsevier SAS. |
