PEPTIDOMIMETIC APPROACHES FOR TARETING PROTEASOME SUBUNITS BETA-5I AND RPN-13 FOR ALTERNATIVE HEMATOLOGICAL CANCER THERAPIES

Christine S Muli (14227157)

17 May 2024

<p>The proteasome is a multi-catalytic, multiprotein enzymatic machinery that is responsible for most of the protein degradation in the cell. Cellular protein homeostasis through the proteasome is regulated through the ubiquitin-independent or ubiquitin-dependent degradation pathway, which both utilize different isoforms of the enzymatic machinery. Over the past twenty years, the proteasome has been a well-validated therapeutic target by inhibition of its catalytic particle function, and more recently, through targeted protein degradation with the use of proteolysis targeting chimeras (PROTACs). Inhibition of the proteasome’s catalytic function has been previously shown to be therapeutically advantageous due to the need for high proteasomal activity for the survival of hematological cancer cells, which produce an overabundance of misfolded and unwanted proteins. Despite this success, off-target toxicities and drug-resistant mechanisms remain as dose-limiting factors for proteasome catalytic inhibition. Herein, we describe a variety of peptidomimetic (or “peptide-like”) approaches that target the proteasome beyond standard catalytic inhibition to serve as alternative therapies for hematological cancer. We investigate <em>(1)</em> the preferential structural properties of peptide-conjugated unnatural substrates for different proteasome isoforms’ substrate channels, <em>(2)</em> the effectiveness of an immunoproteasome-targeting peptide-conjugated prodrug strategy, and <em>(3)</em> the unknown binding site of a peptoid probe on the proteasome’s non-catalytic ubiquitin receptor, Rpn-13. This work not only showcases novel strategies to target the proteasome system but also describes methods that could be applied to other challenging enzymes or non-catalytic protein targets.</p>

immunoproteasome

ADRM1/Rpn13

Hematological cancers/lymphomas

prodrugs

proteasome inhibition strategies

proteasome

drug discovery

chemical biology

medicinal chemistry

Chemical synthesis and biological evaluation of a NAD(P)H:quinone oxidoreductase-1-targeted tripartite quinone drug delivery system

Volpato, Milène, Abou-Zeid, N., Tanner, R.W., Glassbrook, L.T., Taylor, James P., Stratford, I.J., Loadman, Paul, Jaffar, M., Phillips, Roger M.

January 2007

No / NAD(P)H:quinone oxidoreductase-1 (NQO1) is a potential target for therapeutic intervention but attempts to exploit NQO1 using quinone-based bioreductive prodrugs have been largely compromised by toxicity to organs that inherently express high levels of NQO1. In an attempt to circumvent this problem, this study describes the development of a tripartite quinone-based drug delivery system, the ultimate objective of which is to release a targeted therapeutic agent following the reduction of a quinone "trigger" by NQO1. Molecular modeling of drug/NQO1 interactions were conducted prior to the synthesis of N-{4-[bis-(2-chloroethyl)-amino]-phenyl}-beta,beta,2,4,5-pentamethyl-3,6-dioxo-1,4-cyclohexadiene-1-propanamide (prodrug 1). Prodrug 1 is a good substrate for purified NQO1 (V(max) and K(m) values of 11.86 +/- 3.09 micromol/min/mg and 2.70 +/- 1.14 micromol/L, respectively) and liquid chromatography-mass spectrometry analysis of the metabolites generated showed that lactone 3 and aniline mustard 4 were generated in a time- and NQO1-dependent manner. Chemosensitivity studies showed that prodrug 1 is selectively toxic to cells that overexpress NQO1 under aerobic conditions, and comet assay analysis confirmed the presence of elevated interstrand cross-links in NQO1-rich compared with NQO1-deficient cells. Hypoxic sensitization (hypoxic cytotoxicity ratio = 15.8) was observed in T47D cells that overexpress cytochrome P450 reductase. In conclusion, the results of this study provide mechanistic proof of principle that a tripartite benzoquinone drug delivery system is enzymatically reduced to release an active therapeutic agent. Further development of this concept to fine-tune substrate specificity for specific reductases and/or the inclusion of alternative therapeutic agents is warranted.

NAD(P)H:quinone oxidoreductase-1 (NQO1)

Anti-tumor activity

Anti-cancer therapeutics

Bioreductive prodrugs

DNA damage

Chemical and Biological Explorations of the Family of CC-1065 and the Duocarmycin Natural Products.

Ghosh, Nandita, Sheldrake, Helen M., Searcey, M., Pors, Klaus

10 1900

Yes / CC-1065, the duocarmycins and yatakemycin are members of a family of ultrapotent antitumour antibiotics that have been the subject of extensive investigations due to their mode of action and potential in the design of new anticancer therapeutics. The natural products and their analogues exert their effects through a sequence selective alkylation of duplex DNA in the minor groove at the N3 of adenine. An understanding of their structure and its effect on biological activity has been derived through chemical synthesis and has also generated new potential lead compounds. These studies form the first section of the review. The desire to progress these compounds to clinic has also led to studies of bioconjugation and prodrug formation and this is discussed in the second section of the review. The combination of synthesis with key biological experiments is a powerful tool to define the requirements for the development of natural products as potential therapeutic agents. The studies described herein form an excellent paradigm for the study and development of other natural products. / EPSRC, Yorkshire Cancer Research, Big C Cancer Research, UCB Pharma

Duocarmycin

Anti-tumour antibiotics

CC-1065

Aadozelesin

CBI

CPI

DNA minor groove binders (MGBs)

Adenine N3 alkylation

Prodrugs

Anti-cancer therapeutics

Natural products

Synthesis and quantitative structure-activity relationship of imidazotetrazine prodrugs with activity independent of O6-methylguanine-DNA-methyltransferase, DNA mismatch repair, and p53

Pletsas, Dimitrios, Garelnabi, Elrashied A.E., Li, Li, Phillips, Roger M., Wheelhouse, Richard T.

January 2013

Yes / The antitumor prodrug temozolomide is compromised by its dependence for activity on DNA mismatch repair (MMR) and the repair of the chemosensitive DNA lesion, O6-methylguanine (O6-MeG), by O6-methylguanine-DNA-methyltransferase (E.C. 2.1.1.63, MGMT). Tumor response is also dependent on wild-type p53. Novel 3-(2-anilinoethyl)-substituted imidazotetrazines are reported that have activity independent of MGMT, MMR, and p53. This is achieved through a switch of mechanism so that bioactivity derives from imidazotetrazine-generated arylaziridinium ions that principally modify guanine-N7 sites on DNA. Mono- and bifunctional analogues are reported, and a quantitative structure-activity relationship (QSAR) study identified the p-tolyl-substituted bifunctional congener as optimized for potency, MGMT-independence, and MMR-independence. NCI60 data show the tumor cell response is distinct from other imidazotetrazines and DNA-guanine-N7 active agents such as nitrogen mustards and cisplatin. The new imidazotetrazine compounds are promising agents for further development, and their improved in vitro activity validates the principles on which they were designed.

Base pair mismatch

DNA repair

O(6)-Methylguanine-DNA Methyltransferase

Chemistry

Prodrugs

Tumor Suppressor Protein p53

Metabolism

REF 2014

Síntese e desenvolvimento de métodos analíticos para o estudo de pró-fármacos dendriméricos potencialmente ativos em doenças negligenciadas / Synthesis and analytical methods development to study dendrimeric prodrugs potentially actives in neglected diseases.

Paes, Lorena Cristine

11 November 2016

Doenças infecciosas parasitárias consideradas negligenciadas representam um grande problema de saúde pública em muitos países e regiões. Os fármacos disponíveis na terapêutica são, em geral, tóxicos e de eficácia discutível. Portanto, a descoberta e o planejamento de novos quimioterápicos são extremamente necessários. Neste contexto, os pró-fármacos dendriméricos podem ser úteis. Porém, é necessário esforço adicional para viabilizar os custos, simplificar as estratégias de síntese e investigar os comportamentos de liberação. Ademais, é importante a melhoria dos métodos analíticos, dos métodos de purificação e identificação dos produtos de síntese, para a determinação das propriedades físico-químicas e atividade biológica, visando à efetiva aplicação desta tecnologia. Face ao exposto, o objetivo deste trabalho foi estudar a identidade, pureza e liberação de dois potenciais pró-fármacos dendriméricos, baseados em 3- hidroxiflavona, planejados para serem ativos em doença de Chagas e leishmaniose. O primeiro, estruturalmente, contendo inositol como núcleo e ramos constituídos por éster da 3- hidroxiflavona com ácido málico e o segundo, estruturalmente contendo o dendrímero PAMAM-G0 (poliamidoamina de geração inicial) como transportador e ácido succínico como espaçante. Desenvolveram-se métodos adequados à determinação da 3-hidroxiflavona por HPLC-UV (Cromatografia líquida de alto desempenho, com detecção no ultravioleta) e MEKC (Cromatografia eletrocinética micelar). Comparando-se esses métodos, o método por HPLC foi mais sensível, preciso e exato na quantificação da 3-hidroflavona, enquanto o método por eletroforese capilar foi mais rápido e de menor custo. O éster da 3-hidroxiflavona com o ácido málico mostrou-se instável em soluções orgânicas, aquosas em diferentes pH e nas condições reacionais de diversas estratégias de síntese avaliadas, o que impediu a obtenção do dendrímero baseado em inositol como núcleo conforme proposto. Já o dendrímero PAMAM-G0 funcionalizado com 3-hidroxiflavona foi sintetizado, purificado e caracterizado com sucesso. Não se observou liberação da 3-hidroxiflavona a partir desse dendrímero em solução gástrica simulada (pH 1,2) e a mesma foi lenta em soluções tampão com pH entre 5,0 e 8,5, a 37,0 ºC. Ensaios de atividade biológica do PAMAM-G0-SUC-3-OH-FLAV em amastigotas de Trypanosoma cruzi, cepas Y(Curitiba) e Y(SS), comparativamente ao benznidazol e ao nifurtimox, mostraram atividade moderada e baixa seletividade. / Infectious parasitoses considered neglected diseases represent a great health problem for many countries and areas. Drugs available in the therapeutics are, generally, toxics and do not have good efficacy. So, the discovery and design of new chemotherapeutic agents are extremely needed. In this context, dendrimeric prodrugs may be useful. However, additional effort is required to make the costs accessible, to simplify the synthetic strategies and to investigate the behavior of cleavage. The improvement of analytical methods, purification methods and identification of synthetic products, in order to determine the physicochemical properties and bioactivity aiming to effectively implement this technology, is also required. Based on foregoing considerations, the objective of this work was to study the identity, purity and drug release of two potential dendrimeric prodrugs, based on 3-hydroxyflavone, designed to be active in leishmaniasis and Chagas disease. The first structurally contains myo-inositol as the core and branches consisting of esters from 3-hydroxyflavone with malic acid. The second structurally contains PAMAM-G0 dendrimer (initial generation polyamidoamine) as carrier and succinic acid as spacer. Suitable analytical methods for determining 3-hydroxyflavone by HPLC-UV (High Performance Liquid Chromatography) and MEKC (Micellar Electrokinetic Chromatography) have been developed. Comparing these methods, HPLC method showed more sensitivity, precision and accuracy in the quantification of 3-hydroxyflavone, while the capillary electrophoresis method was faster and less expensive. The ester of 3-hydroxyflavone with malic acid showed to be unstable in organic and aqueous solutions, at different pH and at reaction conditions of synthetic strategies evaluated, which prevented the obtaining of dendrimer based on mio-isositol as core. Notwithstanding, PAMAM-G0 dendrimer funcionalized with 3- hydroxyflavone was synthesized, purified and characterized successfully. There were no 3- hydroxyflavone releases from this dendrimer in simulated gastric fluid (pH 1.2) and a slow release was observed in buffer solutions with pH between 5.0 and 8.5, at 37.0 ºC. Submitted to biological assays in amastigotes of two strains of T. cruzi, Y(Curitiba) and Y(SS), compared to benznidazole e nifurtimox, PAMAM-G0-SUCC-3-OH-FLAV showed moderated activity and low selectivity index.

3-hidroxiflavona

3-hydroxyflavone

Capillary electrophoresis (CE)

Dendrímero

Dendrimers

Doenças negligenciadas

Eletroforese capilar (CE)

Latenciação

Neglected diseases

Poliamidoamina (PAMAM)

Poly(amidoamine) (PAMAM)

Prodrugs

Latenciação de hidroximetilnitrofural com derivados de quitosana, potencialmente ativos em leishmaniose e doença de Chagas / Latentiation of hidroximetilnitrofural derivative chitosan, potentially active in leishmaniasis and Chagas disease

Santos, Katia Solange Cardoso Rodrigues dos

16 May 2005

Leishmaniose e doença de Chagas são parasitoses endêmicas causadas, respectivamente, pelos protozoários Leishmania spp. e Trypanosoma cruzi. Ante à escassez de quimioterápicos, à elevada toxicidade dos fármacos disponíveis e à baixa eficácia destes no combate às formas intracelulares, replicantes, dos parasitos há necessidade de buscar novas alternativas quimioterápicas. A atividade tripanomicida do hidroximetilnitrofural, base de Mannich do nitrofural, já era conhecida. O presente trabalho mostra que este derivado também apresenta atividade leishmanicida, quando ensaiado em formas promastigotas de L. amazonensis, L. chagasi e L. baziliensis. Com o objetivo de obter pró-fármacos potencialmente ativos em doença de Chagas e leishmanioses visceral e mucocutânea, planejaram-se e foram sintetizados derivados hidrossolúveis de hidroximetilnitrofural e quitosana, polissacarídeo que apresenta, também, atividade imunomoduladora. Para a aplicação tópica em leishmaniose cutânea sintetizaram-se membranas de quitosana ligada ao hidroximetilnitrofural. Membranas de quitosana copolimerizadas com enxertos de ácido acrílico e metacrilato de hidroxietila foram sintetizadas e avaliadas quanto à biocompatibilidade - trombogenicidade, citotoxicidade e potencial hemolítico. Aquelas com maior teor em metacrilato de hidroxietila não se mostraram citotóxicas, tampouco hemolíticas; aquelas com maior proporção em ácido acrílico, por sua vez, apresentaram excelentes características de intumescimento, mas certo grau de citotoxicidade e hemólise, possivelmente devido à presença de monômeros que não reagiram no material. A ligação do hidroximetilnitrofural à quitosana, por meio de espaçante succínico, produziu prófármaco com propriedades filmogênicas para a aplicação tópica. Os derivados obtidos pró-fármacos e transportadores (quitosanas modificadas) - foram analisados no infravermelho, por ressonância magnética nuclear (RMN 1H e RMN 13C) e por análise térmica - OMTA, TG, OSC. Ensaios de atividade tripanomicida e leishmanicida dos pró-fármacos poliméricos e membranas serão posteriormente efetuados. / Leishmaniasis and Chagas\' disease are endemic parasitosis provoked by the protozoa Leishmania spp and Trypanosoma cruzi, respectively. Due to the scarce chemotherapy, to the high toxicity of the available drugs and to their low effectiveness, mainly in the treatment of intracellular replicant forms of those parasites, the search for new chemotherapeutic alternatives is extremely important. Hydroxymethylnitrofurazone, a nitrofurazone Mannich basis, has proven to be active against trypanomicide before and its activity in cultures of L. amazonensis, L. chagasi and L. braziliensis promastigotes was determined in this work. With the purpose of obtaining prodrugs potentially active in Chagas\' disease and visceral and mucocutaneous leishmaniases, hydrosoluble hydroxymethylnitrofurazone prodrugs have been designed and synthesized using chitosan, a polysaccharide showing immunomudulatory activity, as the carrier. Membranes from chitosan linked with hydroxymethylnitrofurazone have been synthesized for topical administration in cutaneous leishmaniasis. Membranes were obtained by graft copolymerization of hydroxyethy/methacrylate and acrylic acid onto chitosan and their biocompatibility - trombogenicity, citotoxicity and hemolysis potential - was evaluated. Those membranes with higher content of hydroxyethylmethacrylate showed to be neither cytotoxic nor hemolytic; those with higher content of acrylic acid showed good swelling properties, although a certain level of cytotoxicity and haemolysis has been detected, due to the presence of non-reacted monomers. The linkage of hydroxymethylnitrofurazone to chitosan by a succinyl spacer group led to a prodrug with filmogenic properties for topic administration. The derivatives obtained - prodrugs and carriers (modified chitosans) - were analyzed by infrared, nuclear magnetic resonance (1H NMR and 13C NMR) and by thermal analysis - DMTA, TG and DSC. Tests of trypanomicide and leishmanicide activity with polymer prodrugs and membranes will be further developed.

Chagas disease (Chemotherapy)

Chitosan

Doença de Chagas (Quimioterapia)

Doenças parasitárias (Quimioterapia)

Drugs planning

Hidroximetilnitrofural

hydroxymethylnitrofurazone

Leishmaniasis

Leishmaniose

Parasitic diseases (Chemotherapy)

Planejamento de fármacos

Polímeros sintéticos (Quimioterapia)

Pró-Fármaco

Prodrugs

Quitosana

Síntese

Synthesis

Synthetic polymers (Chemotherapy)

Functional Dendritic Structures From Bile Acids : Supramolecular Hosts, Light Harvesters And Drug Carriers

Vijayalakshmi, N

09 1900

Functional Dendritic Structures from Bile Acids: Supramolelcular Hosts, Light Harvesters and Drug Carriers Chapter 1. An Overview of Functional Dendrimers. Dendrimers are welldefined, hyperbranched macromolecules that are prepared by highly controlled iterative methodologies. The ability to modulate the size, molecular weight, chemical functionalities and the position and number of functional groups in dendrimers make them promising candidates for a wide variety of applications. In this chapter, three areas 1) hostguest chemistry 2) light harvesting and 3) drug delivery, where dendrimers are increasingly finding applications, are discussed with selected examples. Chapter 2. Hydroxyl Terminated Dendritic Oligomers from Bile Acids: Synthesis and Properties. Bile acids are excellent building blocks for dendritic construction because of their many interesting features. They are readily available, chiral, facial amphiphiles with complementary functionalities. Moreover, due to the large size of the bile acid units, a dendritic structure consisting of only a few such repeat units can have an extended structure with multiple functionalizable groups. (figure 1) The high reactivity of the chloroacetyl group has been exploited for the synthesis of bile acid based first and second-generation dendrons with glycolate linkers and multiple hydroxyl groups. The synthesis involves only a few steps and avoids the use of protecting groups for the terminal hydroxyl groups. The synthesis of a bile acid tetramer is shown here as an example (Figure 1). Carboxyl protected cholic acid was reacted with chloroacetylchloride to generate the trischloroacetylated derivative. This compound on reaction with excess of sodium cholate generated the tetramer with nine hydroxyl groups via displacement of the chlorides. In order to synthesize higher generation dendritic structures, perchloroacetylated firstgeneration dendrons were first synthesized. These were subsequently reacted with excess of sodium deoxcholate to generated secondgeneration dendrons with multiple hydroxyl groups (Figure 2). All the compounds were characterized by H NMR, C NMR, IR, ESIMS/MALDI-TOF, HPLC and elemental analysis(wherever possible) Figure 2. Structure of tridecamer. These dendritic structures with facially amphiphilic bile acid backbones on the periphery were able to solubilize cresol red, a hydrophilic dye, in a nonpolar solvent, thus exhibiting reverse micellar characteristics. Chapter 3. Multiple Naproxen Appended Bile Acid Dendrimers as Light Harvesters and Drug Carriers. Part I. Synthesis and Characterization. Using the same synthetic strategy as in Chapter 2, bile acid based dendritic structures appended with multiple bioactive (S)naproxens were generated as potential drug carriers. The construction of these dendrimers was accomplished using per(chloroacetylated) bile acid dendrons and conveniently displacing all the chlorides with naproxen units. Since naproxen is photoactive with a high fluorescence quantum Figure 3. Structures of secondgeneration dendrimers and a monomer with multiple naproxens. yield, the photophysical properties of these multichromophoric dendrimers could be further explored (Figure 3). By functionalizing the carboxyl group on the side chain with an anthracenyl moiety the energy transfer properties of these dendrimers could be studied. In this section the synthesis of first and secondgeneration dendritic structures with multiple naproxen units at the periphery and benzyl/anthracenyl moiety on the side chain are described (Figure 3). Model compounds using monomeric bile acid units were synthesized for comparison with the dendritic structures. All the compounds were characterized by H NMR, C NMR, IR, ESIMS/MALDITOF, HPLC and elemental analysis (wherever possible). Part II: Absorption, Fluorescence and Intramolelcular Energy Tranfer Studies. Absorption studies showed that the molar extinction coefficients increase linearly with increasing number of naproxen units and the absorption spectra of anthracenyl moiety remain unchanged in all the dendritic systems. These indicated the absence of ground state interaction between the chromophores. In the 275-290 nm absorption region, the molar extinction coefficient of naproxen is much greater than that of the 9-anthracenylmethyl chromophore. Hence excitation in this region would mainly excite the naphthalene chromophore. Upon excitation at 275 nm, there was predominant emission from the anthracenyl moiety in the dendritic structures (containing both chromophores) and the fluorescence intensity increased with increasing number of naproxens(Figure4). This indicated that the dendrimers act as efficient light harvesters with energy transfer from naproxen to anthracene (intramolecular nature of the energy transfer was confirmed through control experiments). (Figure 4: Refer PDF File) The fluorescence and energy-transfer properties were further investigated by time-resolved fluorescence spectroscopy. The presence of fast decay component(s) in the naproxen decay in dendritic structures (containing both chromophores) indicates that its fluorescence is quenched in the presence of anthracene due to energy transfer ((λex 275 nm, λem 350 nm (Figure 5). This was further confirmed by monitoring the fluorescence of the sensitized anthracenyl chromophore (λex 275 nm, λem 436 nm) which exhibited a fast rise comparable to he quenched naproxen lifetime(s). The efficiency of energy transfer was estimated by donor quenching by both steadystate and timeresolved techniques. The dendritic structures exhibited high energy transfer efficiencies (~ 70 – 90 %) with the net efficiency decreasing from the first to second-generation. Part III. In vitro Study of Hydrolysis of Naproxen Appended Bile Acid Prodrugs by Chemical and Enzymatic Methods. The naproxen appended bile acid dendrimers consist of hydrolyzable ester and glycolate linkers. Hence the chemical stability and enzymatic degradation with possible release of naproxen was studied. Two compounds, monomer appended with two naproxens and trimer with four naproxens have been used for the initial investigations (Figure 6). The compounds were found to be highly stable towards chemical hydrolysis and did not show any hydrolysis in phosphate buffer, pH = 7.4 even after 7 days. Since the compounds were not soluble in water, Arabic gum and TritonX were used for emulsification. Figure 6. Structures of monomer and trimer. (Refer PDF File) The enzymatic hydrolysis of the compounds was then studied using Candida Rugosa Lipase. In both cases, there was slow hydrolysis of the substrate and intermediates were formed (with release of free naproxen) which were detected by HPLC (reverse phase column with a UV detector). The trimer underwent much slower hydrolysis compared to the monomer. The intermediates were characterized by absorption and mass (ESIMSQTOF) spectrometry.

Bile Acids

Dendrimers

Drug Carriers

Dendritic Oligomers - Synthesis

Dendrimers - Light Harvesters

Bile Acid Dendrimers

Bile Acid Prodrugs

Functional Dendritic Structures

Naproxen Appended Bile Acid

Light Harvesters

Supramolelcular Hosts

Functional Dendrimers

Bioorganic Chemistry

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

Latenciação de hidroximetilnitrofural com derivados de quitosana, potencialmente ativos em leishmaniose e doença de Chagas / Latentiation of hidroximetilnitrofural derivative chitosan, potentially active in leishmaniasis and Chagas disease

Katia Solange Cardoso Rodrigues dos Santos

16 May 2005

Leishmaniose e doença de Chagas são parasitoses endêmicas causadas, respectivamente, pelos protozoários Leishmania spp. e Trypanosoma cruzi. Ante à escassez de quimioterápicos, à elevada toxicidade dos fármacos disponíveis e à baixa eficácia destes no combate às formas intracelulares, replicantes, dos parasitos há necessidade de buscar novas alternativas quimioterápicas. A atividade tripanomicida do hidroximetilnitrofural, base de Mannich do nitrofural, já era conhecida. O presente trabalho mostra que este derivado também apresenta atividade leishmanicida, quando ensaiado em formas promastigotas de L. amazonensis, L. chagasi e L. baziliensis. Com o objetivo de obter pró-fármacos potencialmente ativos em doença de Chagas e leishmanioses visceral e mucocutânea, planejaram-se e foram sintetizados derivados hidrossolúveis de hidroximetilnitrofural e quitosana, polissacarídeo que apresenta, também, atividade imunomoduladora. Para a aplicação tópica em leishmaniose cutânea sintetizaram-se membranas de quitosana ligada ao hidroximetilnitrofural. Membranas de quitosana copolimerizadas com enxertos de ácido acrílico e metacrilato de hidroxietila foram sintetizadas e avaliadas quanto à biocompatibilidade - trombogenicidade, citotoxicidade e potencial hemolítico. Aquelas com maior teor em metacrilato de hidroxietila não se mostraram citotóxicas, tampouco hemolíticas; aquelas com maior proporção em ácido acrílico, por sua vez, apresentaram excelentes características de intumescimento, mas certo grau de citotoxicidade e hemólise, possivelmente devido à presença de monômeros que não reagiram no material. A ligação do hidroximetilnitrofural à quitosana, por meio de espaçante succínico, produziu prófármaco com propriedades filmogênicas para a aplicação tópica. Os derivados obtidos pró-fármacos e transportadores (quitosanas modificadas) - foram analisados no infravermelho, por ressonância magnética nuclear (RMN 1H e RMN 13C) e por análise térmica - OMTA, TG, OSC. Ensaios de atividade tripanomicida e leishmanicida dos pró-fármacos poliméricos e membranas serão posteriormente efetuados. / Leishmaniasis and Chagas\' disease are endemic parasitosis provoked by the protozoa Leishmania spp and Trypanosoma cruzi, respectively. Due to the scarce chemotherapy, to the high toxicity of the available drugs and to their low effectiveness, mainly in the treatment of intracellular replicant forms of those parasites, the search for new chemotherapeutic alternatives is extremely important. Hydroxymethylnitrofurazone, a nitrofurazone Mannich basis, has proven to be active against trypanomicide before and its activity in cultures of L. amazonensis, L. chagasi and L. braziliensis promastigotes was determined in this work. With the purpose of obtaining prodrugs potentially active in Chagas\' disease and visceral and mucocutaneous leishmaniases, hydrosoluble hydroxymethylnitrofurazone prodrugs have been designed and synthesized using chitosan, a polysaccharide showing immunomudulatory activity, as the carrier. Membranes from chitosan linked with hydroxymethylnitrofurazone have been synthesized for topical administration in cutaneous leishmaniasis. Membranes were obtained by graft copolymerization of hydroxyethy/methacrylate and acrylic acid onto chitosan and their biocompatibility - trombogenicity, citotoxicity and hemolysis potential - was evaluated. Those membranes with higher content of hydroxyethylmethacrylate showed to be neither cytotoxic nor hemolytic; those with higher content of acrylic acid showed good swelling properties, although a certain level of cytotoxicity and haemolysis has been detected, due to the presence of non-reacted monomers. The linkage of hydroxymethylnitrofurazone to chitosan by a succinyl spacer group led to a prodrug with filmogenic properties for topic administration. The derivatives obtained - prodrugs and carriers (modified chitosans) - were analyzed by infrared, nuclear magnetic resonance (1H NMR and 13C NMR) and by thermal analysis - DMTA, TG and DSC. Tests of trypanomicide and leishmanicide activity with polymer prodrugs and membranes will be further developed.

Doença de Chagas (Quimioterapia)

Doenças parasitárias (Quimioterapia)

Hidroximetilnitrofural

Leishmaniose

Planejamento de fármacos

Polímeros sintéticos (Quimioterapia)

Pró-Fármaco

Quitosana

Síntese

Chagas disease (Chemotherapy)

Chitosan

Drugs planning

hydroxymethylnitrofurazone

Leishmaniasis

Parasitic diseases (Chemotherapy)

Prodrugs

Synthesis

Synthetic polymers (Chemotherapy)

Síntese e desenvolvimento de métodos analíticos para o estudo de pró-fármacos dendriméricos potencialmente ativos em doenças negligenciadas / Synthesis and analytical methods development to study dendrimeric prodrugs potentially actives in neglected diseases.

Lorena Cristine Paes

11 November 2016

Doenças infecciosas parasitárias consideradas negligenciadas representam um grande problema de saúde pública em muitos países e regiões. Os fármacos disponíveis na terapêutica são, em geral, tóxicos e de eficácia discutível. Portanto, a descoberta e o planejamento de novos quimioterápicos são extremamente necessários. Neste contexto, os pró-fármacos dendriméricos podem ser úteis. Porém, é necessário esforço adicional para viabilizar os custos, simplificar as estratégias de síntese e investigar os comportamentos de liberação. Ademais, é importante a melhoria dos métodos analíticos, dos métodos de purificação e identificação dos produtos de síntese, para a determinação das propriedades físico-químicas e atividade biológica, visando à efetiva aplicação desta tecnologia. Face ao exposto, o objetivo deste trabalho foi estudar a identidade, pureza e liberação de dois potenciais pró-fármacos dendriméricos, baseados em 3- hidroxiflavona, planejados para serem ativos em doença de Chagas e leishmaniose. O primeiro, estruturalmente, contendo inositol como núcleo e ramos constituídos por éster da 3- hidroxiflavona com ácido málico e o segundo, estruturalmente contendo o dendrímero PAMAM-G0 (poliamidoamina de geração inicial) como transportador e ácido succínico como espaçante. Desenvolveram-se métodos adequados à determinação da 3-hidroxiflavona por HPLC-UV (Cromatografia líquida de alto desempenho, com detecção no ultravioleta) e MEKC (Cromatografia eletrocinética micelar). Comparando-se esses métodos, o método por HPLC foi mais sensível, preciso e exato na quantificação da 3-hidroflavona, enquanto o método por eletroforese capilar foi mais rápido e de menor custo. O éster da 3-hidroxiflavona com o ácido málico mostrou-se instável em soluções orgânicas, aquosas em diferentes pH e nas condições reacionais de diversas estratégias de síntese avaliadas, o que impediu a obtenção do dendrímero baseado em inositol como núcleo conforme proposto. Já o dendrímero PAMAM-G0 funcionalizado com 3-hidroxiflavona foi sintetizado, purificado e caracterizado com sucesso. Não se observou liberação da 3-hidroxiflavona a partir desse dendrímero em solução gástrica simulada (pH 1,2) e a mesma foi lenta em soluções tampão com pH entre 5,0 e 8,5, a 37,0 ºC. Ensaios de atividade biológica do PAMAM-G0-SUC-3-OH-FLAV em amastigotas de Trypanosoma cruzi, cepas Y(Curitiba) e Y(SS), comparativamente ao benznidazol e ao nifurtimox, mostraram atividade moderada e baixa seletividade. / Infectious parasitoses considered neglected diseases represent a great health problem for many countries and areas. Drugs available in the therapeutics are, generally, toxics and do not have good efficacy. So, the discovery and design of new chemotherapeutic agents are extremely needed. In this context, dendrimeric prodrugs may be useful. However, additional effort is required to make the costs accessible, to simplify the synthetic strategies and to investigate the behavior of cleavage. The improvement of analytical methods, purification methods and identification of synthetic products, in order to determine the physicochemical properties and bioactivity aiming to effectively implement this technology, is also required. Based on foregoing considerations, the objective of this work was to study the identity, purity and drug release of two potential dendrimeric prodrugs, based on 3-hydroxyflavone, designed to be active in leishmaniasis and Chagas disease. The first structurally contains myo-inositol as the core and branches consisting of esters from 3-hydroxyflavone with malic acid. The second structurally contains PAMAM-G0 dendrimer (initial generation polyamidoamine) as carrier and succinic acid as spacer. Suitable analytical methods for determining 3-hydroxyflavone by HPLC-UV (High Performance Liquid Chromatography) and MEKC (Micellar Electrokinetic Chromatography) have been developed. Comparing these methods, HPLC method showed more sensitivity, precision and accuracy in the quantification of 3-hydroxyflavone, while the capillary electrophoresis method was faster and less expensive. The ester of 3-hydroxyflavone with malic acid showed to be unstable in organic and aqueous solutions, at different pH and at reaction conditions of synthetic strategies evaluated, which prevented the obtaining of dendrimer based on mio-isositol as core. Notwithstanding, PAMAM-G0 dendrimer funcionalized with 3- hydroxyflavone was synthesized, purified and characterized successfully. There were no 3- hydroxyflavone releases from this dendrimer in simulated gastric fluid (pH 1.2) and a slow release was observed in buffer solutions with pH between 5.0 and 8.5, at 37.0 ºC. Submitted to biological assays in amastigotes of two strains of T. cruzi, Y(Curitiba) and Y(SS), compared to benznidazole e nifurtimox, PAMAM-G0-SUCC-3-OH-FLAV showed moderated activity and low selectivity index.

3-hidroxiflavona

Dendrímero

Doenças negligenciadas

Eletroforese capilar (CE)

Latenciação

Poliamidoamina (PAMAM)

3-hydroxyflavone

Capillary electrophoresis (CE)

Dendrimers

Neglected diseases

Poly(amidoamine) (PAMAM)

Prodrugs