Atovaquone (ATV) has a growth inhibitory effect against Babesia gibsoni. The target site is considered mitochondria, as in the case of Plasmodium spp.; ATV would collapse the mitochondrial membrane potential. B. gibsoni has also reported that single nucleotide polymorphisms in cytochrome b of mitochondria are involved in ATV susceptibility. However, the details are still unknown. The study aim was to measure the mitochondrial membrane potential of B. gibsoni and evaluate the effect of ATV alone and combined with proguanil (PG) on the mitochondrial membrane potential. As a result of exposure of wild-type B. gibsoni to ATV alone, the number of cells with decreased mitochondrial membrane potential increased. When wild-type B. gibsoni was exposed to the ATV + PG combination, the peak value of mitochondrial membrane potential was larger than that when exposed to ATV alone. It was suggested that ATV alone affects the mitochondrial membrane potential of B. gibsoni, and the effect is enhanced by the combination of ATV and PG. The effect of ATV was weakened for B. gibsoni having reduced sensitivity to ATV (B. gibsoni with M121I), and the effect was not enhanced by the combination of ATV and PG. Although we still need to elucidate the mechanism of ATV and PG for B. gibsoni, these results strongly suggests that the target of ATV for B. gibsoni is also cytochrome b of mitochondria.
Keywords: Atovaquone; Babesia gibsoni; M121I; Mitochondrial membrane potential; Proguanil.
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