Abstract

Treatment for schistosomiasis, which is responsible for more than 280,000 deaths annually, depends exclusively on the use of praziquantel. Millions of people are treated annually with praziquantel and drug resistant parasites are likely to evolve. In order to identify novel drug targets the Schistosoma mansoni sequence databases were queried for proteins involved in glutathione metabolism. One potential target identified was phytochelatin synthase (PCS). Phytochelatins are oligopeptides synthesized enzymatically from glutathione by PCS that sequester toxic heavy metals in many organisms. However, humans do not have a PCS gene and do not synthesize phytochelatins. In this study we have characterized the PCS of S. mansoni (SmPCS). The conserved catalytic triad of cysteine-histidine-aspartate found in PCS proteins and cysteine proteases is also found in SmPCS, as are several cysteine residues thought to be involved in heavy metal binding and enzyme activation. The SmPCS open reading frame is considerably extended at both the N- and C-termini compared to PCS from other organisms. Multiple PCS transcripts are produced from the single encoded gene by alternative splicing, resulting in both mitochondrial and cytoplasmic protein variants. Expression of SmPCS in yeast increased cadmium tolerance from less than 50 µM to more than 1,000 µM. We confirmed the function of SmPCS by identifying PCs in yeast cell extracts using HPLC-mass spectrometry. SmPCS was found to be expressed in all mammalian stages of worm development investigated. Increases in SmPCS expression were seen in ex vivo worms cultured in the presence of iron, copper, cadmium, or zinc. Collectively, these results indicate that SmPCS plays an important role in schistosome response to heavy metals and that PCS is a potential drug target for schistosomiasis treatment. This is the first characterization of a PCS from a parasitic organism.

Highlights

  • Schistosomiasis is a chronic disease caused by trematode flatworms of the genus Schistosoma

  • In this study our goal was to characterize a unique gene of Schistosoma mansoni that may be a candidate for drug targeting to control schistosomiasis

  • Our results confirm that schistosome phytochelatin synthase (PCS) produces phytochelatins that are capable of scavenging and detoxifying heavy metals

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Summary

Introduction

Schistosomiasis is a chronic disease caused by trematode flatworms of the genus Schistosoma. This neglected, poverty-related disease is found in more than 70 countries. It is estimated that more than 200 million people are afflicted with schistosomiasis, with 779 million at risk of infection, resulting in 280,000 deaths annually [1]. The low cost of the drug and its efficacy against adult worms of all schistosome species that infect humans has led to its widespread use; currently tens of millions receive annual treatments of PZQ [2]. S. mansoni subjected to drug pressure can develop resistance to praziquantel over the course of relatively few passages [3]. There is an urgent need to identify new targets and drugs for schistosomiasis treatment

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