Corinne Nguyen scite author profile

Pyrimidine metabolism is a major route for therapeutic intervention against malaria. Here we report inhibition and structural studies on the deoxyuridine nucleotidohydrolase from the malaria parasite Plasmodium falciparum (PfdUTPase). We have identified a series of triphenylmethane derivatives of deoxyuridine with antimalarial activity in vitro which inhibit specifically the Plasmodium dUTPase versus the human enzyme. A 2.4 Angstrom crystal structure of PfdUTPase in complex with one of these inhibitors reveals an atypical trimeric enzyme in which the triphenylmethane derivative can be seen to select for PfdUTPase by way of interactions between the trityl group and the side chains of residues Phe46 and Ile117. Immunofluorescence microscopy studies of parasitized red blood cells reveal that enzyme concentrations are highest during the trophozoite/schizont stages, suggesting that PfdUTPase has a major role in DNA replication. Taken together the data show that PfdUTPase may be considered as an antimalarial drug target.

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Deoxyuridine Triphosphate Nucleotidohydrolase as a Potential Antiparasitic Drug Target

Nguyen

Kasinathan

Leal-Cortijo

et al. 2005

J. Med. Chem.

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This paper describes a structure-activity study to identify novel, small-molecule inhibitors of the enzyme deoxyuridine 5'-triphosphate nucleotidohydrolase (dUTPase) from parasitic protozoa. The successful synthesis of a variety of analogues of dUMP is described in which the substituents are introduced at the 3'- and 5'-positions, together with variation in the heteroatom at the 5'-position. The compounds were assayed against recombinant Plasmodium falciparum and Leishmania major enzymes and the human enzyme to give a measure of selectivity. The compounds were also tested in vitro against the intact parasites P. falciparum and L. donovani. A number of potent and selective inhibitors of the P. falciparum dUTPase that show drug-like properties and represent good leads for future development were identified. The best inhibitors included the compounds 5'-tritylamino-2',5'-dideoxyuridine (2j) (Ki = 0.2 microM) and 5'-O-triphenylsilyl-2',3'-didehydro-2',3'-dideoxyuridine (5h) (Ki = 1.3 microM), with selectivity greater than 200-fold compared to the human enzyme. Structural features important for antiplasmodial activity were determined. The correlation observed between the inhibition of the enzyme and the inhibition of the parasite growth in vitro demonstrates that the P. falciparum dUTPase constitutes a valid and attractive novel target for the development of much-needed new antimalarial drugs.

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Acyclic Nucleoside Analogues as Inhibitors ofPlasmodiumfalciparumdUTPase

et al. 2006

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We report the discovery of novel uracil-based acyclic compounds as inhibitors of deoxyuridine 5'-triphosphate nucleotidohydrolase (dUTPase), an enzyme involved in nucleotide metabolism that has been identified as a promising target for the development of antimalarial drugs. Compounds were assayed against both P.falciparum dUTPase and intact parasites. A good correlation was observed between enzyme inhibition and cellular assays. Acyclic uracil derivatives were identified that showed greater or similar potency and in general increased selectivity compared to previously reported inhibitors. The most active compound reported here against the P. falciparum enzyme had a K(i) of 0.2 microM. Molecular modeling studies provided a good rationale for the observed activities. Preliminary ADME studies indicated that some of the lead compounds are drug-like molecules. These compounds are useful tools for further investigating P. falciparum dUTPase for the development of much-needed novel antimalarial drugs.

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Modified 5′‐Trityl Nucleosides as Inhibitors of Plasmodium falciparum dUTPase

et al. 2011

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2'-Deoxyuridine triphosphate nucleotidohydrolase (dUTPase) is a potential drug target for the treatment of malaria. We previously reported the discovery of 5'-tritylated analogues of deoxyuridine as selective inhibitors of this Plasmodium falciparum enzyme. Herein we report further structure-activity studies; in particular, variations of the 5'-trityl group, the introduction of various substituents at the 3'-position of deoxyuridine, and modifications of the base. Compounds were tested against both the enzyme and the parasite. Variations of the 5'-trityl group and of the 3'-substituent were well tolerated and yielded active compounds. However, there is a clear requirement for the uracil base for activity, because modifications of the uracil ring result in loss of enzyme inhibition and significant decreases in antiplasmodial action.

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Site-directed mutagenesis provides insights into the selective binding of trityl derivatives to Plasmodium falciparum dUTPase

Recio

Musso-Buendia

Vidal

et al. 2011

European Journal of Medicinal Chemistry

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Kinetic properties and inhibition of the dimeric dUTPase-dUDPase fromCampylobacter jejuni

Musso-Buendia

Vidal

Kasinthan

et al. 2008

Journal of Enzyme Inhibition and Medicinal Chemistry

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The enzyme deoxyuridine 5 0 -triphosphate nucleotidohydrolase (dUTPase) catalyses the hydrolysis of dUTP to dUMP and PPi thus controlling the incorporation of uracil into DNA genomes. In Campylobacter jejuni dUTPase exhibits structural properties of dimeric proteins characteristic of protozoa of the Kinetoplastidae family. In the present study we perform a kinetic analysis of Campylobacter dUTPase using the continuous spectrophotometric method and show that the enzyme is highly specific for deoxyuridine nucleotides. The Michaelis-Menten constant for dUTP was 0.66 mM while the k cat was 12.3 s 21 . dUDP was also efficiently hydrolysed although the specificity constant, k cat /K m , was five fold lower than for dUTP. The reaction product and the non hydrolysable analogue a,b imido dUDP are potent inhibitors of the enzyme while several analogues of dUMP with substituents at the 3 0 -and 5 0 -positions active against trimeric dUTPases, show poor inhibitory activity. Apparent structural and kinetic differences with other eukaryotic dUTPases suggest that the present enzyme might be exploited as a target for new drugs against campylobacteriosis.

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Cover Picture: Synthesis and Evaluation of Indatraline‐Based Inhibitors for Trypanothione Reductase / Design, Synthesis and Biological Evaluation of Novel Inhibitors of Trypanosoma brucei Pteridine Reductase 1 / Modified 5′‐Trityl Nucleosides as Inhibitors of Plasmodium falciparum dUTPase (ChemMedChem 2/2011)

et al. 2011

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Arbitration in Vietnam

Vu¹,

Nguyen²

2014

JOIA

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Vietnam has undertaken many efforts over the years to promote and strengthen the role of arbitration in the settlement of the parties' international commercial disputes. These include the role of arbitration centres in Vietnam and the adoption of a certain number of laws and resolutions on arbitration. This article examines the overall achievements of the objectives fixed by Vietnamese authorities to consolidate the practice of arbitration in the country and to meet the needs and the expectations of foreign firms operating in Vietnam.

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Corinne Nguyen

dUTPase as a Platform for Antimalarial Drug Design: Structural Basis for the Selectivity of a Class of Nucleoside Inhibitors

Deoxyuridine Triphosphate Nucleotidohydrolase as a Potential Antiparasitic Drug Target

Acyclic Nucleoside Analogues as Inhibitors ofPlasmodiumfalciparumdUTPase

Modified 5′‐Trityl Nucleosides as Inhibitors of Plasmodium falciparum dUTPase

Site-directed mutagenesis provides insights into the selective binding of trityl derivatives to Plasmodium falciparum dUTPase

Kinetic properties and inhibition of the dimeric dUTPase-dUDPase fromCampylobacter jejuni

Arbitration in Vietnam

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