Abstract
Theileriosis and babesiosis remain major constraints to livestock production, and increasing drug resistance necessitates alternative therapeutic strategies. Here, we evaluated the metal ionophore PBT2 for anti-piroplasm activity. PBT2 inhibited proliferation of two Theileria annulata schizont infected cell lines with IC(50) values of 450.9 nM and 407.8 nM and significantly reduced parasite burden. Colony formation was suppressed in both cell lines, consistent with parasite-associated growth inhibition. Cytotoxicity in BoMAC cells was limited, yielding a selectivity index exceeding 60-fold. ICP-MS analysis of purified schizonts showed dose-dependent Zn accumulation and concomitant Mn depletion following PBT2 treatment, whereas Cu and Fe levels were not significantly altered. In infected cells, PBT2 increased reactive oxygen species levels and reduced total superoxide dismutase activity. Partial restoration of viability by Mn supplementation supports a functional link between Mn depletion and growth inhibition. In a Babesia microti murine model, PBT2 reduced peak parasitemia in a dose-dependent manner and ameliorated infection-associated anemia. Our findings indicate PBT2 as a promising, safe, and broad-spectrum anti-piroplasm chemical compound that could be used to develop the drug formulation for controlling the infections of drug resistant piroplasm in future.