AI Article Synopsis
- The rise of resistance in malaria-causing Plasmodium parasites highlights the urgent need for new treatments, as current antimalarials are becoming less effective.
- Researchers have developed a new series of pantothenamide analogues that replace a vulnerable chemical group with an isoxazole ring, enhancing their stability and biological activity.
- Thirteen new compounds showed strong anti-Plasmodium activity and low toxicity to human cells, demonstrating the potential of late-stage diversification to create effective and safer antimalarials.
Article Abstract
The emergence of resistance to nearly every therapeutic agent directed against malaria-causing Plasmodium parasites emphasises the dire need for new antimalarials. Despite their high potency and low cytotoxicity in vitro, the clinical use of pantothenamides is hindered by pantetheinase-mediated hydrolysis in human serum. We herein report the chemical synthesis and biological activity of a new series of pantothenamide analogues in which the labile amide group is replaced with an isoxazole ring. In addition, we utilised, for the first time, enzymatic late-stage diversification to generate additional isoxazole-containing pantothenamide-mimics. Thirteen novel isoxazole-containing pantothenamide-mimics were generated, several of which display nanomolar antiplasmodial activity against Plasmodium falciparum and are non-toxic to human cells in vitro. Although the derivatives generated via late-stage diversification are less potent than the parent compounds, the most potent still exerted its activity via a mechanism that interferes with the pantothenate-utilising process and appears to be nontoxic to human cells. This increases the appeal of using late-stage diversification to modify pantothenamide-mimics, potentially leading to compounds with improved antiplasmodial and/or pharmacological properties.
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| http://dx.doi.org/10.1016/j.ejmech.2024.116902 | DOI Listing |
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