Antimalarial mechanism of action of the natural product 9-methoxystrobilurin G.

The natural product 9-methoxystrobilurin G (9MG) from spp basidiomycetes is a potent and selective antimalarial. The mechanism of action of 9MG is unknown. We induced 9MG resistance in 3D7 and Dd2 strains and identified mutations associated with resistance by genome sequencing.

Flexible 2,4-diaminopyrimidine bearing a butyrolactone as Plasmodium falciparum dihydrofolate reductase inhibitors.

Recently, P218, a new flexible antifolate targeting Plasmodium falciparum dihydrofolate reductase (PfDHFR), has entered its clinical trial with good safety profile and effective Pf infection prevention. However, it carries a free carboxyl terminal, which is hydrophilic and prone to metabolic glucuronidation. Here, a new series of P218 analogues carrying butyrolactone has been synthesized with the purpose of enhancing lipophilicity and minimizing metabolic instability.

folA thyA knockout E. coli as a suitable surrogate model for evaluation of antifolate sensitivity against PfDHFR-TS.

A new superior bacteria complementation model was achieved for testing antifolate compounds and investigating antifolate resistance in the dihydrofolate reductase (DHFR) enzyme of the malaria parasite. Earlier models depended on the addition of trimethoprim (TMP) to chemically suppress the host Escherichia coli (Ec) DHFR function. However, incomplete suppression of EcDHFR and potential interference of antibiotics needed to maintain plasmids for complementary gene expression can complicate the interpretations.

Novel flexible biphenyl DHFR inhibitors with improved antimalarial activity.

As pregnant women and young children remain the first victims of malaria worldwide, the search for new antimalarials has been focusing on compounds with a high safety profile and extended efficacy. In a previous study, a rigid biphenyl DHFR inhibitor was developed by fragment-based screening, displaying sub nM enzyme inhibition but poor antiparasitic activity, presumably due to its low flexibility. Here, we report a new series of compounds that combines the biphenyl fragment with a flexible linker.

Design, synthesis and Anti-Plasmodial activity of Mortiamide-Lugdunin conjugates.

In this study, two linear and corresponding cyclic heptapeptide versions of mortiamide A-lugdunin hybrids were designed and synthesized by integrating an anti-malarial peptide epitope derived from Mortiamide A, combined with four residues known for their membrane interactions. Using this synthetic strategy, the sequence of mortiamide A was partly re-engineered with an epitope sequence of lugdunin along with an amino acid replacement using all-L and D/L configurations. Importantly, the re-engineered cyclic mortiamides with all-L (3) and D/L (4) configurations exhibited promising anti-malarial activities against the P.