A novel series of quinoline triazole amide analogues (38-51) has been synthesized. Analogues 38-44 had a Cl substituent at the 7-position of the quinoline ring, while 45-51 had a CN substituent at this position. Compounds 40, 45 and 49 were found to be the most active in the series against the Plasmodium falciparum chloroquine-sensitive D10 strain, with IC₅₀ values in the range of 349-1247 nM, with 40 and 45, but not 49 also exhibiting similar activity against the chloroquine-resistant K1 strain of parasite. Quinoline triazoles 40 and 44 were the most active β-haematin inhibitors, with 50% inhibitory concentrations of 14.7 and 8.9 μM respectively. In vitro antimalarial activity of the 7-Cl bearing analogues 38-44 exhibited a strong linear dependence of log(1/IC₅₀) on log P. Thus, the more lipophilic, the more active it was found be. The 7-CN series 45-51 showed no such dependence. The resistance index (IC₅₀ K1/IC₅₀ D10) also exhibited a linear dependence on log P, with a substantially steeper slope in the case of the 7-Cl series. The findings demonstrate the feasibility of producing hydrophilic analogues with strong activity and low cross-resistance with chloroquine.
Keywords: Antimalarial; Plasmodium falciparum; Resistance; Structure–activity relationships; β-Haematin.
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