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1.
Mol Biochem Parasitol ; 229: 24-34, 2019 04.
Article in English | MEDLINE | ID: mdl-30772423

ABSTRACT

Schistosoma mansoni, the parasite responsible for schistosomiasis, lacks the "de novo" purine biosynthetic pathway and depends entirely on the purine salvage pathway for the supply of purines. Numerous reports of praziquantel resistance have been described, as well as stimulated efforts to develop new drugs against schistosomiasis. Hypoxanthine-guanine phosphoribosyltransferase (HGPRT) is a key enzyme of the purine salvage pathway. Here, we describe a crystallographic structure of the S. mansoni HPGRT-1 (SmHGPRT), complexed with IMP at a resolution of 2.8 Ǻ. Four substitutions were identified in the region of the active site between SmHGPRT-1 and human HGPRT. We also present data from RNA-Seq and WISH, suggesting that some isoforms of HGPRT might be involved in the process related to sexual maturation and reproduction in worms; furthermore, its enzymatic assays show that the isoform SmHGPRT-3 does not present the same catalytic efficiency as other isoforms. Finally, although other studies have previously suggested this enzyme as a potential antischistosomal chemotherapy target, the kinetics parameters reveal the impossibility to use SmHGPRT as an efficient chemotherapeutic target.


Subject(s)
Helminth Proteins/chemistry , Helminth Proteins/genetics , Hypoxanthine Phosphoribosyltransferase/chemistry , Hypoxanthine Phosphoribosyltransferase/genetics , Isoenzymes/chemistry , Isoenzymes/genetics , Schistosoma mansoni/enzymology , Amino Acid Sequence , Animals , Catalytic Domain , Helminth Proteins/metabolism , Hypoxanthine Phosphoribosyltransferase/metabolism , Isoenzymes/metabolism , Kinetics , Molecular Sequence Data , Reproduction , Schistosoma mansoni/chemistry , Schistosoma mansoni/genetics , Schistosoma mansoni/physiology , Sequence Alignment
2.
Mol Biochem Parasitol ; 214: 27-35, 2017 06.
Article in English | MEDLINE | ID: mdl-28347672

ABSTRACT

Schistosoma mansoni is the parasite responsible for schistosomiasis, a disease that affects about 218 million people worldwide. Currently, both direct treatment and disease control initiatives rely on chemotherapy using a single drug, praziquantel. Concerns over the possibility of resistance developing to praziquantel, have stimulated efforts to develop new drugs for the treatment of schistosomiasis. Schistosomes do not have the de novo purine biosynthetic pathway, and instead depend entirely on the purine salvage pathway to supply its need for purines. The purine salvage pathway has been reported as a potential target for developing new drugs against schistosomiasis. Adenylosuccinate lyase (SmADSL) is an enzyme in this pathway, which cleaves adenylosuccinate (ADS) into adenosine 5'-monophosphate (AMP) and fumarate. SmADSL kinetic characterization was performed by isothermal titration calorimetry (ITC) using both ADS and SAICAR as substrates. Structures of SmADSL in Apo form and in complex with AMP were elucidated by x-ray crystallography revealing a highly conserved tetrameric structure required for their function since the active sites are formed from residues of three different subunits. The active sites are also highly conserved between species and it is difficult to identify a potent species-specific inhibitor for the development of new therapeutic agents. In contrast, several mutagenesis studies have demonstrated the importance of dimeric interface residues in the stability of the quaternary structure of the enzyme. The lower conservation of these residues between SmADSL and human ADSL could be used to lead the development of anti-schistosomiasis drugs based on disruption of subunit interfaces. These structures and kinetics data add another layer of information to Schistosoma mansoni purine salvage pathway.


Subject(s)
Adenylosuccinate Lyase/chemistry , Adenylosuccinate Lyase/metabolism , Schistosoma mansoni/enzymology , Adenosine Monophosphate/metabolism , Adenylosuccinate Lyase/genetics , Animals , Catalytic Domain , Conserved Sequence , Crystallography, X-Ray , Fumarates/metabolism , Kinetics , Models, Molecular , Protein Binding , Protein Conformation , Protein Multimerization , Protein Stability
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