enpiroline and alpha-(2-piperidyl)-3-6-bis(trifluoromethyl)-9-phenanthrenemethanol

Specific calculated molecular electronic properties of structurally diverse synthetic aromatic carbinolamines containing phenanthrene, quinoline, and N-substituted biphenyl rings are associated with antimalarial potency allowing use of these electronic features in the prediction of antimalarial efficacy, thus aiding the design of new antimalarial agents. These electronic features include the magnitude and location of 3-dimensional molecular electrostatic potentials, lowest unoccupied molecular orbitals, and highest occupied molecular orbitals. Stereoelectronic properties were calculated using quantum chemical AM1 methods on the optimized geometry of the lowest energy or most populated conformer in both gaseous and aqueous environments. In the phenanthrene carbinolamines, the aliphatic nitrogen atom and the hydroxyl proton are intrinsically more nucleophilic and less electrophilic, respectively, than in the non-phenanthrene compounds. Hydrogen bonding ability and the electrophilic nature of the aromatic ring appear to be two important features responsible for interaction with receptor molecules.

Topics: Antimalarials; Mefloquine; Models, Molecular; Molecular Conformation; Phenanthrenes; Pyridines; Quinolines; Static Electricity; Structure-Activity Relationship

The (+)-isomers of mefloquine and its threo analog are 1.69 to 1.95 times more active than the (-)-isomers against chloroquine-sensitive and chloroquine-resistant Plasmodium falciparum in vitro. This large a differential between the activity of (+)- and (-)-isomers was not observed for other synthetic amino alcohol antimalarial agents containing a piperidine ring. The enantiomers of amino alcohol antimalarial agents in which the amine is part of an acyclic group, such as in halofantrine, displayed little, if any, differential antimalarial activity. Thus, the effect of absolute stereochemistry of the amino alcohol antimalarial agents on antimalarial activity appears to depend upon both the flexibility of the amine portion of the molecule and the structure of the aromatic portion of the molecule.

Topics: Animals; Antimalarials; Chloroquine; Drug Resistance; Mefloquine; Phenanthrenes; Plasmodium falciparum; Pyridines; Quinolines; Stereoisomerism; Structure-Activity Relationship

A genetically homogeneous population of Plasmodium falciparum prepared by a single erythrocyte micromanipulation technique was used to produce lines of P. falciparum resistant to mefloquine hydrochloride in vitro. Parasites were maintained in a culture medium containing gradually increased concentrations of mefloquine hydrochloride (CMP-mef) starting with 2 ng/ml. One of the mefloquine-resistant culture lines (W2-mef) was obtained after 96 weeks of continuous culture in CMP-mef, the last 4 weeks in medium containing 40 ng/ml of mefloquine hydrochloride. The W2-mef was four to six times more resistant to mefloquine than was the parent clone W2. Means of multiple determinations of 50% inhibitory concentrations (IC-50) of mefloquine hydrochloride against W2-mef and clone W2 were 20.39 +/- 5.08 ng/ml and 4.50 +/- 1.94 ng/ml, respectively.

Topics: Animals; Antimalarials; Butylated Hydroxytoluene; Chemical Phenomena; Chemistry; Culture Media; Drug Resistance; Isoenzymes; Mefloquine; Phenanthrenes; Plasmodium falciparum; Pyridines; Quinolines