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A single-cell RNA-seq atlas of <i>Schistosoma mansoni</i> identifies a key regulator of blood feeding

George Wendt, Lu Zhao, Rui Chen, Chenxi Liu, Anthony J. O’Donoghue, Conor R. Caffrey, Michael L. Reese, James J. Collins

2020Science231 citationsDOIOpen Access PDF

Abstract

Schistosome biology illuminated Schistosomiasis is caused by a parasitic flatworm about which little is known. Therefore, options to combat human disease caused by schistosome infection are limited. To aid in our quest to develop treatments, two studies undertook molecular investigations of the parasite Schistosoma mansoni . By generating a single-cell atlas, Wendt et al. identified the developmental trajectory of the flatworm, including the blood-feeding gut required for its survival in the host. From these data, they found a gene required for gut development that, when knocked out through RNA interference, confers reduced pathology in infected mice. Wang et al. performed a large-scale RNA interference survey of S. mansoni and identified an essential pair of protein kinases that can be targeted by approved pharmacological intervention (see the Perspective by Anderson and Duraisingh). These molecular investigations add to our understanding of the schistosome parasite and provide biological information that may help to combat this neglected tropical disease. Science , this issue p. 1644 , p. 1649 ; see also p. 1562

Topics & Concepts

FlatwormSchistosoma mansoniBiologySchistosomaParasite hostingRNA interferenceTropical diseaseRNADiseaseSchistosomiasisComputational biologyGeneImmunologyVirologyGeneticsHelminthsZoologyPathologyMedicineComputer scienceWorld Wide WebParasites and Host InteractionsParasite Biology and Host InteractionsGenetics, Aging, and Longevity in Model Organisms