Salvage and de novo synthesis of nucleotides in Trypanosoma brucei and mammalian cells

Fijolek, Artur

January 2008

All living cells are dependent on nucleic acids for their survival. The genetic information stored in DNA is translated into functional proteins via a messenger molecule, the ribonucleic acid (RNA). Since DNA and RNA can be considered as polymers of nucleotides (NTPs), balanced pools of NTPs are crucial to nucleic acid synthesis and repair. The de novo reduction of ribonucleoside diphosphates (NDPs) to deoxyribonucleoside diphosphates (dNDPs), the precursors for DNA synthesis, is catalyzed by the enzyme ribonucleotide reductase (RNR). In cycling cells the dominant form of mammalian RNR consists of two proteins called R1 and R2. A proteasome-mediated degradation completely deprives postmitotic cells of R2 protein. The nonproliferating cells use instead a p53 inducible small RNR subunit, called p53R2 to synthesize dNTPs for mitochondrial DNA replication and DNA repair. To address the ongoing controversy regarding the localization and subsequently function and regulation of RNR subunits, the subcellular localization of all the mammalian RNR subunits during the cell cycle and after DNA damage was followed as a part of this thesis. Irrespective of the employed methodology, only a cytosolic localization could be observed leading to a conclusion that the dNTPs are synthesized in the cytosol and transported into the nucleus or mitochondria for DNA synthesis and repair. Thus, our data do not support the suggestion that nuclear translocation is a new additional mechanism regulating ribonucleotide reduction in mammalian cells. In an attempt to find a cure for African sleeping sickness, a lethal disease caused by a human pathogen, Trypanosoma brucei, nucleotide metabolism of the parasite was studied. The trypanosomes exhibit strikingly low CTP pools compared with mammalian cells and they also lack salvage of cytidine/cytosine making the parasite CTP synthetase a potential target for treatment of the disease. Following expression, purification and kinetic studies of the recombinant T. brucei CTP synthetase it was found that the enzyme has a higher Km value for UTP than the mammalian CTP synthetase. In combination with a lower UTP pool the high Km may account for the low CTP pool in trypanosomes. The activity of the trypanosome CTP synthetase was irreversibly inhibited by the glutamine analog acivicin, a drug extensively tested as an antitumor agent. Daily injections of acivicin to trypanosome-infected mice were sufficient to suppress the parasite infections. The drug was shown to be trypanocidal when added to cultured bloodstream T. brucei for four days at 1 uM concentration. Therefore, acivicin may qualify as a drug with “desirable” properties, i.e. cure within 7 days, according to the current Target Product Profiles of WHO and DNDi. Trypanosomes lack de novo purine biosynthesis and are therefore dependent on exogenous purines such as adenosine that is taken up from the blood by high-affinity transporters. We found that besides the cleavage-dependent pathway, where adenosine is converted to adenine by inosine-adenosine-guanosine-nucleoside hydrolase, T. brucei can also salvage adenosine by adenosine kinase (AK). The efficient adenosine transport combined with a high-affinity AK yields a strong salvage system in T. brucei, but on the other hand makes the parasites highly sensitive to adenosine analogs such as adenine arabinoside (Ara-A). The cleavage-resistant Ara-A was shown to be readily taken up by the parasites and phosphorylated by the TbAK-dependent pathway, inhibiting trypanosome proliferation and survival by incorporation into nucleic acids and by affecting nucleotide levels in the parasite.

nucleotides

ribonucleotide reductase

Ara-A

p53R2

Trypanosoma brucei

African sleeping sickness

trypanosomiasis

CTP synthetase

adenosine kinase

acivicin

adenine arabinoside

Biochemistry

Biokemi

Regulation of the cardiac isoform of the ryanodine receptor by S-adenosyl-l-methionine

Gaboardi, Angela Kampfer

08 November 2011

Activity of the Ryanodine Receptor (RyR2) (aka cardiac Ca2+ release channel) plays a pivotal role in contraction of the heart. S-adenosyl-l-methionine (SAM) is a biological methyl group donor that has close structural similarity to ATP, an important physiological regulator of RyR2. This work provides evidence that SAM can act as a RyR2 regulatory ligand in a manner independent from its recognized role as a biological methyl group donor. RyR2 activation appears to arise from the direct interaction of SAM, via its adenosyl moiety, with the RyR2 adenine nucleotide binding sites. Because uncertainty remains regarding the structural motifs involved in RyR2 modulation by ATP and its metabolites, this finding has important implications for clarifying the structural basis of ATP regulation of RyR2. During the course of this project, direct measurements of single RyR2 activity revealed that SAM has distinct effects on RyR2 conductance. From the cytosolic side of the channel, SAM produced a single clearly resolved subconductance state. The effects of SAM on channel conductance were dependent on SAM concentration and membrane holding potential. A second goal of this work was to distinguish between the two possible mechanisms by which SAM could reduce RyR2 conductance: i) SAM interfering directly with ion permeation via binding within the conduction pathway (pore block), or ii) SAM binding a regulatory (or allosteric) site thereby stabilizing or inducing a reduced conductance conformation of the channel. It was determined that SAM does not directly interact with the RyR2 conduction pathway. To account for these observations an allosteric model for the effect of SAM on RyR2 conductance is proposed. According to this model, SAM binding stabilizes an inherent RyR2 subconductance conformation. The voltage dependence of the SAM related subconductance state is accounted for by direct effects of voltage on channel conformation which indirectly alter the affinity of RyR2 for SAM. Patterns in the transitions between RyR2 conductance states in the presence of SAM may provide insight into the structure-activity relationship of RyR2 which can aid in the development of therapeutic strategies targeting this channel.

Methylation

Ryanodine receptor

S-adenosyl-l-methionine

Subconductance

Adenine nucleotides

ATP

Ion channels

Ryanodine Receptors

Calcium channels

Muscle contraction

Estrutura cristalográfica da lectina de sementes da Canavalia maritima Aub, em complexo com o ácido gamaaminobutírico (GABA) e a adenina revela novas características estruturais e prediz mecanismo anti-herbivoria

Silva Filho, José Caetano da

16 August 2013

Made available in DSpace on 2015-04-01T14:16:03Z (GMT). No. of bitstreams: 1 arquivototal.pdf: 5234352 bytes, checksum: 404f7b4f1ab797fa6090d6cd85ee8163 (MD5) Previous issue date: 2013-08-16 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / Plants are sessile organisms susceptible to biotic and abiotic stresses. Insect herbivore attacks are factors that affect their survival and development. To defend themselves, plants produce and release chemical compounds, such as non protein amino acids, that negatively affect the development processes of their attackers, as well as use phytohormones that regulate defense responses against herbivory. In the present work, we seek to understand in depth the insecticidal activity related to ConM, a lectin isolated from beach bean seeds (Canavalia maritima Aub.), through their crystal structure analysis in complex with the non protein amino acid GABA (gamma-aminobutyric acid) and adenine, a nitrogen base-precursor of cytokinins, phytohormones involved in defense responses against insect herbivores. In this way, we co-crystallized ConM with GABA and soaked the derived crystals into an adenine 5mM solution. It was viewed through ConM monomeric model that GABA stabilization occurs through interactions displayed with amino acid residues that participate in the coordination of its isomer alpha-aminobutyric acid (Abu). In the other hand, adenine molecule displays interactions with amino acid residues from ConM Carbohydrate Recognition Domain due ahydrophobic pocket adjacently localized to this ligand-binding site and formed from a secondary non repetitive structure of β-bulge. A dimeric model of ConM reveals that lectin insecticidal activity is related to conformational changes of Gln132, resulting in GABA release without quaternary structure change. Hence, the presented results might contribute to greater understanding of lectins interactions with different chemical ligands, helping their application as biotechnological tools. / Plantas são organismos sésseis que encontram-se susceptíveis a estresses bióticos e abióticos. O ataque de insetos herbívoros é um fator que afeta sua sobrevivência e seu desenvolvimento. Como defesa, estes organismos são capazes de produzir e liberar compostos químicos, como aminoácidos não proteicos, que interferem no desenvolvimento dos insetos agressores, e utilizam fitohormônios para regular suas respostas de defesa. No presente trabalho, buscamos entender o papel inseticida da ConM, uma lectina isolada de sementes do feijão-de-praia (Canavalia maritima Aub.), a partir da análise de sua estrutura tridimensional em complexo com o aminoácido não proteico GABA (ácidogama-aminobutírico) e com a base nitrogenada adenina, precursora das citocininas, fitohormônios envolvidos com processos de defesa contra insetos herbívoros. Para tanto, resolvemos a estrutura cristalográfica da ConM co-cristalizada com o GABA e soaked com a adenina 5mM. O modelo monomérico da lectina mostrou que o GABA encontra-se coordenado por interações com resíduos de aminoácidos previamente reportados como sendo participantes da estabilização do ácido alfaaminobutírico (Abu). A adenina, por outro lado, é estabilizada por interações com resíduos constituintes do domínio de reconhecimento a carboidrato da ConM, o que pode ser explicado pela presença de uma região hidrofóbica adjacente a este sítio, formada por uma estrutura secundária não repetitiva do tipo β-bulge. Um modelo dimérico da ConM revela que a atividade inseticida de lectinas está relacionada com mudanças conformacionais da Gln132, permitindo que o GABA seja liberado sem alteração da estrutura quaternária. Assim, os resultados aqui apresentados podem contribuir para um maior entendimento acerca da capacidade de interação de lectinas vegetais com diferentes tipos de ligantes, facilitando sua utilização como ferramenta biotecnológica.

Lectina

Ácido Gama-Aminobutírico - GABA

Adenina

Estrutura cristalográfica

Atividade inseticida

Lectin

Adenine

Crystal structure

Insecticidal activity

CIENCIAS BIOLOGICAS::BIOLOGIA GERAL

Caracterização molecular e bioquímica de um transportador mitocondrial de nicotinamida adenina dinucleotídeo de Aspergillus fumigatus / Molecular and biochemical characterization of a mitochondrial nicotinamide adenine dinucleotide carrier of Aspergillus fumigatus

Laís de Lourdes de Lima Balico

03 November 2014

O A. fumigatus é um fungo saprofítico e tornou-se um dos principais agente patogênico oportunista em pacientes imunossuprimidos. Estudos prévios em nosso laboratório foi demonstrado que em mitocôndrias de P. brasiliensis e de A. fumigatus, o NAD+ era capaz de induzir a formação de potencial de membrana mitocondrial, o qual podia ser dissipado por FCCP, sugerindo a presença de um transportador de NAD+/NADH, conforme havia sido descrito em S. cerevisiae. Através de ferramentas de bioinformática, foi identificado no Aspergillus Gene Database, uma sequência com 32% de identidade com o gene ndt1p de S. cerevisiae. A sequência de cDNA, contendo 1.194 pb foi obtida usando PCR-Overlaping e clonada em vetor pGEM®-T Easy. Em seguida, a sequência foi subclonada em vetor de expressão pET28-a(+) e expressa em E. coli BL21(DE3). A proteína recombinante foi purificada a partir dos corpos de inclusão e sua identidade confirmada por espectrometria de massas e por Western Blotting usando anticorpo anti-His-tag. A proteína recombinante foi utilizada para produção de anticorpo policlonal anti-Ndt1 em coelho. Para expressão em levedura, o cDNA do gene ndt1 de A. fumigatus foi subclonado em vetor pYES2 e as leveduras S. cerevisiae ?ndt1?ndt2 foram transformadas. Foi realizada a curva de crescimento e indução da expressão da proteína recombinante Ndt1, a presença da proteína foi detectada utilizando anticorpo policlonal anti-Ndt1 após 16 horas de expressão. Nesse período foi verificado que as leveduras estavam em fase de crescimento exponencial. A cepa duplo mutante apresenta uma taxa de crescimento menor quando comparada com a cepa expressando a proteína recombinante quando crescidas em meio fermentável. As mitocôndrias isoladas de ambas as cepas foram submetidas à medida do potencial de membrana onde apresentavam acoplamento entre a oxidação de substratos e a fosforilação oxidativa. Além disso, ficou evidenciado que na cepa expressando a proteína recombinante, NAD+ induziu a formação de um potencial de membrana maior que na cepa controle. O transporte de NAD+ foi realizado e demonstrou que a cepa expressando a proteína Ndt1 tinha um aumento na fluorescência de NADH, mostrando que NAD+ foi capaz de entrar na matriz mitocondrial e posteriormente ser reduzido a NADH por enzimas da matriz mitocondrial. A determinação da produção de espécies reativas de oxigênio foi realizada utilizando as sondas fluorescentes CM-H2DCFDA e MitoSox Red em esferoplastos da levedura S. cerevisiae. Ambos experimentos não houve diferença significativa entre a cepa expressando a proteína Ndt1 e a cepa controle. As proteínas carboniladas foram determinadas utilizando anticorpo anti-DNP, após a reação com dinitrofenilhidrazona e não há diferença significativa entre as cepas. Finalmente, para confirmação da localização celular da proteína Ndt1, os esferoplastos de S. cerevisiae foram submetidos à microscopia confocal, onde ficou evidenciado a co-localização da proteína Ndt1 com as mitocôndrias na cepa de S. cerevisiae transformada com a construção pYES/ndt1, o mesmo perfil não foi observado na cepa ?ndt1?ndt2. / The A. fumigatus is a saprophytic fungus and is a major opportunistic pathogen in immunosuppressed patients. Previous studies in our lab has showed that mitochondrias of the P. brasiliensis and A. fumigatus, NAD+ is able to induce the formation of mitochondrial membrane potential, which could be dissipated by FCCP, suggesting the presence of a NAD+/NADH carrier as described in S. cerevisiae. Using bioinformatics tools, it was identified in Aspergillus Gene database a sequence containing 32% of identity with the gene ndt1p of S. cerevisiae. A fragment of cDNA was obtained from the ndt1p mRNA sequence, containing 1194 bp by using PCR-overlaping and cloned in pGEM®-T Easy vector. Then, the sequence was subcloned in pET28-a(+) vector and expressed in E. coli BL21 (DE3). The recombinant protein was purified from inclusion bodies and the identity confirmed by mass spectrometry and by Western Blotting using anti-His-tag antibody. The recombinant protein was used to produce polyclonal antibody anti-Ndt1 in rabbit. For expression in yeast, the ndt1 cDNA of A. fumigatus was subcloned into pYES2 vector and the yeast S. cerevisiae ?ndt1?ndt2 were transformed. Growth curve and induction of the recombinant protein expression Ndt1 was performed and the protein was detected using a polyclonal anti-Ndt1 antibody after 16 hours of expression. During this period it was found that the yeast were in exponential growth phase. The double mutant strain shows a slower growth rate compared to the strain expressing the recombinant protein growth rate when grown in fermentable medium. The isolated mitochondria from both strains were subjected to measurement of the membrane potential which showed coupling between substrate oxidation and oxidative phosphorylation. Furthermore, these measurements evidenced that the strain expressing the recombinant protein NAD+ induced the formation of a membrane potential larger than the control strain. The transport NAD+ was evaluated and showed that the strain expressing the protein Ndt1 has an increase in NADH fluorescence, indicating that NAD+ was able to enter into the mitochondrial matrix and then reduced to NADH by enzymes from the matrix. The determination of the production of reactive oxygen species was performed using the fluorescent probe CM-H2DCFDA and MitoSox Red in spheroplasts of the yeast S. cerevisiae. Both experiments showed no significant difference between the strain expressing Ndt1 protein and strain control. The carbonylated proteins levels were checked using anti-DNP, after the reaction with dinitrophenylhydrazone and there is no significant difference between the strains. Finally, to confirm the cellular localization of the protein Ndt1, spheroplasts of S. cerevisiae were subjected to confocal microscopy, which evidenced the co-location of Ndt1 protein with mitochondria in S. cerevisiae strain transformed with the construction pYES/ndt1. This same profile was not observed in strain ?ndt1?ndt2.

Aspergillus fumigatus

Mitocôndria

Saccharomyces cerevisiae

Aspergillus fumigatus

Mitochondria

Saccharomyces cerevisiae

Mecanismos de formação de granulomas e papel do sistema NF-kappa B em um modelo de doença renal crônica por sobrecarga de adenina / Mechanisms of granuloma formation and role of the NF-kappa B system in a model of chronic renal disease by adenine overload

Cristiene Okabe

17 October 2012

O excesso de adenina na dieta (ADE) promove precipitação intratubular de cristais, levando à instalação de uma nefrite intersticial progressiva e perda da função renal. Observações recentes indicam que a sobrecarga de ADE em camundongos em que os genes para TLR-2, -4, MyD88, ASC ou caspase-1 foram inativados provoca menos dano renal do que quando administrado a camundongos selvagens, sugerindo a existência de um papel patogênico para a ativação de TLRs e a montagem de inflamassomas nesse modelo. O presente estudo foi concebido para investigar se outro importante componente da imunidade inata, o sistema NF-B, também exerce papel patogênico na nefropatia associada ao excesso de ADE. Ratos Munich-Wistar machos e adultos foram divididos em 3 grupos: C (N=17), ração padrão; ADE (N=17), ADE na ração, 0,7% durante 1 semana e 0,5% durante 2 semanas; ADE+PDTC (N=14), ADE administrada como descrito anteriormente, associada ao inibidor do NF-B, pirrolidina ditiocarbamato (PDTC), 120 mg/kg/dia na água do bebedouro. Após 3 semanas, observou-se deposição de numerosos cristais no tecido renal, em sua maioria no interior de granulomas de corpo estranho, acompanhada de intensa atividade proliferativa tubulointersticial. Uma parte dos cristais apareceu envolvida por uma camada de células aparentemente derivadas do epitélio tubular, que pareciam segregar os precipitados e, em alguns casos, expulsá-los ao interstício. Essas alterações associaram-se a uma grande expansão da área intersticial, com deposição de colágeno, além de hipotrofia glomerular. Foi possível ainda demonstrar um aumento da expressão da interleucina-6, do interferon-, da proteína específica de fibroblastos (FSP-1) e da proteína quimiotática para macrófagos (MCP-1). A abundância do IKK-, uma quinase ativadora do sistema NK-B, mostrou-se também acentuadamente elevada nesses ratos. O tratamento com PDTC normalizou a expressão do IKK-, diminuindo o número de granulomas e a proliferação celular, além de atenuar fortemente a fibrose e o declínio da função renal. Esses achados, que contribuem para elucidar os mecanismos de formação de granulomas no modelo de sobrecarga de adenina, são consistentes com o conceito de que o sistema NF-B é ativado pela precipitação intratubular de cristais e contribui, juntamente com outros mecanismos ligados à imunidade inata, para iniciar a intensa resposta inflamatória associada a esse modelo. Descritores: 1.Insuficiência renal crônica 2.Adenina 3.Imunidade inata 4.NF-kappa B 5.GranulomaO excesso de adenina na dieta (ADE) promove precipitação intratubular de cristais, levando à instalação de uma nefrite intersticial progressiva e perda da função renal. Observações recentes indicam que a sobrecarga de ADE em camundongos em que os genes para TLR-2, -4, MyD88, ASC ou caspase-1 foram inativados provoca menos dano renal do que quando administrado a camundongos selvagens, sugerindo a existência de um papel patogênico para a ativação de TLRs e a montagem de inflamassomas nesse modelo. O presente estudo foi concebido para investigar se outro importante componente da imunidade inata, o sistema NF-B, também exerce papel patogênico na nefropatia associada ao excesso de ADE. Ratos Munich-Wistar machos e adultos foram divididos em 3 grupos: C (N=17), ração padrão; ADE (N=17), ADE na ração, 0,7% durante 1 semana e 0,5% durante 2 semanas; ADE+PDTC (N=14), ADE administrada como descrito anteriormente, associada ao inibidor do NF-B, pirrolidina ditiocarbamato (PDTC), 120 mg/kg/dia na água do bebedouro. Após 3 semanas, observou-se deposição de numerosos cristais no tecido renal, em sua maioria no interior de granulomas de corpo estranho, acompanhada de intensa atividade proliferativa tubulointersticial. Uma parte dos cristais apareceu envolvida por uma camada de células aparentemente derivadas do epitélio tubular, que pareciam segregar os precipitados e, em alguns casos, expulsá-los ao interstício. Essas alterações associaram-se a uma grande expansão da área intersticial, com deposição de colágeno, além de hipotrofia glomerular. Foi possível ainda demonstrar um aumento da expressão da interleucina-6, do interferon-, da proteína específica de fibroblastos (FSP-1) e da proteína quimiotática para macrófagos (MCP-1). A abundância do IKK-, uma quinase ativadora do sistema NK-B, mostrou-se também acentuadamente elevada nesses ratos. O tratamento com PDTC normalizou a expressão do IKK-, diminuindo o número de granulomas e a proliferação celular, além de atenuar fortemente a fibrose e o declínio da função renal. Esses achados, que contribuem para elucidar os mecanismos de formação de granulomas no modelo de sobrecarga de adenina, são consistentes com o conceito de que o sistema NF-B é ativado pela precipitação intratubular de cristais e contribui, juntamente com outros mecanismos ligados à imunidade inata, para iniciar a intensa resposta inflamatória associada a esse modelo / Excessive dietary adenine (ADE) promotes intratubular precipitation of crystals, leading to the installation of progressive interstitial nephritis and renal function loss. Recent observations indicate that ADE overload in mice in which genes for TLR-2, -4, MyD88, ASC or caspase-1 were inactivated causes less renal damage than when administered to wild-type mice, suggesting the existence of a pathogenic role for the activation of TLRs and the assembly of inflamassomes in this model. The present study was designed to investigate whether another important component of innate immunity, the NF-B system, also plays a role in the pathogenesis of the nephropathy associated with excess ADE. Adult Male Munich-Wistar rats were distributed among three groups: C (n = 17), receiving standard diet; ADE (N = 17), given ADE in the diet at 0.7% for 1 week and 0.5% for 2 weeks; and ADE + PDTC (N = 14), receiving ADE as described above, associated with the NF-B inhibitor, pyrrolidine dithiocarbamate (PDTC), 120 mg/kg/ day in drinking water. After three weeks, there was widespread deposition of crystals in the renal tissue, mostly within granulomas, accompanied by florid tubulointerstitial proliferative activity. Part of these crystals was enclosed in a layer of cells apparently derived from the tubular epithelium, which appeared to segregate the precipitates, and in some cases, to extrude them to the interstitium. These changes were associated with marked interstitial expansion, collagen deposition, and glomerular hypotrophy. Increased expression of interleukin-6, interferon-, fibroblast specific protein (FSP-1) and macrophage chemoattractant protein (MCP-1) were also shown. The abundance of IKK-, a kinase that activates the NF-B system, was also markedly elevated in these mice. Treatment with PDTC normalized the expression of IKK-, reducing the number of granulomas and cell proliferation, and strongly attenuated interstitial fibrosis and the decline of renal function. These findings, which contribute to illuminate some mechanisms of granuloma formation in the ADE overload model, are consistent with the concept that the NF-B system is activated by intratubular precipitation of crystals and contributes, along with other mechanisms related to innate immunity, to initiate the intense inflammatory response associated with this model

Adenina

Granuloma

Imunidade inata

Insuficiência renal crônica

NF-kappa B

Adenine

Chronic renal failure

Granuloma

Innate immunity

NF-kappa B

Sélection d’aptamères anti-adénine ADN modifiés en présence de solvant organique. Application au développement de biocapteurs / Selection of DNA modified aptamer-recognizing adenine in organic media : application to biosensor development

Chaou, Thinhinane

16 December 2015

Le développement d’outils de détection in situ (IDT) est indispensable pour rapporter entemps réel la présence d’une signature moléculaire spécifique. L’efficacité d’un IDT estliée à son affinité, à sa spécificité, mais aussi à son potentiel à opérer dans des conditionsimposées par le contexte d’application. Parmi les contraintes imposées, la variation detempérature, le pH et la présence de solvant d’extraction. Le but du projet est dedévelopper des aptamères capables d’opérer en présence de solvant organique ; à ceteffet, nous avons opté pour une sélection en présence de méthanol. La limitation decette stratégie est principalement liée à la nature chimique des acides nucléiques. Parconséquent, nous avons choisi d’utiliser une banque ADN incorporant le (5-(octa1,7-diynyl)-2’-deoxyuridine) dDOTP, au lieu du dTTP. Notre stratégie expérimentale aabouti à la sélection d’un aptamère qui lie spécifiquement l’adénine en présence de 25 %de méthanol. Nous avons montré que les dDOTP sont essentiels à l’interaction del’aptamère avec l’adénine ; l’aptamère sélectionné comporte un motif riche en G partagéavec l’aptamère anti-adénosine, cependant, l’aptamère sélectionné dans le méthanolcomporte un motif structural indispensable à l’interaction avec la cible en présence deméthanol. Par ailleurs, nous avons montré que l’aptamère sélectionné pourraitfonctionner comme un module de reconnaissance spécifique d’un biocapteur. / Development of in situ detection tools (IDT) is required for specific real time monitoringof chemical species. Efficient IDT is not only related to its affinity and ability todiscriminate between molecular variants, but moreover it must be adapted for operatingunder conditions imposed by the context of application. Among others, hightemperature, pH variation and presence of organic solvents may be mentioned. The aimof our project is to develop an aptamer operating in the presence of organic solvents. Forthis purpose, we opted for selection in presence of methanol. Limitations of this strategyare adaptability of SELEX technology and chemical diversity of nucleic acids. For thispurpose, we used library incorporating (5-(octa1,7-diynyl)-2’-deoxyuridine) dDOTPinstead of conventional thymine nucleotide. Our experimental strategy led to theselection of an aptamer that specifically recognises adenine in the presence of 25 % ofmethanol. dDOTP nucleotides are essential for adenine recognition; the selectedaptamer shares a purine rich motif with a previously described adenosine aptamer, butdisplays a specific structure motif, essential for operating in the presence of methanol.Furthermore, the ability of truncated variants of the selected aptamer to form arecognition module of biosensor was assessed in this study.

Aptamère

Marqueurs de chimie prébiotique

Adénine

Biocapteurs

Complexe

Kissing ARN

Aptamer

SELEX

Prebiotic chemistry

Adenine

Biosensors

Kissing RNA complexes

Efeitos cotton nas enzimas piridínicas e compostos relacionados / Cotton effects on pyridinium coenzymes and related compounds

Adelaide Faljoni-Alario

15 October 1976

O produto de redução da nicotinamida adenina dinucleotídio (NADH) foi convertido no seu derivado hidratado NADH-X (6-hidroxi-l,4,5,6-tetraidronicotinamida adenina dinucleotídio) por ação de íons polibásicos tais como: fosfato, arsenato etc, ou por ação enzimática da gliceraldeído-3-fosfato desidrogenase (GPD). A cinética da hidratação foi acompanhada pelo aumento de absorbância (ΔA285 nm) e o aparecimento de um efeito Cotton a 285 nm , notando-se que quando se parte do anômero β da coenzima, o efeito Cotton positivo só se desenvolve nos estágios finais da reação na presença de enzima. Com base nesses resultados postulou-se a formação de um intermediário que se transforma num produto final, o qual mostra um efeito Cotton positivo a 285 nm. Supõe-se que essa última transformação seja uma epimerização β→α, de maneira que a adição de água não afeta inicialmente a configuração do átomo C1, da ribose. Contudo, após a hidratação, o produto se transforma no epímero α, que é termodinamicamente mais estável. Na ausência da enzima, o efeito Cotton aparece em estágios anteriores, sugerindo que a hidratação, sendo lenta, dá oportunidade à epimerização. Consequentemente não há tanto acúmulo deste intermediário, que apresenta efeito Cotton praticamente nulo. A hidratação do anômero α-NADH, na presença de GDP, mostrou um aumento de absorbância a 285 nm mais rápido do que para a forma β. Por outro lado, o efeito Cotton positivo só começou a aparecer após desenvolvimento de 60% do ΔA285 nm. Isto indicou que também para α-NADH há formação de um intermediário, o qual apresenta um efeito Cotton nulo. Quando β-NADH foi hidratado na ausência da enzima, observou-se um comportamento semelhante, porém, menos marcante com relação ao aparecimento do efeito Cotton. O fato de GPD e íons polibásicos produzirem efeitos semelhantes sobre os anômeros α e β, sugere que a ação enzimática da GPD não é estereoespecífica, produzindo uma mistura de epímeros em C6. Explica, também, o efeito Cotton nulo quando já se tem grande parte da hidratação efetuada. Desta maneira pôde-se afirmar (i) que o intermediário é uma mistura de epímeros em C6; (ii) que com o tempo predomina o epímero termodinamicamente mais estável. Os mesmos estudos foram desenvolvidos com NADPH, desamino-NADH e NMNH, para esclarecimentos a respeito da influência de grupos fosfato, amino e açúcar na catálise da hidratação e dos centros responsáveis pelo efeito Cotton positivo a 285 nm, nos piridinos nucleotídios. Observou-se que NADPH tem comportamento semelhante ao β-NADH, indicando que o grupo fosfato não tem papel importante nas catálises química e enzimática. No caso do mononucleotídio e desamino-dinucleotídio não houve diferença significativa entre as velocidades de hidratação química e enzimática, o que siginifica ser importante a presença do amino grupo da adenina para catálise enzimática no caso de NADH. Os derivados acima, também, apresentaram efeito Cotton positivo nos estágios finais da reação. Com base no fato, que o mononucleotídio também apresentou efeito Cotton positivo, de mesma intensidade dos dinucleotídios, pôde-se afirmar que o açúcar ligado ao anel da nicotinamida é o responsável pela dissimetria do produto formado. Traçou-se o espectro de absorção circular dicróica do isômero 1,6-NADH, ainda desconhecido, para obter-se informações a respeito da sua estrutura. Através dos valores de elipticidades molares, concluiu-se que é mais rígida do que a do 1,4-NADH, presumivelmente, devido a ligação simples, que une os anéis piridínico e ribosídico, ter rotação mais impedida, como consequência da maior proximidade do par de hidrogênios da piridina, com a ribose. O estudo da adição de CN- aos piridinos nucleotídios e compostos relacionados, usando técnica de dicroismo circular, mostrou haver estereosseletividade na adição. O espectro de absorção circular dicróica do aduto β-NAD+/CN- mostrou uma banda negativa larga com máximo em torno de 330 nm. Esta banda é assimétrica, o que permite um desdobramento em outras duas, com máximos a 325 e a 345 nm, de intensidade semelhantes. Em analogia com a redução dos piridinos nucleotídios, que ocorre nas posições 2, 4 e 6, pôde-se afirmar que a adição de CN-, também, ocorre em outras posições e não exclusivamente em 4. A banda de dicroismo circular na região de 345 nm, pareceu indicar a presença do isômero 1,6. O fato deste estar em concentração baixa a ponto de não ser detectável espectrofotometricamente, indicou que a força rotacional é bem maior do que para o isômero 1,4. Tal fato deve estar relacionado com a maior proximidade do CN- ao anel carboidrático. No aduto da forma α do piridino nucleotídio, o espectro de dicroismo circular apresentou uma banda negativa, com máximo de 342 nm e uma inflexão a 325 nm. Essa assimetria mostrou, claramente, a existência dos dois isômeros e, que a adição de CN- em C6 é bastante estereosseletiva. Além da estereosseletividade, pode estar contribuindo, também a menor mobilidade rotacional do anel diidronicotinamídico, quando se tem aduto em C6. A estereosseletividade da adição de cianeto veio corroborar com a proposição de um equilíbrio rápido entre as conformações aberta e fechada para os piridino nucleotídios. A possível existência de uma transição fraca, associada ao núcleo diidronicotinamídico, foi confirmada detectando-se um efeito Cotton associado a ela. Esse efeito foi observado para α-NADH, β-NADH e seus correspondentes adutos de CN-. Realizando-se o mesmo estudo para o complexo de β-NADH.Cu++, verificou-se que o efeito Cotton é 15 vezes mais intenso, confirmando assim, a detecção pioneira dessa transição fraca, presumivelmente de natureza singlete-triplete. / The reduction product of nicotinamide adenine dinucleotide (NADH) is converted into the hydration product NADH-X (6-hydroxy-1,4,5,6-tetrahydronicotinamide adenine dinucleotide) by the action of polybasic ions such as phosphate, arsenate etc., or by enzymatic catalysis with glyceraldehyde-3-phosphate dehydrogenase (GPD). The hydration kinetics were followed by the increase in absorbance at 285 nm. Starting with the β-anomer of the coenzyme, the transition at 285 nm begins to exhibit a positive Cotton effect only in the later stages of the reaction. On the basis of the results, the formation of an interrnediate not exhibiting a Cotton effect at 285 nm is postulated. Since the hydration would not be expected to change the configuration at C1, of the ribose, the appearance of the Cotton effect is presumably due to an epimerization from the β-epimer to the thermodynamically more stabe α-epimer. In the absence of enzyme, the Cotton effect appears at somewhat lower conversions, suggesting that the slower hydration reaction provides greater opportunity for the occurrence of the epimerization. The increase in absorbance at 285 nm is more rapid for the hydration of the α-anomer of NADH than for the β-form in the presence of GPD. A positive Cotton effect is only observed for the forrner after the reaction has gone to about 60% completion. This indicates that an intermediate not exhibiting a Cotton effect is also formed in the case of α-NADH. Similar behavior was observed in the non-enzymatic hydration, however, as in the case of β-NADH, the onset of the Cotton effect occurred at lower conversions. The fact that GPD and polybasic ions produce similar effects on both the α and β anomers suggests that the enzymatic action of GPD is non-stereospecific, producing a mixture of epimers at C6. This also explain the absence of a Cotton effect even though significant hydrations has occurred. Thus we conclude (i) that the intermediate is a mixture of C6 epimers and (ii) that the more thermodynamically stable epimer predominates at long reaction times. The same studies were carried out with NADPH, deamino-NADH and NMNH to clarify the catalytic influence of the phosphate, amino, and sugar groups on the hydration and to identify the centers responsible for the positive Cotton effect at 285 nm in pyridine nucleotides. The observation that the behavior of NADPH is similar to that of β-NADH indicates that the phosphate group does not play an important role in the chemical and enzymatic catalysis. In the case of NMNH and deamino-NADH there is no significant difference between the rates of the chemical and enzymatic hydration, which implies that the presence of the amino group of adenine is important in the enzymatic catalysis of the hydration of NADH. The above derivatives also present positive Cotton effects in the later stages of the reaction. Since that mononucleotide exhibits a positive Cotton effect of intensity equal to that of the dinucleotides, it can be concluded that the sugar attached to the nicotinamide ring is responsible for the assymetry of the product. The previously unknown circular dichroic absorption spectrum of 1,6-NADH was determined in order to gain insight into its structure. From the values of the molar ellipticity it is concluded that the assymetric center of 1,6-NADH is more rigid than that of. 1,4-NADH. This is presumably due to a greater hindrance to rotation about the single bond between the pyridine and ribose rings in 1,6-NADH. A circular dichroic study of the addition of CN- to pyridine nucleotides and related compounds demonstrated the stereoselectivity of the addition. The circular dichroic absorption spectrum of the B-NAD+/CN- adduct exhibits a broad assymetric negative band with a maximum at about 330 nm. This band was interpreted in terms of two bands of similar intensity with maxima at 325 and 345 nm. By analogy with the reduction of pyridine nucleotides,which occurs at position 2,4 and 6, it is concluded that CN- addition also occurs at positions other than C4. The band at 345 nm was attributed to the 1,6-isomer. The fact that this isomer could not be detected by conventional absorption techniques indicates that it is present in low concentrations relative to the 1,4-isomer. It must have therefore has a much greater rotational strength, which is reasonable in view of the proximity of the CN- to the carbohydrate ring. The circular dichroic absorption spectrum of the α-NAD+/CN- adduct exhibited a negative band with a maximum at 342 nm and an inflection at 325 nm. This assymetry clearly demonstrated the presence of two isomers and the stereoselectivity of CN- addition at C6. Although the l,6-adduct could not be detected by conventional absorption techniques, the stereoselectivity of the addition and a large rotational strength contribute to its circular dichroic intensity. The stereoselectivity of the CN- addition corroborates the existence of a rapid conformational equilibrium between the folded and unfolded forms of pyridine nucleotides. A Cotton effect associated with the weak electronic transition attributed to the dihydronicotinamide nucleus was observed for α-NADH, β-NADH, and the corresponding CN- adducts, confirming the existence of the transition. For the β-NADH.CU++ complex, the Cotton effect was found to be 15 times more intense, thus confirming the original detection of this weak transition, which presumably has singlet-triplet character.

Coenzimas piridínicos

Dicroísmo circular

Efeito cotton

Nicotina ademina Dimedeotideo

Circular dichroism

Cotton effect

Nicotine adenine Dimedeotideo

Pyridine

Modification of Cardiac Membrane Gsα by an Endogenous Arginine-Specific Mono-Adp-Ribosyltransferase

Coyle, Donna L. (Donna Lynn)

12 1900

The mechanism by which nicotinamide adenine dinucleotide (NAD) stimulates the activity of adenylate cyclase (AC) in canine plasma membrane has been studied. Using [3 2P]-NAD, the activation by NAD was correlated with the radiolabeling of the stimulatory guanosine triphosphate (GTP) binding protein Gsa. Further characterization demonstrated that the modification occurred only in the presence of G-protein activators and that arginine residue(s) were modified by ADP-ribose by the action of a mono-ADP-ribosyltransferase. Inhibitors of the transferase blocked both the modification of Gsa and the activation of AC. Collectively, these studies suggest that ADP-ribosylation of Gsa by an endogenous mono-ADP-ribosyltransferase may regulate cardiac AC.

nicotinamide adenine dinucleotide

ADP-ribosylation

adenylate cyclase

G proteins

NAD (Coenzyme)

ADP-ribosylation.

Adenylate cyclase.

G proteins.

Spectroscopy of Occupied and Unoccupied States in Bio-Molecular Layers

Seifert, Stefan

30 October 2005

The present thesis investigates the electronic and structural properties of adenine, cytosine, and guanine layers on hydrogen passivated silicon (111)(7x7). The (7x7) reconstruction of the silicon surface was achieved by direct current heating of the samples in UHV conditions. After in situ hydrogen passivation layers of the DNA bases were prepared in different thicknesses by means of organic molecular beam deposition, all samples were characterized employing valence band and core level photoemission spectroscopy. Additionally the near edge x-ray absorption fine structure of the DNA base layers was investigated. A detailed and consistent picture of structural and electronic properties of the nucleotide bases in the solid state could be developed by comparison of measurements and DFT/B3LYP calculations.

info:eu-repo/classification/ddc/500

ddc:500

NEXAFS

Photoemission

DNA base

adenine

core level

cytosine

guanine

molecular orientation

valence band

Cytoplasmic and Mitochondrial NADPH-Coupled Redox Systems in the Regulation of Aging

Bradshaw, Patrick C.

01 March 2019

The reduced form of nicotinamide adenine dinucleotide phosphate (NADPH) protects against redox stress by providing reducing equivalents to antioxidants such as glutathione and thioredoxin. NADPH levels decline with aging in several tissues, but whether this is a major driving force for the aging process has not been well established. Global or neural overexpression of several cytoplasmic enzymes that synthesize NADPH have been shown to extend lifespan in model organisms such as Drosophila suggesting a positive relationship between cytoplasmic NADPH levels and longevity. Mitochondrial NADPH plays an important role in the protection against redox stress and cell death and mitochondrial NADPH-utilizing thioredoxin reductase 2 levels correlate with species longevity in cells from rodents and primates. Mitochondrial NADPH shuttles allow for some NADPH flux between the cytoplasm and mitochondria. Since a decline of nicotinamide adenine dinucleotide (NAD + ) is linked with aging and because NADP + is exclusively synthesized from NAD + by cytoplasmic and mitochondrial NAD + kinases, a decline in the cytoplasmic or mitochondrial NADPH pool may also contribute to the aging process. Therefore pro-longevity therapies should aim to maintain the levels of both NAD + and NADPH in aging tissues.

aging

C. elegans

drosophila

glutathione

lifespan

longevity

mitochondrial

NADP

NADPH

redox

thioredoxin

Biomedical Sciences