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Abstract
Schistosomiasis is caused by parasites of the genus Schistosoma, which infect more than 200 million people. Praziquantel (PZQ) has been the main drug for controlling schistosomiasis for over four decades, but despite that it is ineffective against juvenile worms and size and taste issues with its pharmaceutical forms impose challenges for treating school-aged children. It is also important to note that PZQ resistant strains can be generated in laboratory conditions and observed in the field, hence its extensive use in mass drug administration programs raises concerns about resistance, highlighting the need to search for new schistosomicidal drugs. Schistosomes survival relies on the redox enzyme thioredoxin glutathione reductase (TGR), a validated target for the development of new anti-schistosomal drugs. Here we report a high-throughput fragment screening campaign of 768 compounds against S. mansoni TGR (SmTGR) using X-ray crystallography. We observed 49 binding events involving 35 distinct molecular fragments which were found to be distributed across 16 binding sites. Most sites are described for the first time within SmTGR, a noteworthy exception being the “doorstop pocket” near the NADPH binding site. We have compared results from hotspots and pocket druggability analysis of SmTGR with the experimental binding sites found in this work, with our results indicating only limited coincidence between experimental and computational results. Finally, we discuss that binding sites at the doorstop/NADPH binding site and in the SmTGR dimer interface, should be prioritized for developing SmTGR inhibitors as new antischistosomal drugs.
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1 Oswaldo Cruz Institute, FIOCRUZ, LaBECFar - Laboratory of Experimental and Computational Biochemistry of Drugs, Rio de Janeiro, Brazil (GRID:grid.418068.3) (ISNI:0000 0001 0723 0931)
2 Diamond Light Source Ltd, Harwell Science and Innovation Campus, Harwell, UK (GRID:grid.18785.33) (ISNI:0000 0004 1764 0696); Research Complex at Harwell, Harwell Science and Innovation Campus, Harwell, UK (GRID:grid.465239.f)
3 University of Oxford, Division of Structural Biology, The Wellcome Centre for Human Genetics, Oxford, UK (GRID:grid.4991.5) (ISNI:0000 0004 1936 8948)
4 Department of Infection Biology, London School of Hygiene and Tropical Medicine, London, UK (GRID:grid.8991.9) (ISNI:0000 0004 0425 469X)
5 Universidade Federal de Goiás, LabMol - Laboratory for Molecular Modeling and Design, Faculty of Pharmacy, Goiânia, Brazil (GRID:grid.411195.9) (ISNI:0000 0001 2192 5801)
6 Universidade Federal de Goiás, Laboratory of Cheminformatics, Faculty of Pharmacy, Goiânia, Brazil (GRID:grid.411195.9) (ISNI:0000 0001 2192 5801)
7 Universidade Federal de Goiás, LabMol - Laboratory for Molecular Modeling and Design, Faculty of Pharmacy, Goiânia, Brazil (GRID:grid.411195.9) (ISNI:0000 0001 2192 5801); University of São Paulo, CRAFT - Center for Research and Advancement of Fragments and Molecular Targets, São Paulo, Brazil (GRID:grid.11899.38) (ISNI:0000 0004 1937 0722)
8 Diamond Light Source Ltd, Harwell Science and Innovation Campus, Harwell, UK (GRID:grid.18785.33) (ISNI:0000 0004 1764 0696); Research Complex at Harwell, Harwell Science and Innovation Campus, Harwell, UK (GRID:grid.465239.f); University of Oxford, Centre for Medicines Discovery, Oxford, UK (GRID:grid.4991.5) (ISNI:0000 0004 1936 8948); University of Johannesburg, Department of Biochemistry, Johannesburg, South Africa (GRID:grid.412988.e) (ISNI:0000 0001 0109 131X)
9 University of Oxford, Division of Structural Biology, The Wellcome Centre for Human Genetics, Oxford, UK (GRID:grid.4991.5) (ISNI:0000 0004 1936 8948); Rosalind Franklin Institute, Structural Biology, Harwell, UK (GRID:grid.507854.b)