Susan Stasiuk scite author profile

Parasitic nematodes infect one quarter of the world's population and impact all humans through widespread infection of crops and livestock. Resistance to current anthelmintics has prompted the search for new drugs. Traditional screens that rely on parasitic worms are costly and labour intensive and target-based approaches have failed to yield novel anthelmintics. Here, we present our screen of 67,012 compounds to identify those that kill the non-parasitic nematode Caenorhabditis elegans. We then rescreen our hits in two parasitic nematode species and two vertebrate models (HEK293 cells and zebrafish), and identify 30 structurally distinct anthelmintic lead molecules. Genetic screens of 19 million C. elegans mutants reveal those nematicides for which the generation of resistance is and is not likely. We identify the target of one lead with nematode specificity and nanomolar potency as complex II of the electron transport chain. This work establishes C. elegans as an effective and cost-efficient model system for anthelmintic discovery.

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Parastrongyloides trichosuri, a nematode parasite of mammals that is uniquely suited to genetic analysis

Grant

Stasiuk

Newton-Howes

et al. 2006

International Journal for Parasitology

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Development of methods for RNA interference in the sheep gastrointestinal parasite, Trichostrongylus colubriformis

Issa

Grant

Stasiuk

et al. 2005

International Journal for Parasitology

109

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Developmental plasticity and the evolution of parasitism in an unusual nematode, Parastrongyloides trichosuri

Stasiuk

Scott

Grant

2012

EvoDevo

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BackgroundParasitism is an important life history strategy in many metazoan taxa. This is particularly true of the Phylum Nematoda, in which parasitism has evolved independently at least nine times. The apparent ease with which parasitism has evolved amongst nematodes may, in part, be due to a feature of nematode development acting as a pre-adaptation for the transition from a free-living to a parasitic life history. One candidate pre-adaptive feature for evolution in terrestrial nematodes is the dauer larva, a developmentally arrested morph formed in response to environmental signals.ResultsWe investigated the role of dauer development in the nematode, Parastrongyloides trichosuri, which has retained a complete free-living life cycle in addition to a life cycle as a mammalian gastrointestinal parasite. We show that the developmental switch between these life histories is sensitive to the same environmental cues as dauer arrest in free-living nematodes, including sensitivity to a chemical cue produced by the free-living stages. Furthermore, we show that genetic variation for the sensitivity of the cue(s) exists in natural populations of P. trichosuri, such that we derived inbred lines that were largely insensitive to the cue and other lines that were supersensitive to the cue.ConclusionsFor this parasitic clade, and perhaps more widely in the phylum, the evolution of parasitism co-opted the dauer switch of a free-living ancestor. This lends direct support to the hypothesis that the switch to developmental arrest in the dauer larva acted as a pre-adaptation for the evolution of parasitism, and suggests that the sensory transduction machinery downstream of the cue may have been similarly co-opted and modified.

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Susan Stasiuk

Caenorhabditis elegans is a useful model for anthelmintic discovery

Parastrongyloides trichosuri, a nematode parasite of mammals that is uniquely suited to genetic analysis

Development of methods for RNA interference in the sheep gastrointestinal parasite, Trichostrongylus colubriformis

Developmental plasticity and the evolution of parasitism in an unusual nematode, Parastrongyloides trichosuri

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