Fosfonátové a fosfinátové deriváty dipicolylaminu / Phosphonate and phosphinate derivatives of dipicolylamine

Hlinová, Veronika

January 2017

The Diploma Thesis deals with preparation of one phoshonate and two phospinate derivatives of dipicolylamine. Dissociation constants of prepared ligands were determined by potentiometric and NMR titration. Coordination properties of the compounds were studied by combination of potentiometry and UV-VIS spectrophotometry. Stability constants of complexes with selected transition metal ions (Cu2+ , Ni2+ a Zn2+ ) and alkali-earth metals ions (Ca2+ , Mg2+ ) were calculated. Acid-base and coordination properties in the solid state were studied by X-ray diffraction on single-crystals.

Synthesis of novel inhibitors of 1-Deoxy-D-xylulose-5-phosphate reductoisomerase as potential anti-malarial lead compounds

Mutorwa, Marius Kudumo

January 2011

This research has focused on the development of novel substrate mimics as potential DXR inhibitors of 1-deoxy-D-xylulose-5-phosphate reductoisomerase (DXR), an essential enzyme in the mevalonate-independent pathway for the biosynthesis of isoprenoids in Plasmodium falciparum. DXR mediates the isomerisation and reduction of 1-deoxy-D-xylulose-5-phosphate (DOXP) into 2C-methyl-D-erithrytol 4-phosphate (MEP) and has been validated as an attractive target for the development of novel anti-malarial chemotherapeutic agents. Reaction of various amines with specially prepared 4-phosphonated crotonic acid in the presence of the peptide coupling reagent, 1-ethyl-3-(3-dimethylaminopropyl)carbodiimide (EDC), has afforded a series of amido-phosphonate esters in moderate to good yields (48% - 73%) which, using a RuCl₃/CeCl₃/NaIO₄ catalyst system, have been dihydroxylated to furnish the dihydroxy-amido phosphonate ester pro-drugs; subsequent hydrolysis under microwave irradiation has afforded the corresponding phosphonic acids. A second series of potential inhibitors viz., 3-substituted aniline-derived phosphonate esters, their corresponding phosphonic acids and mono-sodium salts, have also been successfully synthesised. In these compounds, the essential functional groups are separated by one, two, three or four methylene groups, Deprotonation of the 3-substituted aniline substrates, followed by reaction with the appropriate ω-chloroalkanoyl chloride produced the ω-chloroamide intermediates, which were subjected to the Michaelis-Arbuzov reaction to afford the diethyl phosphonate esters in moderate to good yields (48% - 74%). Microwave-assisted TMSBrmediated cleavage of the phosphonate esters furnished the phosphonic acids, neutralisation of which afforded the mono-sodium salts. Furan-derived phosphate esters and phosphonic acids have been prepared as conformationally-restricted DOXP analogues. Functionalization at C-5 of the trityl-protected furan was achieved using the Vilsmeier-Haack formylation and Friedel-Crafts acylation reactions and, following de-tritylation, phosphorylation and oximation, using hydroxylamine hydrochloride, the novel oxime derivatives have been isolated as a third series of potential DXR inhibitors in very good yields (87% - 96%). Finally, in order to exploit an additional binding pocket in the PƒDXR active site, a series of N-benzylated phosphoramidic derivatives were obtained in seven steps from the starting material, diethyl phosphoramidate. The known inhibitors, fosmidomycin and its acetyl derivative FR900098, were also successfully synthesised as standards for STD-NMR binding and inhibition assays. In all, over 200 compounds (136 novel) have been prepared and appropriately characterised using 1-and 2-D NMR and IR spectroscopic analysis and, where necessary, HRMS or combustion analysis. Saturation Transfer Difference (STD) protein-NMR experiments, undertaken using selected compounds, have revealed binding of most of the ligands examined to EcDXR. Computersimulated docking studies have also been used to explore the preferred ligand-binding conformations and interactions between the ligands and essential DXR active-site residues, while DXR-enzyme inhibition assays of selected synthesised ligands have revealed certain patterns of inhibitory activity.

Antimalarials -- Development

Plasmodium falciparum

Malaria -- Chemotherapy

Drug development

Lead compounds

Phosphonates

Phosphonic acids

Ligands

Syntéza analogů nukleosidů založených na derivátech 2-deoxy-2-fluor- a 3-deoxy-3-fluor-D-ribosy a pyrazinu / Synthesis of nucleoside analogs based on derivatives of 2-deoxy-2-fluoro- and 3-deoxy-3-fluoro-D-ribose and pyrazines

Smolka, Ondřej

January 2020

This thesis deals with the synthesis of prodrugs based on analogs of nucleoside phosphonates derived from 6-fluoro-3-hydroxypyrazine-2-carboxamide (T-705) and 3- hydroxypyrazine-2-carboxamide (T-1105). T-705 and T-1105 act as inhibitors of an influenza RNA polymerase. Both compounds mimic naturally occurring nucleobases, so their fluorinated nucleoside phosphonates could also be biologically active. Derivatives of 2-deoxy-2-fluoro-D-ribose (2-FdR) were prepared in this work. Because of complications during the syntthesis of 3-deoxy-3-fluoro-D-ribose (3-FdR) derivatives, 5- deoxy-5-fluoro-D-xylose (5-FdX) derivatives were prepared instead. Deoxyfluorination was done after incorporation of suitable protecting groups followed by selective deprotection and phosphonate binding. Furthermore nucleosides were synthetised using silyl-Hilbert-Johnson method and their bis-POM derivattives were also prepared. Key words: favipiravir (T-705), T-1105, prodrugs, phosphonates, fluorinated nucleosides

Development, characterization, and application of RNA catalysts for in situ labeling of target RNA molecules

Ghaem Maghami, Mohammad

06 July 2020

No description available.

572

Ribozyme

In vitro selection

RNA labeling

acyclic nucleotide phosphonates

Biologie (PPN619462639)

Synthesis of Bis(2,2,2-Trifluoroethyl) (Z)-Vinylphosphonates

Rizzo, Lee A.

24 September 2013

No description available.

Agricultural Chemicals

Chemistry

Organic Chemistry

Pharmaceuticals

vinyl phosphonates

hydrogenation

semi-reduction

lindlar catalyst

Synthesis of bis(2,2,2-trifluoroethyl) β-ketophosphonates from bis(2,2,2-trifluoroethyl) 1-alkynylphosphonates via enamine vinyl phosphonates

DePizzo, Ashley

20 October 2010

No description available.

Chemistry

Organic Chemistry

&946

-ketophosphonates

alkynylphosphonates

enamine vinyl phosphonates

acid hydrolysis

Synthesis of C-phosphonic acid, C-phosphinic acid, and C-sulfone analogs of decaprenolphosphoarabinose: Inhibitors of mycobacterial arabinosyltransferases

Centrone, Charla Anne

06 August 2003

No description available.

Chemistry, Organic

decaprenolphosphoarabinose

inhibitors of arabinosyltransferases

C-phosphonates

phosphonic acids

phosphinic acids

C-sulfones

Synthèse d'analogues nucléotidiques visant l'inhibition de la Thymidylate Synthase Flavine-Dépendante / Synthesis of nucleotides analogs targeting the inhibition of Flavin-Dependent Thymidylate Synthase

Chevrier, Florian

24 October 2018

Ces dernières années, l’OMS a émis un signal d’alarme à propos de l’occurrence majeure de résistance bactérienne qui constitue un problème de santé publique global. A ce titre, la recherche de nouvelles cibles enzymatiques et le développement de nouveaux antibactériens ciblant ces dernières de manière sélective constitue alors un enjeu actuel impératif. La mise en évidence d’une nouvelle enzyme de la famille des thymidylates synthases par l’équipe de Myllykallio en 2002 et son étude a permis de faire de cette dernière une cible de choix pour la conception de nouveaux antibactériens par sa présence exclusive chez des bactéries pathogènes pour l’Homme, sa non-similarité structurelle avec l’enzyme thymidylate synthase classique et son mécanisme particulier mettant en jeu un couple de cofacteurs oxydo-réducteurs(NADPH/FAD). Ce manuscrit, divisé en trois grandes parties, s’intéresse dans un premier temps à la synthèse métallo-catalysé de nouveaux analogues nucléotidiques du FAD substitué sur l’azote centrale par une chaîne acyclique de type alkényle phosphonate. Dans un second temps, le manuscrit traite de la translation de cette même chaîne latérale sur l’azote N1 couplée à un large panel de base hétéroaromatiquebicyliques ou tricycliques par deux réactions clés : une alkylation régiosélective en conditions deVorbrüggen et une étape de métathèse croisée. Enfin, la troisième partie porte sur la préparation d’acyclonucléosides comportant un motif d’intérêt de type gem-difluoromethylphosphonate connu comme étant un mime isostérique et isoélectronique du groupement phosphate. L’incorporation de ce motif a permis la synthèse de petite librairie d’ANPs inédits à visée anti-FDTS et anti-virales. / In recent years, WHO has warned against the major occurrence of bacterial resistance as a global public health problem. As such, the search for new enzymatic targets and the development of new antibacterials targeting them selectively is therefore an imperative challenge. The discovery of a new enzyme among the family of thymidylate synthases by Myllykallio’s team in 2002 and its study has made it a prime target for the design of new antibacterials by its sole presence in pathogenic bacteria, its structural dissimilarity with the classical thymidylate synthase enzyme and its singular mechanism involving a pair of oxido-reducingcofactors (NADPH / FAD).This manuscript, divided into three main parts, is initially interested in the metallocatalytic synthesis of new nucleotide analogues of FAD substituted on the central nitrogen by analkenyl phosphonate acyclic chain. In the second part, the manuscript deals with the translation of this same side chain on nitrogen N1 on a large panel of bicylic or tricyclic heteroaromatic base through two keyreactions: a regioselective alkylation under Vorbrüggen conditions and a cross metathesis step. Finally, th ethird part relates to the preparation of acyclonucleosides comprising a gem-difluoromethylphosphonatefunctional group which is known to be an isosteric and isoelectronic mimic of the phosphate group. The incorporation of this moeitie has allowed the synthesis of a small library of novel ANPs for anti-FDTS andanti-viral purposes.

Résistance bactérienne

Antibactériens

FDTS

Thymidylate synthase

Flavine

5-déazaflavine

Phosphononucléosides

Alkényles phosphonates

Métathèse

Difluorométhylphosphonates

Bacterial resistance

Antibacterials

FDTS

Thymidylate synthase

Flavin

5-deazaflavin

Phosphonucleosides

Alkenyl phosphonates

Metathesis

Difluoromethylphosphonates

547

Synthèse métallo-catalysée d'acyclonucléosides phosphonates, de nucléosides et d'hétérocycles à visée antivirale / Metallo-catalyzed synthesis of acyclic nucleoside phosphonates, nucleosides and heterocycles with potential antiviral activities

Sari, Ozkan

11 December 2013

Les nucléosides modifiés représentent aujourd'hui une famille incontournable dans la chimiothérapie antivirale. Leur développement progressif au cours de ces 50 dernières années a permis d'endiguer de nombreuses épidémies et d'apporter des traitements efficaces contre de nombreux virus tels que les herpès, les hépatites ou encore le VIH. Toutefois, les infections virales continuent de représenter un problème de santé publique majeur en raison de l'émergence de souches virales résistante aux traitements existants ainsi que l'apparition de nouveaux virus. A ce titre, le développement de nouveaux antiviraux plus actifs, plus sûrs et/ou possédant des modes d'action alternatifs reste plus que jamais d‘actualité. Ce manuscrit, divisé en deux grandes parties, présente d'abord la synthèse métallo-catalysée de nouvelles familles de dérivés nucléosidiques (acycliques et osidiques) puis s'étend ensuite à la préparation de dérivés hétérocycliques à visée anti-VIH. Ainsi, dans une première partie, l'utilisation de réactions de métathèses croisées, catalysées au Ru et activées par les ultrasons, ainsi que l'emploi de lipases dans des réactions de protections/déprotections régiosélectives nous ont permis d'élaborer deux nouvelles familles de nucléosides acycliques alkényles. D'autre part, des réactions d'hétérocouplages acétyléniques catalysées au Ni/Cu ont été réalisés dans le cadre de la synthèse d'une bibliothèque de 2'-déoxyuridines portant un motif 1,3-diyne en position C5. Dans une deuxième partie, la réaction multicomposante de Biginelli a été utilisée dans le développement d'une série de dérivés de dihydropyrimidines β-dicétoacides à visée anti-VIH par inhibition de l'intégrase virale. / Modified nucleosides represent the cornerstone of antiviral chemotherapy. Their progressive development over the last 50 years permitted to contain many epidemics and provided effective treatments against many viruses such as herpes, hepatitis or HIV. However, viral infections remain a major public health problem due to the emergence of resistant strains to existing treatments and the appearance of new viruses. As such, the development of new antivirals, most active and safer and/or acting through alternative mechanisms remains, more than ever, necessary. In this context, the work presented in this manuscript are part of the effort to design and synthesize new molecules with antiviral activities. This manuscript, divided in two parts, firstly focus on the metallo-catalyzed synthesis of new families of nucleoside derivatives (acyclic and osidic) and continue with the synthesis of heterocyclic structures targeting anti-HIV activity. Thus, the use of Ru-catalyzed metathesis reactions under ultrasonic activation and the lipases-catalyzed regioselective protection/deprotection reactions allowed us to develop two new families of alkenyl acyclic nucleosides. The synthesis and antiviral evaluation of C5-(1,3-diyne)-2'-deoxyuridine derivatives, prepared by Ni/Cu-mediated alkyne C-H heterocoupling reaction, are also described. In the second part, the multicomponent Biginelli reaction has been used to develop a series of dihydropyrimidine derivatives bearing a β-diketoacids unit targeting anti-HIV activity by inhibition of the viral integrase.

Nucléosides

Antiviraux

Phosphononucléosides

Alkènyles phosphonates

Prodrogues

Métathèse

Ultrasons

Enzyme

Couplage diyne

Dihydropyrimidine

Β-dicétoacide

Intégrase du VIH

Nucleosides

Antivirals

Phosphononucleosides

Alkenyl phosphonates

Prodrugs

Metathesis

Ultrasonic

Enzyme

Diyne coupling

Dihydropyrimidine

Β-diketoacid

HIV integrase

Nukleofilní zavedení fluorovaných funkčních skupin pomocí organofosforových sloučenin. / Nucleophilic introduction of fluorinated functional groups using organophosphorus compounds.

Opekar, Stanislav

January 2014

In the Introduction part of this thesis, the chemistry of organofluorine compounds is discussed, particularly the methods for the preparation of organofluorine compounds mainly by fluoroalkylation methods. Furthermore, the chemistry of fluorinated phosphonates, methods of their preparation, reactivity and biological activity is discussed. Additionally, the reactivity of fluoromethane derivatives is briefly mentioned and especially, the reactivity of diethyl fluoromalonate and fluorobisfenylsulfonylmethane is described. The Results and discussion part is devoted to the reactivity of three fluorinated phosphonates: tetraethyl fluoromethylenbisphosphonate, diethyl fluorophenylsulfonylphosphonate and previously not described diethyl fluoronitromethylphosphonate. These fluorinated phosphonates belong to the family of nucleophilic monofluoroalkylation reagents, meaning that these compounds are convenient starting materials for the synthesis of complex organic molecules containing the fluorine atom. The results deal with the reactivity of above mentioned fluorinated phosphonates, mainly with alkylation reactions, Horner-Wadsworth-Emmons reactions and conjugated additions. Also, other synthetic methods such as the Mitsunobu reaction or the palladium catalyzed allylation reaction were investigated; however,...