Large-scale RNAi screening uncovers therapeutic targets in the parasite Schistosoma mansoni

Jipeng Wang; Carlos Paz; Gilda Padalino; Avril Coghlan; Zhigang Lu; Irina Gradinaru; Julie N.R. Collins; Matthew Berriman; Karl F. Hoffmann; James J. Collins

doi:10.1126/science.abb7699

Large-scale RNAi screening uncovers therapeutic targets in the parasite Schistosoma mansoni

Jipeng Wang, Carlos Paz, Gilda Padalino, Avril Coghlan, Zhigang Lu, Irina Gradinaru, Julie N.R. Collins, Matthew Berriman, Karl F. Hoffmann, James J. Collins

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Abstract

Schistosome parasites kill 250,000 people every year. Treatment of schistosomiasis relies on the drug praziquantel. Unfortunately, a scarcity of molecular tools has hindered the discovery of new drug targets. Here, we describe a large-scale RNA interference (RNAi) screen in adult Schistosoma mansoni that examined the function of 2216 genes. We identified 261 genes with phenotypes affecting neuromuscular function, tissue integrity, stem cell maintenance, and parasite survival. Leveraging these data, we prioritized compounds with activity against the parasites and uncovered a pair of protein kinases (TAO and STK25) that cooperate to maintain muscle-specific messenger RNA transcription. Loss of either of these kinases results in paralysis and worm death in a mammalian host. These studies may help expedite therapeutic development and invigorate studies of these neglected parasites.

Original language	English (US)
Article number	eabb7699
Journal	Science
Volume	369
Issue number	6511
DOIs	https://doi.org/10.1126/science.abb7699
State	Published - Sep 25 2020

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title = "Large-scale RNAi screening uncovers therapeutic targets in the parasite Schistosoma mansoni",

abstract = "Schistosome parasites kill 250,000 people every year. Treatment of schistosomiasis relies on the drug praziquantel. Unfortunately, a scarcity of molecular tools has hindered the discovery of new drug targets. Here, we describe a large-scale RNA interference (RNAi) screen in adult Schistosoma mansoni that examined the function of 2216 genes. We identified 261 genes with phenotypes affecting neuromuscular function, tissue integrity, stem cell maintenance, and parasite survival. Leveraging these data, we prioritized compounds with activity against the parasites and uncovered a pair of protein kinases (TAO and STK25) that cooperate to maintain muscle-specific messenger RNA transcription. Loss of either of these kinases results in paralysis and worm death in a mammalian host. These studies may help expedite therapeutic development and invigorate studies of these neglected parasites.",

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AU - Wang, Jipeng

AU - Paz, Carlos

AU - Padalino, Gilda

AU - Coghlan, Avril

AU - Lu, Zhigang

AU - Gradinaru, Irina

AU - Collins, Julie N.R.

AU - Berriman, Matthew

AU - Hoffmann, Karl F.

AU - Collins, James J.

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AB - Schistosome parasites kill 250,000 people every year. Treatment of schistosomiasis relies on the drug praziquantel. Unfortunately, a scarcity of molecular tools has hindered the discovery of new drug targets. Here, we describe a large-scale RNA interference (RNAi) screen in adult Schistosoma mansoni that examined the function of 2216 genes. We identified 261 genes with phenotypes affecting neuromuscular function, tissue integrity, stem cell maintenance, and parasite survival. Leveraging these data, we prioritized compounds with activity against the parasites and uncovered a pair of protein kinases (TAO and STK25) that cooperate to maintain muscle-specific messenger RNA transcription. Loss of either of these kinases results in paralysis and worm death in a mammalian host. These studies may help expedite therapeutic development and invigorate studies of these neglected parasites.

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Large-scale RNAi screening uncovers therapeutic targets in the parasite Schistosoma mansoni

Abstract

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