Fernando Hidalgo-Zarco scite author profile

Fernando Hidalgo-Zarco

4Publications

79Citation Statements Received

81Citation Statements Given

How they've been cited

121

How they cite others

Affiliations

Institute of Parasitology and Biomedicine "López-Neyra", Spanish National Research Council

Publications

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Kinetic properties and inhibition of the dimeric dUTPase‐dUDPase from Leishmania major

et al. 2001

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Kinetic properties of the dimeric enzyme dUTPase from Leishmania major were studied using a continuous spectrophotometric method. dUTP was the natural substrate and dUMP and PPi the products of the hydrolysis. The trypanosomatid enzyme exhibited a low K m value for dUTP (2.11 M), a k cat of 49 s −1 , strict Michaelis-Menten kinetics and is a potent catalyst of dUDP hydrolysis, whereas in other dUTPases described, this compound acts as a competitive inhibitor. Discrimination is achieved for the base and sugar moiety showing specificity constants for different dNTPs similar to those of bacterial, viral, and human enzymes. In the alkaline range, the K m for dUTP increases with the dissociation of ionizable groups showing pK a values of 8.8, identified as the uracil moiety of dUTP and 10, whereas in the acidic range, K m is regulated by an enzyme residue exhibiting a pK a of 7.1. Activity is strongly inhibited by the nucleoside triphosphate analog ␣-␤-imido-dUTP, indicating that the enzyme can bind triphosphate analogs. The existence of specific inhibition and the apparent structural and kinetic differences (reflected in different binding strength of dNTPs) with other eukaryotic dUTPases suggest that the present enzyme might be exploited as a target for new drugs against leishmaniasis.

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Trypanosomal dUTPases as Potential Targets for Drug Design

Hidalgo-Zarco

González-Pazanowska²

2001

CPPS

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Parasites of the Trypanosomatidae family are responsible for diseases that afflict several million people worldwide. Currently there is an urgent need for new drugs against these diseases and an approach to drug discovery is the study of biochemical and structural properties of a potential target and the subsequent design of specific compounds. Trypanosomatid genes coding for enzymes which distinctively hydrolyze dUTP have been isolated by genetic complementation in Escherichia coli mutants defective in dUTPase activity. An analysis of these sequences from Leishmania major and Trypanosoma cruzi showed that no significant similarity could be established with the family of known dUTPases and that the five consensus motifs were absent. However, limited similarity was identified for three motifs present in an enzyme related in function the dCTPase-dUTPase from T phages and 35 percent identity with a putative dUTPase identified in the eubacteria Campylobacter jejuni. T. cruzi and L. major dUTPases were highly similar and catalyzed in a specific fashion the hydrolysis of dUTP. A detailed kinetic study of both enzymes revealed that dUDP is also an efficient substrate of the enzyme while other nucleotides are poorly hydrolyzed. The enzyme is essential for viability in Leishmania and is up-regulated by inhibitors of dTMP synthesis. Thus, a new family of dUTPases might exist in certain organisms that bear no sequence or structure similarity with eukaryotic enzymes accomplishing the same function and that may constitute potential drug targets for the development of specific inhibitors.

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Properties of Leishmania major dUTP nucleotidohydrolase, a distinct nucleotide-hydrolysing enzyme in kinetoplastids

Camacho

Hidalgo-Zarco

Bernier-Villamor

et al. 2000

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We have previously reported the presence, in the parasitic protozoan Leishmania major, of an enzyme involved in controlling intracellular dUTP levels. The gene encoding this enzyme has now been overexpressed in Escherichia coli, and the recombinant enzyme was purified to homogeneity. Biochemical and enzymic analyses of the Leishmania enzyme show that it is a novel nucleotidohydrolase highly specific for deoxyuridine 5'-triphosphate. The enzyme has proved to be a dimer by gel filtration and is able to hydrolyse both dUTP and dUDP quite efficiently, acting as a dUTP nucleotidohydrolase (dUTPase)-dUDP nucleotidohydrolase but has a limited capacity to act upon other nucleoside di- or triphosphates. The reaction products are dUMP and PP(i) when dUTP is the substrate and dUMP and P(i) in the case of dUDP. The enzyme is sensitive to inhibition by the reaction product dUMP but not by PP(i). dUTPase activity is highly dependent on Mg(2+) concentrations and markedly sensitive to the phosphatase inhibitor, NaF. In summary, Leishmania dUTPase appears to be markedly different to other proteins characterized previously that accomplish the same function.

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Characterization of deoxyuridine 5′‐triphosphate nucleotidohydrolase from Trypanosoma cruzi¹

et al. 2002

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We report the cloning and kinetic characterization of Trypanosoma cruzi deoxyuridine 5P P-triphosphate nucleotidohydrolase (dUTPase) whose coding sequence was isolated by genetic complementation in Escherichia coli. The deduced amino acid sequence was similar to Leishmania major dUTPase although it exhibits an amino acid insertion which is sensitive to protease inactivation. The catalytically active species of the enzyme is a dimer and a detailed kinetic characterization showed that it is highly speci¢c for dUTP and dUDP. The general observation that dUTPases from the Trypanosomatidae di¡er in sequence, conformation and substrate speci¢city suggests that a di¡erent family of dUTPases exists in certain organisms, which may be exploited as drug targets against infectious diseases. ß 2002 Published by Elsevier Science B.V. on behalf of the Federation of European Biochemical Societies.

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