Cytochrome bc inhibitors have been broadly studied as human and veterinary medicines and agricultural fungicides. For the most part, cytochrome bc inhibitors compete with ubiquinol at the ubiquinol oxidation (Qo) site or with ubiquinone at the quinone reduction (Qi) site. 4(1 H)-Quinolones with 3-position substituents may inhibit either site based on quinolone ring substituents. 4(1 H)-Quinolones that inhibit the Qi site are highly effective against toxoplasmosis, malaria, and babesiosis and do not inhibit human cytochrome bc. We tested a series of 4(1 H)-Quinolones against wild-type and drug resistant strains of Toxoplasma gondii and Plasmodium falciparum. These experiments identified very potent compounds that inhibit T. gondii proliferation at picomolar concentrations. The most potent compounds target the Qo site, and for these compounds, an alkyl side chain confers potency against T. gondii greater than that of bulkier side chains. Our experiments also show that substituents on the quinolone ring influenced selectivity between T. gondii and P. falciparum and between Qo and Qi site-mediated activity. Comparison of the parasite cytochrome b sequences identified amino acids that are associated with drug resistance in P. falciparum that exist naturally in wild-type T. gondii. These underlying differences may influence drug susceptibility. Finally, a Qo site active 4(1 H)-quinolone-3-diarylether tested in a murine model of toxoplasmosis was superior to atovaquone, resulting in survival from Type I strain T. gondii infection. These experiments identify highly effective compounds for toxoplasmosis and provide valuable insight into the structure-activity relationship of cytochrome bc inhibitors.
Bumped kinase inhibitors (BKIs) have been shown to be potent inhibitors of Toxoplasma gondii calcium-dependent protein kinase 1. Pyrazolopyrimidine and 5-aminopyrazole-4-carboxamide scaffold-based BKIs are effective in acute and chronic experimental models of toxoplasmosis. Through further exploration of these 2 scaffolds and a new pyrrolopyrimidine scaffold, additional compounds have been identified that are extremely effective against acute experimental toxoplasmosis. The in vivo efficacy of these BKIs demonstrates that the cyclopropyloxynaphthyl, cyclopropyloxyquinoline, and 2-ethoxyquinolin-6-yl substituents are associated with efficacy across scaffolds. In addition, a broad range of plasma concentrations after oral dosing resulted from small structural changes to the BKIs. These select BKIs include anti-Toxoplasma compounds that are effective against acute experimental toxoplasmosis and are not toxic in human cell assays, nor to mice when administered for therapy. The BKIs described here are promising late leads for improving anti-Toxoplasma therapy.Keywords. Toxoplasma gondii; toxoplasmosis treatment; bumped kinase inhibitors; calcium-dependent protein kinase 1. This work is written by (a) US Government employee(s) and is in the public domain in the US.
Acridone derivatives, which have
been shown to have in
vitro and in vivo activity against Plasmodium spp, inhibit Toxoplasma gondii proliferation at picomolar concentrations. Using enzymatic assays,
we show that acridones inhibit both T. gondii cytochrome bc
1 and dihydroorotate dehydrogenase
and identify acridones that bind preferentially to the Qi site of cytochrome bc
1. We identify
acridones that have efficacy in a murine model of systemic toxoplasmosis.
Acridones have potent activity against T. gondii and represent a promising new class of preclinical compounds.
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