Westin Morrill scite author profile

Quinoline-based scaffolds have been the mainstay of antimalarial drugs, including many artemisinin combination therapies (ACTs), over the history of modern drug development. Although much progress has been made in the search for novel antimalarial scaffolds, it may be that quinolines will remain useful, especially if very potent compounds from this class are discovered. We report here the results of a structure-activity relationship (SAR) study assessing potential unsymmetrical bisquinoline antiplasmodial drug candidates using in vitro activity against intact parasites in cell culture. Many unsymmetrical bisquinolines were found to be highly potent against both chloroquine-sensitive and chloroquine-resistant Plasmodium falciparum parasites. Further work to develop such compounds could focus on minimizing toxicities in order to find suitable candidates for clinical evaluation.

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Simplified Reversed Chloroquines To Overcome Malaria Resistance to Quinoline-Based Drugs

Gunsaru

Burgess

Morrill

et al. 2017

Antimicrob Agents Chemother

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Building on our earlier work of attaching a chemosensitizer (reversal agent) to a known drug pharmacophore, we have now expanded the structure-activity relationship study to include simplified versions of the chemosensitizer. The change from two aromatic rings in this head group to a single ring does not appear to detrimentally affect the antimalarial activity of the compounds. Data from in vitro heme binding and β-hematin inhibition assays suggest that the single aromatic RCQ compounds retain activities against Plasmodium falciparum similar to those of CQ, although other mechanisms of action may be relevant to their activities.

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Progress in the development of Reversed Chloroquine molecules as antimalarial therapy

Burgess

Xu-Kelly

Liebmann

et al. 2010

Malar J

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Westin Morrill

Unsymmetrical Bisquinolines with High Potency against P. falciparum Malaria

Simplified Reversed Chloroquines To Overcome Malaria Resistance to Quinoline-Based Drugs

Progress in the development of Reversed Chloroquine molecules as antimalarial therapy

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