Ultrafast Dynamics of Fully Reduced Flavin in Catalytic Structures of Thymidylate Synthase ThyX

Targeting Kinetoplastid and Apicomplexan Thymidylate Biosynthesis as an Antiprotozoal Strategy

Current Medicinal Chemistry ◽

10.2174/0929867325666180926154329 ◽

2019 ◽

Vol 26 (22) ◽

pp. 4262-4279 ◽

Cited By ~ 2

Author(s):

María Valente ◽

Antonio E. Vidal ◽

Dolores González-Pacanowska

Keyword(s):

Dihydrofolate Reductase ◽

Thymidylate Synthase ◽

Nucleotide Metabolism ◽

Human Pathogens ◽

Antiparasitic Activity ◽

Apicomplexan Parasites ◽

Promising Area ◽

Thymineless Death ◽

Repair Pathways ◽

Inhibitory Molecules

Kinetoplastid and apicomplexan parasites comprise a group of protozoans responsible for human diseases, with a serious impact on human health and the socioeconomic growth of developing countries. Chemotherapy is the main option to control these pathogenic organisms and nucleotide metabolism is considered a promising area for the provision of antimicrobial therapeutic targets. Impairment of thymidylate (dTMP) biosynthesis severely diminishes the viability of parasitic protozoa and the absence of enzymatic activities specifically involved in the formation of dTMP (e.g. dUTPase, thymidylate synthase, dihydrofolate reductase or thymidine kinase) results in decreased deoxythymidine triphosphate (dTTP) levels and the so-called thymineless death. In this process, the ratio of deoxyuridine triphosphate (dUTP) versus dTTP in the cellular nucleotide pool has a crucial role. A high dUTP/dTTP ratio leads to uracil misincorporation into DNA, the activation of DNA repair pathways, DNA fragmentation and eventually cell death. The essential character of dTMP synthesis has stimulated interest in the identification and development of drugs that specifically block the biochemical steps involved in thymine nucleotide formation. Here, we review the available literature in relation to drug discovery studies targeting thymidylate biosynthesis in kinetoplastid (genera Trypanosoma and Leishmania) and apicomplexan (Plasmodium spp and Toxoplasma gondii) protozoans. The most relevant findings concerning novel inhibitory molecules with antiparasitic activity against these human pathogens are presented herein.

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Crystal structures of thymidylate synthase from nematodes, Trichinella spiralis and Caenorhabditis elegans, as a potential template for species-specific drug design

Pteridines ◽

10.1515/pterid-2013-0011 ◽

2013 ◽

Vol 24 (1) ◽

pp. 87-91 ◽

Cited By ~ 1

Author(s):

Anna Dowierciał ◽

Piotr Wilk ◽

Wojciech Rypniewski ◽

Tomasz Frączyk ◽

Adam Jarmuła ◽

...

Keyword(s):

Caenorhabditis Elegans ◽

Crystal Structures ◽

Thymidylate Synthase ◽

Diffraction Data ◽

Trichinella Spiralis ◽

Diffusion Method ◽

Space Group ◽

C Elegans ◽

Thymidylate Synthases ◽

Species Specific

AbstractCrystal structures were solved of the binary complexes Trichinella spiralis and Caenorhabditis elegans thymidylate synthases with deoxyuridine monophosphate (dUMP), with crystals obtained by the vapor diffusion method in hanging drops. For the T. spiralis thymidylate synthase-dUMP complex, the diffraction data were collected at the BESSY Synchrotron to 1.9 Å resolution. The crystal belongs to the space group P1 with two dimers in the asymmetric unit (ASU). For the C. elegans TS-dUMP complex crystal, the diffraction data were collected at the BESSY Synchrotron to 2.48 Å resolution, and the crystal belongs to the space group P 32 2 1, with two monomers (one dimer) in the ASU. Structural comparisons were made of both structures and each of them with the corresponding mouse thymidylate synthase complex.

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Bacterial Thymidylate Synthase with Intein, Group II Intron, and Distinctive ThyX Motifs

Journal of Bacteriology ◽

10.1128/jb.186.18.6316-6319.2004 ◽

2004 ◽

Vol 186 (18) ◽

pp. 6316-6319 ◽

Cited By ~ 14

Author(s):

Xiang-Qin Liu ◽

Jing Yang

Keyword(s):

Thymidylate Synthase ◽

Hot Spot ◽

Group Ii Intron ◽

Mobile Elements ◽

Protein Splicing ◽

Thymidylate Synthases ◽

Its Gene ◽

Group Ii ◽

Self Splicing

ABSTRACT The ThyX class of thymidylate synthases was previously characterized by a common ThyX motif, RHRX7S. We report bacterial ThyX sequences having distinctive ThyX motifs, suggesting a more general ThyX motif, R/THRX7-8S. One ThyX sequence has an intein in its ThyX motif that was shown to do protein splicing and a group II intron in its gene, suggesting a hot spot for these self-splicing mobile elements.

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Kinetics of Plasmodium falciparum thymidylate synthase: interactions with high-affinity metabolites of 5-fluoroorotate and D1694.

Antimicrobial Agents and Chemotherapy ◽

10.1128/aac.40.7.1628 ◽

1996 ◽

Vol 40 (7) ◽

pp. 1628-1632 ◽

Cited By ~ 27

Author(s):

M Hekmat-Nejad ◽

P K Rathod

Keyword(s):

Plasmodium Falciparum ◽

Steady State ◽

Thymidylate Synthase ◽

Biochemical Parameters ◽

Potent Inhibitor ◽

Antimalarial Activity ◽

High Affinity ◽

Thymidylate Synthases ◽

Steady State Kinetics ◽

Kinetics Of

Consistent with a proposed mechanism for the potent antimalarial activity of 5-fluoroorotate, 5-fluoro-2'-deoxyuridylate inhibited Plasmodium falciparum thymidylate synthase with a Ki of 2 nM. Steady-state kinetics revealed no significant differences between malarial and mammalian thymidylate synthases. Thus, additional biochemical parameters must underlie the selective antimalarial activity of 5-fluoroorotate. A polyglutamylated folate analog, D1694-(glu)4, was also a potent inhibitor of malarial thymidylate synthase (Kis = 1.5 nM).

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Crystal structure of the flavin-dependent thymidylate synthase Thy1 from Thermus thermophilus with an extra C-terminal domain

Acta Crystallographica Section F Structural Biology Communications ◽

10.1107/s2053230x19007192 ◽

2019 ◽

Vol 75 (6) ◽

pp. 450-454

Author(s):

Aoba Ogawa ◽

Gen-ichi Sampei ◽

Gota Kawai

Keyword(s):

Crystal Structure ◽

Characteristic Feature ◽

Thymidylate Synthase ◽

Thermus Thermophilus ◽

Catalytic Reactions ◽

Database Analysis ◽

Terminal Domain ◽

Thymidylate Synthases ◽

Phosphate Ions ◽

Thymidine Monophosphate

The thymidylate synthases ThyA and Thy1 are enzymes that catalyse the formation of thymidine monophosphate from 2′-deoxyuridine monophosphate. Thy1 (or ThyX) requires flavin for catalytic reactions, while ThyA does not. In the present study, the crystal structure of the flavin-dependent thymidylate synthase Thy1 from Thermus thermophilus HB8 (TtThy1, TTHA1096) was determined in complex with FAD and phosphate at 2.5 Å resolution. TtThy1 is a tetrameric molecule like other Thy1 proteins, to which four FAD molecules are bound. In the crystal of TtThy1, two phosphate ions were bound to each dUMP-binding site. The characteristic feature of TtThy1 is the existence of an extra C-terminal domain (CTD) consisting of three α-helices and a β-strand. The function of the CTD is unknown and database analysis showed that this CTD is only shared by part of the Deinococcus–Thermus phylum.

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Two distinct pathways for thymidylate (dTMP) synthesis in (hyper)thermophilic Bacteria and Archaea

Biochemical Society Transactions ◽

10.1042/bst0320231 ◽

2004 ◽

Vol 32 (2) ◽

pp. 231-235 ◽

Cited By ~ 25

Author(s):

D. Leduc ◽

S. Graziani ◽

L. Meslet-Cladiere ◽

A. Sodolescu ◽

U. Liebl ◽

...

Keyword(s):

Thymidylate Synthase ◽

De Novo ◽

Thermophilic Bacteria ◽

De Novo Synthesis ◽

Microbial World ◽

Alternative Pathways ◽

Thymidylate Synthases ◽

Micro Organisms ◽

Similarity Searches ◽

Pyrococcus Abyssi

The hyperthermophilic anaerobic archaeon Pyrococcus abyssi, which lacks thymidine kinase, incorporates label from extracellular uracil, but not from thymidine, into its DNA. This implies that P. abyssi must synthesize dTMP (thymidylate), an essential precursor for DNA synthesis, de novo. However, iterative similarity searches of the three completed Pyrococcus genomes fail to detect candidate genes for canonical thymidylate synthase ThyA, suggesting the presence of alternative pathways for dTMP synthesis. Indeed, by identifying a novel class of flavin-dependent thymidylate synthases, ThyX, we have recently proven that two distinct pathways for de novo synthesis of dTMP are operational in the microbial world. While both thyX and thyA can be found in hyperthermophilic micro-organisms, the phylogenetic distribution of thyX among hyperthermophiles is wider than that of thyA. In this contribution, we discuss the differences in the distinct mechanisms of dTMP synthesis, with a special emphasis on hyperthermophilic micro-organisms.

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Sulfamide antifolates inhibiting thymidylate synthase: synthesis, enzyme inhibition and cytotoxicity.

Acta Biochimica Polonica ◽

10.18388/abp.2002_3799 ◽

2002 ◽

Vol 49 (2) ◽

pp. 407-420 ◽

Cited By ~ 8

Author(s):

Krzysztof Pawełczak ◽

Maciej Makowski ◽

Michał Kempny ◽

Jolanta M Dzik ◽

Barbara Gołos ◽

...

Keyword(s):

Thymidylate Synthase ◽

Growth Inhibitor ◽

Biological Evaluation ◽

Hymenolepis Diminuta ◽

Ehrlich Carcinoma ◽

Thymidylate Synthases ◽

Glutamic Acid Residue ◽

Synthase Inhibitor ◽

New Compounds ◽

Synthesis And Biological Evaluation

Synthesis and biological evaluation are described of seven new analogues (3-9) of two potent thymidylate synthase inhibitors, 10-propargyl-5,8-dideazafolate (1) and its 2-methyl-2-deamino congener ICI 198583 (2). While the new compunds 3 and 4 were analogues of 1 and 2, respectively, containing a p-aminobenzenesulfonyl residue in place of the p-aminobenzoic acid residue, the remaining 5 new compounds were analogues of 4 with the L-glutamic acid residue replaced by glycine (5), L-valine (6), L-alanine (7), L-phenylglycine (8) or L-norvaline (9). The new analogues were tested as inhibitors of thymidylate synthases isolated from tumour (Ehrlich carcinoma), parasite (Hymenolepis diminuta) and normal tissue (regenerating rat liver) and found to be weaker inhibitors than the parent 10-propargyl-5,8-dideazafolic acid. Selected new analogues, tested as inhibitors of growth of mouse leukemia L 5178Y cells, were less potent than the parent 10-propargyl-5,8-dideazafolic acid. Substitution of the glutamyl residue in compound 4 with L-norvaline (9) resulted in only a 5-fold stronger thymidylate synthase inhibitor, but a 40-fold weaker cell growth inhibitor.

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Trichinella spiralis and Trichinella pseudospiralis: developmental patterns of enzymes involved in thymidylate biosynthesis and pyrimidine salvage

Parasitology ◽

10.1017/s0031182099005880 ◽

2000 ◽

Vol 120 (6) ◽

pp. 593-600 ◽

Cited By ~ 9

Author(s):

W. RODE ◽

M. DĄBROWSKA ◽

Z. ZIELIŃSKI ◽

B. GOŁOS ◽

M. WRANICZ ◽

...

Keyword(s):

Thymidylate Synthase ◽

Kinase Activity ◽

Trichinella Spiralis ◽

Transferase Activity ◽

Thymidine Kinase Activity ◽

Developmental Patterns ◽

Trichinella Pseudospiralis ◽

Thymidylate Synthases ◽

Muscle Larvae ◽

Pyrimidine Salvage

Thymidylate synthase, dihydrofolate reductase and dUTPase specific activities were found to remain at a high and constant level in crude extracts from adult worms of Trichinella spiralis, as well as from muscle larvae of both Trichinella spiralis (isolated 1–24 months after infection) and Trichinella pseudospiralis (isolated 5·5–13 months after infection). The results obtained with Trichinella pseudospiralis muscle larvae isolated with the use of pepsin did not differ from those obtained when pepsin was not used. No thymidine kinase activity could be detected in muscle larvae of either species and thymidine phosphorylase could be found only in T. pseudospiralis larvae isolated without the use of pepsin. Muscle larvae of both species contained orotidylate phosphoribosyl transferase activity, pointing to a possibility of 5-fluorouracil activation. Uridine phosphorylase, another enzyme involved in 5-fluorouracil anabolism, was also present in T. pseudospiralis muscle larvae. Results of comparative studies on inhibition of purified T. spiralis and rat thymidylate synthases by substrate (4-thio-5-fluoro-dUMP, 2-thio-5-fluoro-dCMP and N4-hydroxy-dCMP) and cofactor (ZD 9331) analogues indicated only dUMP analogues to show feeble selectivity towards the parasite enzyme. A hypothesis is discussed, assuming high expression of thymidylate synthase in muscle larvae to be connected with their cells being arrested in the cell cycle.

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Targeting Methyltransferases in Human Pathogenic Bacteria: Insights into Thymidylate Synthase (TS) and Flavin-Dependent TS (FDTS)

Molecules ◽

10.3390/molecules24081638 ◽

2019 ◽

Vol 24 (8) ◽

pp. 1638 ◽

Cited By ~ 1

Author(s):

Cecilia Pozzi ◽

Ludovica Lopresti ◽

Giusy Tassone ◽

Stefano Mangani

Keyword(s):

Thymidylate Synthase ◽

Pathogenic Bacteria ◽

De Novo ◽

Functional Characterization ◽

Mechanisms Of Action ◽

Human Pathogenic Bacteria ◽

Thymidylate Synthases ◽

Open Debate ◽

Definition Of

In cells, thymidylate synthases provide the only de novo source of 2′-deoxythymidine-5′-monophosphate (dTMP), required for DNA synthesis. The activity of these enzymes is pivotal for cell survival and proliferation. Two main families of thymidylate synthases have been identified in bacteria, folate-dependent thymidylate synthase (TS) and flavin-dependent TS (FDTS). TS and FDTS are highly divergent enzymes, characterized by exclusive catalytic mechanisms, involving different sets of cofactors. TS and FDTS mechanisms of action have been recently revised, providing new perspectives for the development of antibacterial drugs targeting these enzymes. Nonetheless, some catalytic details still remain elusive. For bacterial TSs, half-site reactivity is still an open debate and the recent evidences are somehow controversial. Furthermore, different behaviors have been identified among bacterial TSs, compromising the definition of common mechanisms. Moreover, the redox reaction responsible for the regeneration of reduced flavin in FDTSs is not completely clarified. This review describes the recent advances in the structural and functional characterization of bacterial TSs and FDTSs and the current understanding of their mechanisms of action. Furthermore, the recent progresses in the development of inhibitors targeting TS and FDTS in human pathogenic bacteria are summarized.

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Molecular mechanism of thymidylate synthase-catalyzed reaction and interaction of the enzyme with 2- and/or 4-substituted analogues of dUMP and 5-fluoro-dUMP.

Acta Biochimica Polonica ◽

10.18388/abp.1996_4524 ◽

1996 ◽

Vol 43 (1) ◽

pp. 133-142 ◽

Cited By ~ 13

Author(s):

W Rode ◽

A Leś

Keyword(s):

Reaction Mechanism ◽

Molecular Modeling ◽

Thymidylate Synthase ◽

Pyrimidine Ring ◽

Inhibition Mechanism ◽

Inhibitory Potency ◽

Thymidylate Synthases ◽

Binding Inhibition ◽

Molecular Modeling Studies ◽

Thymidylate Synthase Inhibitors

Thymidylate synthase is a target enzyme in anticancer, antiviral, antifungal and antiprotozoan chemotherapy. With two dUMP analogues, 5-fluoro-dUMP (FdUMP) and 5-(trifluoromethyl)-dUMP (CF3dUMP), strong thymidylate synthase inhibitors and active forms of drugs, the inhibition mechanism is based on the reaction mechanism. Recent comparative studies of new dUMP analogues, containing more than one substituent in the pyrimidine ring, showed that substitution of the pyrimidine ring C(4) = O group in FdUMP by either C(4) = N-OH group (in N4-hydroxy-FdCMP) or C(4) = S group (in 4-thio-FdUMP) preserves high inhibitory potency of the drug but may alter its specificity for thymidylate synthases from various sources, which differ in sensitivity to slow-binding inhibition by FdUMP. Informations suggesting mechanisms responsible for the foregoing have been reviewed, including results of molecular modeling studies suggesting interaction of the pyrimidine C(4) = O group, or its modification, with the N5,10-methylene.(ABSTRACT TRUNCATED)

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