PfCRT and the trans-vacuolar proton electrochemical gradient: regulating the access of chloroquine to ferriprotoporphyrin IX.

It is accepted that resistance of Plasmodium falciparum to chloroquine (CQ) is caused primarily by mutations in the pfcrt gene. However, a consensus has not yet been reached on the mechanism by which resistance is achieved. CQ-resistant (CQR) parasite lines accumulate less CQ than do CQ-sensitive (CQS) parasites.

A critical role for PfCRT K76T in Plasmodium falciparum verapamil-reversible chloroquine resistance.

Chloroquine resistance (CQR) in Plasmodium falciparum is associated with mutations in the digestive vacuole transmembrane protein PfCRT. However, the contribution of individual pfcrt mutations has not been clarified and other genes have been postulated to play a substantial role. Using allelic exchange, we show that removal of the single PfCRT amino-acid change K76T from resistant strains leads to wild-type levels of CQ susceptibility, increased binding of CQ to its target ferriprotoporphyrin IX in the digestive vacuole and loss of verapamil reversibility of CQ and quinine resistance.

Isoquine and related amodiaquine analogues: a new generation of improved 4-aminoquinoline antimalarials.

Amodiaquine (AQ) (2) is a 4-aminoquinoline antimalarial that can cause adverse side effects including agranulocytosis and liver damage. The observed drug toxicity is believed to involve the formation of an electrophilic metabolite, amodiaquine quinoneimine (AQQI), which can bind to cellular macromolecules and initiate hypersensitivity reactions. We proposed that interchange of the 3' hydroxyl and the 4' Mannich side-chain function of amodiaquine would provide a new series of analogues that cannot form toxic quinoneimine metabolites via cytochrome P450-mediated metabolism.

The pH of the Plasmodium falciparum digestive vacuole: holy grail or dead-end trail?

The maintenance of acidic pH in the digestive vacuole of the malaria parasite is thought to be crucial to the digestion of host cell haemoglobin and the subsequent process of heme detoxification. It may also be important in the mode of action of chloroquine and in the mechanism of resistance to the drug. Obtaining a definitive measurement of digestive vacuole pH has been surprisingly difficult.