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Babesia duncani multi-omics identifies virulence factors and drug targets.

Pallavi SinghStefano LonardiQihua LiangPratap VydyamEleonora KhabirovaTiffany FangShalev GihazJose ThekkiniathMuhammad MunshiSteven AbelLoic CiampossinGayani BatugedaraMohit GuptaXueqing Maggie LuTodd LenzSakshar ChakravartyEmmanuel CornillotYangyang HuWenxiu MaLuis Miguel GonzálezSergio SánchezKarel EstradaAlejandro Sánchez-FloresEstrella MonteroOmar S HarbKarine Le RochChoukri Ben Mamoun
Published in: Nature microbiology (2023)
Babesiosis is a malaria-like disease in humans and animals that is caused by Babesia species, which are tick-transmitted apicomplexan pathogens. Babesia duncani causes severe to lethal infection in humans, but despite the risk that this parasite poses as an emerging pathogen, little is known about its biology, metabolic requirements or pathogenesis. Unlike other apicomplexan parasites that infect red blood cells, B. duncani can be continuously cultured in vitro in human erythrocytes and can infect mice resulting in fulminant babesiosis and death. We report comprehensive, detailed molecular, genomic, transcriptomic and epigenetic analyses to gain insights into the biology of B. duncani. We completed the assembly, 3D structure and annotation of its nuclear genome, and analysed its transcriptomic and epigenetics profiles during its asexual life cycle stages in human erythrocytes. We used RNA-seq data to produce an atlas of parasite metabolism during its intraerythrocytic life cycle. Characterization of the B. duncani genome, epigenome and transcriptome identified classes of candidate virulence factors, antigens for diagnosis of active infection and several attractive drug targets. Furthermore, metabolic reconstitutions from genome annotation and in vitro efficacy studies identified antifolates, pyrimethamine and WR-99210 as potent inhibitors of B. duncani to establish a pipeline of small molecules that could be developed as effective therapies for the treatment of human babesiosis.
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