Estudo da eficiência de produção de peróxido de hidrogênio por naftoquinonas em associação com ácido ascórbico: aplicações como agentes citotóxicos em linhagem de células normal e tumoral

Pós-graduação em Biociências e Biotecnologia Aplicadas à Farmácia - FCFAR

Selectivity and Mechanisms Driven by Reaction Dynamics: The Case of the Gas-Phase OH-+CH3ONO2 Reaction

Well-established statistical approaches such as transition-state theory based on high-level calculated potential energy profiles are unable to account for the selectivity observed in the gas-phase OH- + CH3ONO2 reaction. This reaction can undergo bimolecular nucleophilic displacement at either the carbon center (S(N)2@C) or the nitrogen center (S(N)2@N) as well as a proton abstraction followed by dissociation (E(CO)2) pathway. Direct dynamics simulations yield an S(N)2:E(CO)2 product ratio in close agreement with experiment and show that the lack of reactivity at the nitrogen atom is due to the highly negative electrostatic potential generated by the oxygen atoms in the ONO2 group that scatters the incoming OH-. In addition to these dynamical effects, the nonstatistical behavior of these reactions is attributed to the absence of equilibrated reactant complexes and to the large number of recrossings, which might be present in several ion-molecule gas-phase reactions.

Development of Organocatalytic stereoselective SN1 type reactions

The proposal in my thesis has been the study of Stereoselective α-alkylation through SN1 type reaction. SN1 type reaction involves a stabilized and reactive carbocation intermediate By taking advantages of stability of particular carbocations, the use of carbocations in selective reactions has been important. In this work has been necessary to know the stability and reactivity of carbocations. And the work of Mayr group has helped to rationalize the behaviour and reactivity between the carbocations and nucleophiles by the use of Mayr’s scale of reactivity. The use of alcohols to performed the stable and reactive carbocations have been the key in my thesis. The direct nucleophilic substitution of alcohols has been a crucial scope in the field of organic synthesis, because offer a wide range of intermediates for the synthesis of natural products and pharmaceutics synthesis. In particular the catalytic nucleophilic direct substitution of alcohols represents a novel methodology for the preparation of a variety of derivatives, and water only as the sub-product in the reaction. The stereochemical control of the transformation C-H bond into stereogenic C-C bond adjacent to carbonyl functionalized has been studied for asymmetric catalysis. And the field of organocatalysis has introduced the use of small organic molecule as catalyst for stereoselective transformations. Merging these two concepts Organocatalysis and Mayr’s scale, my thesis has developed a new approach for the α-alkylation of aldehydes and ketones through SN1 type reaction.

Neue 18 F-markierte Liganden zur Visualisierung des GABA A, alpha 5-Rezeptorstatus mittels PET

Die heutige Verfügbarkeit der molekularen Bildgebung ermöglicht einen signifikanten Einfluss auf die Diagnostik und die Therapiekontrolle von neurodegenerativen Erkrankungen, die unter anderem durch Fehlsteuerungen im GABAergen System auftreten können. Die Visualisierung und Quantifizierung des GABAA-alpha5-Subtyps durch PET könnte dabei zu einem besseren Verständnis von Erkrankungen wie Alzheimer und traumatischen Neurosen (emotionales Langzeitgedächtnis) beitragen. Ferner eröffnen GABAA/alpha5-subtypselektive Liganden die Möglichkeit, wesentliche Grundlagen der elementaren Vorgänge von Lernen und Erinnern zu untersuchen. 7,8,9,10-Tetrahydro-(7,10-ethan)-1,2,4-triazol[3,4-alpha]phthalazine stellen sich als vielverspre-chende Leitstrukturen zur Entwicklung neuer 18F-markierter alpha5-subtypselektiver GABAA-Rezeptorliganden für die PET dar. Um diese neuartigen Substanzen hinsichtlich ihrer Potenz als GABAA-alpha5-subtypselektive Radioliganden zu verifizieren, wurden zunächst die entsprechenden 19F-Derivate TC07-TC12 synthetisiert. Diese Referenzverbindungen wurden in Rezeptor-bindungsassays und in Autoradiographien mit [3H]Ro 15-4513 als zu verdrängender Radioligand evaluiert. In beiden Experimenten als auch in in vivo-Verdrängungsexperimenten an Ratten konnte eine hohe Affinität im nanomolaren Bereich als auch eine hohe Selektivität bezüglich der GABAA/alpha5-Untereinheit für einige der dargestellten Referenzverbindungen nachgewiesen werden. Gemäß diesen vielversprechenden Ergebnissen wurden verschiedene Markie-rungsvorläufer für eine 18F-Direktmarkierung der relevantesten Substanz TC07 in einer mehrstufigen organischen Synthese dargestellt. Die anschließende 18F-Markierung erfolgte über eine nukleophile Substitution mit [18F]Fluorid. Die Reaktionsparameter wurden hinsichtlich Reaktionstemperatur und dauer, Markierungsvorläuferkonzentration, Basenabhängigkeit und verschiedenen Markierungsmethoden optimiert. Daraus resultierend konnte [18F]TC07 mit bis zu 45 % radiochemischer Ausbeute erhalten werden. Die zerfallskorrigierte, gesamtradiochemische Ausbeute von nca [18F]TC07 in isotonischer NaCl-Lösung betrug 15 %. Basierend auf den bisher erhaltenen Ergebnissen wurde der Radioligand in in vitro-, ex vivo- und in vivo µPET-Experimenten evaluiert. Die zunächst durchgeführten in vitro-Experimente deuteten auf eine homogene Verteilung der Aktivität hin und zeigten keine spezifische Anreicherung. Diese Ergebnisse wurden sowohl in ex vivo- als auch in in vivo-µPET-Studien bestätigt. Auch hier konnte nur eine niedrige Aktivitätsanreicherung, eine homogene Verteilung im gesamten Gehirn und keine Übereinstimmung mit der bekannten GABAA/alpha5-Subtypverteilung gefunden werden. Eine im Anschluss durchgeführte Metabolismusstudie zeigte eine langsame Metabolisierungsrate des [18F]TC07 und auch eine Organverteilungsstudie zeigte keine außergewöhnlichen Anreicherungen. Aus den erhaltenen Ergebnissen kann geschlossen werden, dass der Radioligand [18F]TC07 kein geeigneter Tracer zur in vivo-Visualisierung der alpha5-Untereinheit des GABAA-Rezeptors ist.

Bioconjugation and synthetic approach towards enantioenriched gem-difluoromethylene compounds through carbenium ions

Bioconjugation of peptides and asymmetric synthesis of gem-difluoromethylene compounds are areas of the modern organic chemistry for which mild and selective methods continue to be developed. This thesis reports new methodologies for these two areas based on the use of stabilized carbenium ions. The reaction that makes the bioconjugation of peptides possible takes place via the direct nucleophilic substitution of alcohols and is driven by the spontaneous formation of stabilized carbenium ions in water. By reacting with the thiol group of cysteine in very mild conditions and with a high selectivity, these carbenium ions allow the site-specific ligation of polypeptides containing cysteine and their covalent derivatization with functionalized probes. The ligation of the indole ring of tryptophan, an emerging target in bioconjugation, is also shown and takes place in the same conditions. The second area investigated is the challenging access to optically active gem-difluoromethylene compounds. We describe a methodology relying on the synthesis of enantioenriched 1,3-benzodithioles intermediates that are shown to be precursors of the corresponding gem-difluoromethylene analogues by oxidative desulfurization-fluorination. This synthesis takes advantage of the highly enantioselective organocatalytic α-alkylation of aldehydes with the benzodithiolylium ion and of the wide possibilities of synthetic transformations offered by the 1,3-benzodithiole group. This approach allows the asymmetric access to complex gem-difluoromethylene compounds through a late-stage fluorination step, thus avoiding the use of fluorinated building blocks.

Baylis-Hillman reaction assisted parallel synthesis of 3, 5-disubstituted isoxazoles and their in vivo bioevaluation as antithrombotic agents

The solution phase parallel synthesis involving reactions of Baylis-Hillman products of 3-substituted-5-isoxazolecarbaldehydes with nucleophiles and their in vivo antithrombotic evaluations are described along with the results of in vitro platelet aggregation inhibition assay of a few compounds. Results of the detailed evaluation of one of the compounds as an inhibitor of platelet aggregation are also presented.

Convenient synthesis of substituted α-methylene--valerolactones in aqueous medium using Baylis-Hillman chemistry

A mild and convenient synthesis of substituted α-methylene--valerolactones was achieved by SN2 nucleophilic substitution of the acetates of the Baylis-Hillman adducts with acetyl acetone followed by one-pot saponification of the ester, reduction of the keto group and subsequent intramolecular ring closure in aqueous medium.

An alternate approach to quinoline architecture via Baylis-Hillman chemistry: SnCl2-mediated tandem reaction toward synthesis of 4-(substituted vinyl)-quinolines

An alternate approach to densely substituted quinolines from the products of SN2 nucleophilic substitution reaction between the acetyl derivatives of the Baylis-Hillman adducts obtained from 2-nitrobenzaldehydes and the carbonyl group containing carbon nucleophiles is described. Treatment of these compounds with SnCl2, trigger a tandem reaction wherein reduction of the nitro group is followed by a remarkably regioselective intramolecular cyclization and subsequent dehydrogenation to afford 4-(substituted vinyl)-quinolines.

A Facile synthesis of 3-Methylene-4-aryl-1,3,4,5-tetrahydro-benzo[b][1,4] di-azepin-2-ones and 3-arylemethylene-4,5-dihydro-3H-benzo[b][1,4]diazepin-2-ylamines

A simple and convenient synthesis of 3-methylene-4-aryl-1,3,4,5-tetrahydro-benzo[b][1,4] diazepin-2-ones was accomplished by the SN2 nucleophilic substitution of the acetates of Baylis-Hillman adducts of acrylate with 1,2-phenylenediamines followed by base-mediated intramolecular cyclization. On the other hand similar substrates derived from the Baylis-Hillman adducts of acrylonitrile via Pinner’s reaction leads to 3-arylmethylene-4,5-dihydro-3H-benzo[b][1,4]diazepin-2-ylamines in good yields..

Calix[6]arene Derivatives as Pivotal Components of Working Devices and Molecular Machine Prototypes

This Ph.D. thesis describes the synthesis, characterization and study of calix[6]arene derivatives as pivotal components for the construction of molecular machine prototypes. Initially, the ability of a calix[6]arene wheel to supramolecularly assist and increase the rate of a nucleophilic substitution reaction was exploited for the synthesis of two constitutionally isomeric oriented rotaxanes. Then, the synthesis and characterization of several hetero-functionalised calix[6]arene derivatives and the possibility to obtain molecular muscle prototypes was reported. The ability of calix[6]arenes to form oriented pseudorotaxane towards dialkyl viologen axles was then exploited for the synthesis of two calixarene-based [2]catenanes. As last part of this thesis, studies on the electrochemical response of the threading-dethreading process of calix[6]arene-based pseudorotaxanes and rotaxanes supported on glassy carbon electrodes are reported.

Síntese, caracterização e aplicações de fluoróforos derivados do BODIPY

O desenvolvimento de técnicas analíticas, espectroscópicas e de imagem baseadas na detecção da fluorescência está associado com a necessidade por marcadores fluorescentes com variadas características e aplicabilidades. Dentre os diversos marcadores fluorescentes disponíveis, os derivados de borodipirrometenos (BODIPY), descobertos no final da década de 1960, passaram a ser amplamente utilizados desde o final da década de 1980. Esta tese de doutorado se trata de um estudo pioneiro no Brasil, envolvendo a síntese, modificação química e caracterização fotofísica de BODIPYs. Na primeira etapa do projeto métodos de obtenção de BODIPYs foram estabelecidos e aplicados na síntese de uma biblioteca de sondas fluorescentes. O estudo fotofísico dessa biblioteca de fluoróforos nos possibilitou identificar e estudar particularidades de alguns fluoróforos, como o solvatocromismo, halocromismo e ionocromismo. A segunda etapa do projeto envolveu o estabelecimento de métodos de modificação química de BODIPYs visando a diversificação fotofísica e estrutural da biblioteca de compostos. Foram sintetizados BODIPYs reativos que foram submetidos a reações de substituição nucleofílica, Suzuki, Sonogashira, Knoevenagel e arilação direta, levando à obtenção de compostos com propriedades ópticas diversas. Por fim, na terceira etapa do projeto, está descrito o desenvolvimento de novos métodos de modificação química de fluoróforos BODIPY. Foi desenvolvido um método simples de tiocianação direta dessa classe de compostos com bons rendimentos, baseado na utilização de tiocianato de amônio e oxone ®. O escopo e as limitações do novo método de tiocianação foi estudado em BODIPYs com propriedades eletrônicas diversas. Foi mostrada ainda a conversão de BODIPYs tiocianados a derivados tioalquilados com características ópticas particulares. Em conclusão, com esta tese de doutorado foi estabelecida uma linha de pesquisa inovadora envolvendo a síntese e modificação química de uma classe de compostos com ampla aplicação tecnológica.

Synthesis of Nitrogenated Heterocycles by Asymmetric Transfer Hydrogenation of N-(tert-Butylsulfinyl)haloimines

Highly optically enriched, protected, nitrogenated heterocycles with different ring sizes have been synthesized by a very efficient methodology consisting of the asymmetric transfer hydrogenation of N-(tert-butylsulfinyl)haloimines followed by treatment with a base to promote an intramolecular nucleophilic substitution process. N-Protected aziridines, pyrrolidines, piperidines, and azepanes bearing aromatic, heteroaromatic, and aliphatic substituents have been obtained in very high yields and diastereomeric ratios up to >99:1. The free heterocycles can be easily obtained by a simple and mild desulfinylation procedure. Both enantiomers of the free heterocycles can be prepared with the same good results by changing the absolute configuration of the sulfur atom of the sulfinyl group.

Low generation triazine-based dendrimers-synthesis, characterzation and in vitro biological activity

In the present study, two low generation triazine-based dendrimers, G1.0(Cl)4 dendrimer and G1.5(OH)8 dendrimer, were synthesized and their cytotoxicity were tested by using the NIH 3T3 and the A2780 cell lines. In the synthesis process of the G1.0(Cl)4 dendrimer, cyanuric chloride (CAC) which has high reactivity chlorine atom was connected to the terminal of triethylene glycol (TEG) via nucleophilic substitution by controlling temperature. The prepared G1.0(Cl)4 dendrimer was purified by silica gel column chromatography. Then the four chlorine atoms in the G1.0(Cl)4 dendrimer were substituted by diethanolamine (DEA) to give dendrimer with the hydroxyl terminal group G1.5(OH)8. The starting materials, CAC, G1.0(Cl)4 dendrimer and G1.5(OH)8 dendrimer were analyzed by one-dimensional NMR, FTIR and MS techniques. The two dendrimers, G1.0(Cl)4 and G1.5(OH)8, showed perfect stability in the air environment at room temperature. However, G1.0(Cl)4 is not soluble in water while the G1.5(OH)8 dendrimer is a water soluble compound. Furthermore, cell biological evaluation at the studied concentrations showed that the CAC, as well as the prepared G1.0(Cl)4 and G1.5(OH)8 dendrimers, have no cytotoxicity towards the NIH 3T3 and A2780 cell lines.

"One-Step" alkynylation of adamantyl iodide with Silver(I) acetylides

Silver(I) acetylides allow one-step alkynylation of adamantyl iodide in yields ranging from 25 to 68%.

Novel approaches for the synthesis of C-5 modified pyrimidine nucleosides

The antiviral or anticancer activities of C-5 modified pyrimidine nucleoside analogues validate the need for the development of their syntheses. In the first half of this dissertation, I explore the Pd-catalyzed cross-coupling reaction of allylphenylgermanes with aryl halides in the presence of SbF 5/TBAF to give various biaryls by transferring multiple phenyl groups, which has also been applied to the 5-halo pyrimidine nucleosides for the synthesis of 5-aryl derivatives. To avoid the use of organometallic reagents, I developed Pd-catalyzed direct arylation of 5-halo pyrimidine nucleosides. It was discovered that 5-aryl pyrimidine nucleosides could be synthesized by Pd-catalyzed direct arylation of N3-free 5-halo uracil and uracil nucleosides with simple arenes or heteroaromatics in the presence of TBAF within 1 h. Both N3-protected and N3-free uracil and uracil nucleosides could undergo base-promoted Pd-catalyzed direct arylation, but only with electron rich heteroaromatics. ^ In the second half of this dissertation, 5-acetylenic uracil and uracil nucleosides have been employed to investigate the hydrogermylation, hydrosulfonylation as well as hydroazidation for the synthesis of various functionalized 5-vinyl pyrimidine nucleosides. Hydrogermylation of 5-alkynyl uracil analogues with trialkylgermane or tris(trimethylsilyl)germane hydride gave the corresponding vinyl trialkylgermane, or tris(trimethylsilyl)germane uracil derivatives. During the hydrogermylation with triphenylgermane, besides the vinyl triphenylgermane uracil derivatives, 5-[2-(triphenylgermyl)acetyl]uracil was also isolated and characterized and the origin of the acetyl oxygen was clarified. Tris(trimethylsilyl)germane uracil derivatives were coupled to aryl halides but with decent yield. Iron-mediated regio- and stereoselective hydrosulfonylation of the 5-ethynyl pyrimidine analogues with sulfonyl chloride or sulfonyl hydrazine to give 5-(1-halo-2-tosyl)vinyluracil nucleoside derivatives has been developed. Nucleophilic substitution of the 5-(β-halovinyl)sulfonyl nucleosides with various nucleophiles have been performed to give highly functionalized 5-vinyl pyrimidine nucleosides via the addition-elimination mechanism. The 5-(β-keto)sulfonyluracil derivative has also been synthesized via the aerobic difunctionalization of 5-ethynyluracil analogue with sulfinic acid in the presence of catalytic amount of pyridine. Silver catalyzed hydroazidation of protected 2'-deoxy-5-ethynyluridine with TMSN3 in the presence of catalytic amount of water to give 5-(α-azidovinyl)uracil nucleoside derivatives was developed. Strain promoted Click reaction of the 5-(α-azidovinyl)uracil with cyclooctyne provide the corresponding fully conjugated triazole product.^