Estudos da interação da enzima InhA (EC 1.3.1.9) de Mycobacterium tuberculosis H37Rv com análogos do inibidor IQG607
| Autor(a) principal: | |
|---|---|
| Data de Publicação: | 2013 |
| Tipo de documento: | Tese |
| Idioma: | por |
| Título da fonte: | Biblioteca Digital de Teses e Dissertações da PUC_RS |
| Texto Completo: | http://tede2.pucrs.br/tede2/handle/tede/5480 |
Resumo: | Since its discovery, Isoniazid remains the main drug used to treat tuberculosis, which has the 2-trans-enoyl-ACP(CoA) reductase or InhA enzyme of Mycobacterium tuberculosis as pharmacological target. However, the increase in cases of tuberculosis resistant to Isoniazid motivated the pharmaceutical industry and research groups to investigate possible inhibitors to InhA, whether seeking for new compounds that display the inhibitory function, or as proposed in this work, modifying existing compounds. Thus, we believe that the IQG607 inorganic compound, also known as pentacyano(Isoniazid)ferrate (II) - developed in an attempt to find new, more potent and selective inhibitors of the InhA enzyme - is a promising candidate for the development of new anti-tuberculosis drugs. This work began with a literature review in order to understand the role of InhA enzyme in the process of fatty acid synthesis and what they represent in the process of formation of the cell envelope of mycobacteria. In addition, a survey was conducted regarding the published studies on the IQG607, which reported efforts engaged in researching and obtaining the compound. Based on these studies, it was proposed the design of new compounds by introducing structural modifications in the IQG607 molecule, with the aid of specific software. Intermolecular interactions of these compounds with the target protein were simulated and evaluated with the use of AutoDock and LigPlot. Twenty-seven models were designed, and for all of them, simulations were performed in silico. Three of these compounds were selected, and from those one was successfully synthesized. After synthesis, enzymatic assays were carried out to assess whether the new compound haddemonstrated inhibitory function as found in the original IQG607. Unfortunately, although the in silico simulations have led us to believe that the models designed could generate good compounds, early in the in vitro experiments we found that there was no variation in the enzyme s activity, indicating that the compound showed no inhibitor effect. In our attempt to lengthen the IQG607 compound - thus allowing a greater number of torsion angles for the molecule, and thereby promote a better fit of the ligand binding cavity in the substrate - we discovered that two important pieces of INH were separated, which caused the loss of activity of the compound. It appears that the changes which were introduced in the IQG607 compound have hindered the acyl radical formation and therefore the adduct ligand-NADH could not be formed. |
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Souza, Osmar Norberto deCPF:48604399615http://buscatextual.cnpq.br/buscatextual/visualizacv.do?id=K4781658Z2CPF:64669114034http://buscatextual.cnpq.br/buscatextual/visualizacv.do?id=K4733976E9Cohen, Elisângela Machado Leal2015-04-14T14:51:30Z2013-12-022013-08-15COHEN, Elisângela Machado Leal. Estudos da interação da enzima InhA (EC 1.3.1.9) de Mycobacterium tuberculosis H37Rv com análogos do inibidor IQG607. 2013. 106 f. Tese (Doutorado em Biologia Celular e Molecular) - Pontifícia Universidade Católica do Rio Grande do Sul, Porto Alegre, 2013.http://tede2.pucrs.br/tede2/handle/tede/5480Since its discovery, Isoniazid remains the main drug used to treat tuberculosis, which has the 2-trans-enoyl-ACP(CoA) reductase or InhA enzyme of Mycobacterium tuberculosis as pharmacological target. However, the increase in cases of tuberculosis resistant to Isoniazid motivated the pharmaceutical industry and research groups to investigate possible inhibitors to InhA, whether seeking for new compounds that display the inhibitory function, or as proposed in this work, modifying existing compounds. Thus, we believe that the IQG607 inorganic compound, also known as pentacyano(Isoniazid)ferrate (II) - developed in an attempt to find new, more potent and selective inhibitors of the InhA enzyme - is a promising candidate for the development of new anti-tuberculosis drugs. This work began with a literature review in order to understand the role of InhA enzyme in the process of fatty acid synthesis and what they represent in the process of formation of the cell envelope of mycobacteria. In addition, a survey was conducted regarding the published studies on the IQG607, which reported efforts engaged in researching and obtaining the compound. Based on these studies, it was proposed the design of new compounds by introducing structural modifications in the IQG607 molecule, with the aid of specific software. Intermolecular interactions of these compounds with the target protein were simulated and evaluated with the use of AutoDock and LigPlot. Twenty-seven models were designed, and for all of them, simulations were performed in silico. Three of these compounds were selected, and from those one was successfully synthesized. After synthesis, enzymatic assays were carried out to assess whether the new compound haddemonstrated inhibitory function as found in the original IQG607. Unfortunately, although the in silico simulations have led us to believe that the models designed could generate good compounds, early in the in vitro experiments we found that there was no variation in the enzyme s activity, indicating that the compound showed no inhibitor effect. In our attempt to lengthen the IQG607 compound - thus allowing a greater number of torsion angles for the molecule, and thereby promote a better fit of the ligand binding cavity in the substrate - we discovered that two important pieces of INH were separated, which caused the loss of activity of the compound. It appears that the changes which were introduced in the IQG607 compound have hindered the acyl radical formation and therefore the adduct ligand-NADH could not be formed.Desde a sua descoberta, a Isoniazida continua sendo o principal fármaco empregado no tratamento da tuberculose, tendo como alvo farmacológico a enzima 2-trans-enoil- ACP(CoA) redutase ou InhA de Mycobacterium tuberculosis. Porém, o aumento dos casos de tuberculose resistente à Isoniazida motivaram a indústria farmacêutica e pesquisadores a investigar possíveis inibidores da InhA, seja buscando novos compostos que apresentem a característica inibitória, ou como na proposta deste trabalho, modificando compostos já existentes. Desta forma, acreditamos que o composto inorgânico IQG607, também conhecido como pentaciano(isoniazida)ferrato (II), desenvolvido na tentativa de encontrar novos inibidores mais potentes e seletivos para a enzima InhA, é um candidato promissor ao desenvolvimento de novas drogas anti-tuberculose. Este trabalho iniciou com uma pesquisa na literatura científica buscando compreender o papel da enzima InhA no processo de síntese de ácidos graxos e o que estes representam no processo de formação do envelope celular das micobactérias. Além disso, foi realizado um levantamento a respeito dos estudos já publicados sobre o IQG607, que relatam os esforços empenhados na pesquisa e obtenção do composto. Com base nestes estudos, foi proposto o desenho de novos compostos introduzindo modificações estruturais na molécula do IQG607 original, com o auxilio de software específico. As interações intermoleculares desses compostos com a proteína alvo foram simuladas e avaliadas, com o uso dos programas AutoDock e LigPlot. Vinte e sete modelos foram desenhados, e para todos eles foram realizadas as simulações in silico. Três desses compostos foram selecionados e, deles, um foi sintetizado com sucesso. Após a síntese, ensaios enzimáticos avaliaram se o novo composto mantinha a função inibitória comprovadamente encontrada no IQG607 original, caracterizando a etapa in vitro deste trabalho. Infelizmente, embora as simulações in silico tenham nos levado a crer que os modelos desenhados poderiam gerar bons compostos, já no início da etapa in vitro se descobriu que não havia variação na atividade da enzima, o que indica que o composto não apresentou o efeito inibitório esperado. Em nossa tentativa de alongar o composto IQG607, permitindo assim um número maior de ângulos de torção para a molécula, e com isso, promover um melhor encaixe do ligante na cavidade de ligação do substrato, descobrimos que dois grupamentos importantes da INH foram separados, o que provocou a perda de atividade do fármaco. Supõe-se que as modificações introduzidas no composto IQG607 impediram a formação do radical acil e, portanto, o aduto com o NADH não pôde ser formado.Made available in DSpace on 2015-04-14T14:51:30Z (GMT). No. of bitstreams: 1 452675.pdf: 2946901 bytes, checksum: 590f01e37b62ebd8cf1981d8100e6dfc (MD5) Previous issue date: 2013-08-15application/pdfhttp://tede2.pucrs.br:80/tede2/retrieve/16466/452675.pdf.jpgporPontifícia Universidade Católica do Rio Grande do SulPrograma de Pós-Graduação em Biologia Celular e MolecularPUCRSBRFaculdade de BiociênciasBIOLOGIA CELULARBIOLOGIA MOLECULARTUBERCULOSEÁCIDOS GRAXOSENZIMAS - FARMACOLOGIACNPQ::CIENCIAS BIOLOGICAS::BIOLOGIA GERALEstudos da interação da enzima InhA (EC 1.3.1.9) de Mycobacterium tuberculosis H37Rv com análogos do inibidor IQG607info:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/doctoralThesis819824693009663736060060036528317262667714info:eu-repo/semantics/openAccessreponame:Biblioteca Digital de Teses e Dissertações da PUC_RSinstname:Pontifícia Universidade Católica do Rio Grande do Sul (PUCRS)instacron:PUC_RSTHUMBNAIL452675.pdf.jpg452675.pdf.jpgimage/jpeg3263http://tede2.pucrs.br/tede2/bitstream/tede/5480/3/452675.pdf.jpg75cfaaa5e40e4b895c06e44129232158MD53TEXT452675.pdf.txt452675.pdf.txttext/plain169844http://tede2.pucrs.br/tede2/bitstream/tede/5480/2/452675.pdf.txt215a8f18dcb6e1690ca558e9adb22c54MD52ORIGINAL452675.pdfapplication/pdf2946901http://tede2.pucrs.br/tede2/bitstream/tede/5480/1/452675.pdf590f01e37b62ebd8cf1981d8100e6dfcMD51tede/54802015-05-14 11:40:31.529oai:tede2.pucrs.br:tede/5480Biblioteca Digital de Teses e Dissertaçõeshttp://tede2.pucrs.br/tede2/PRIhttps://tede2.pucrs.br/oai/requestbiblioteca.central@pucrs.br||opendoar:2015-05-14T14:40:31Biblioteca Digital de Teses e Dissertações da PUC_RS - Pontifícia Universidade Católica do Rio Grande do Sul (PUCRS)false |
| dc.title.por.fl_str_mv |
Estudos da interação da enzima InhA (EC 1.3.1.9) de Mycobacterium tuberculosis H37Rv com análogos do inibidor IQG607 |
| title |
Estudos da interação da enzima InhA (EC 1.3.1.9) de Mycobacterium tuberculosis H37Rv com análogos do inibidor IQG607 |
| spellingShingle |
Estudos da interação da enzima InhA (EC 1.3.1.9) de Mycobacterium tuberculosis H37Rv com análogos do inibidor IQG607 Cohen, Elisângela Machado Leal BIOLOGIA CELULAR BIOLOGIA MOLECULAR TUBERCULOSE ÁCIDOS GRAXOS ENZIMAS - FARMACOLOGIA CNPQ::CIENCIAS BIOLOGICAS::BIOLOGIA GERAL |
| title_short |
Estudos da interação da enzima InhA (EC 1.3.1.9) de Mycobacterium tuberculosis H37Rv com análogos do inibidor IQG607 |
| title_full |
Estudos da interação da enzima InhA (EC 1.3.1.9) de Mycobacterium tuberculosis H37Rv com análogos do inibidor IQG607 |
| title_fullStr |
Estudos da interação da enzima InhA (EC 1.3.1.9) de Mycobacterium tuberculosis H37Rv com análogos do inibidor IQG607 |
| title_full_unstemmed |
Estudos da interação da enzima InhA (EC 1.3.1.9) de Mycobacterium tuberculosis H37Rv com análogos do inibidor IQG607 |
| title_sort |
Estudos da interação da enzima InhA (EC 1.3.1.9) de Mycobacterium tuberculosis H37Rv com análogos do inibidor IQG607 |
| author |
Cohen, Elisângela Machado Leal |
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Cohen, Elisângela Machado Leal |
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author |
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Souza, Osmar Norberto de |
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CPF:48604399615 |
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http://buscatextual.cnpq.br/buscatextual/visualizacv.do?id=K4781658Z2 |
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CPF:64669114034 |
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http://buscatextual.cnpq.br/buscatextual/visualizacv.do?id=K4733976E9 |
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Cohen, Elisângela Machado Leal |
| contributor_str_mv |
Souza, Osmar Norberto de |
| dc.subject.por.fl_str_mv |
BIOLOGIA CELULAR BIOLOGIA MOLECULAR TUBERCULOSE ÁCIDOS GRAXOS ENZIMAS - FARMACOLOGIA |
| topic |
BIOLOGIA CELULAR BIOLOGIA MOLECULAR TUBERCULOSE ÁCIDOS GRAXOS ENZIMAS - FARMACOLOGIA CNPQ::CIENCIAS BIOLOGICAS::BIOLOGIA GERAL |
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CNPQ::CIENCIAS BIOLOGICAS::BIOLOGIA GERAL |
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Since its discovery, Isoniazid remains the main drug used to treat tuberculosis, which has the 2-trans-enoyl-ACP(CoA) reductase or InhA enzyme of Mycobacterium tuberculosis as pharmacological target. However, the increase in cases of tuberculosis resistant to Isoniazid motivated the pharmaceutical industry and research groups to investigate possible inhibitors to InhA, whether seeking for new compounds that display the inhibitory function, or as proposed in this work, modifying existing compounds. Thus, we believe that the IQG607 inorganic compound, also known as pentacyano(Isoniazid)ferrate (II) - developed in an attempt to find new, more potent and selective inhibitors of the InhA enzyme - is a promising candidate for the development of new anti-tuberculosis drugs. This work began with a literature review in order to understand the role of InhA enzyme in the process of fatty acid synthesis and what they represent in the process of formation of the cell envelope of mycobacteria. In addition, a survey was conducted regarding the published studies on the IQG607, which reported efforts engaged in researching and obtaining the compound. Based on these studies, it was proposed the design of new compounds by introducing structural modifications in the IQG607 molecule, with the aid of specific software. Intermolecular interactions of these compounds with the target protein were simulated and evaluated with the use of AutoDock and LigPlot. Twenty-seven models were designed, and for all of them, simulations were performed in silico. Three of these compounds were selected, and from those one was successfully synthesized. After synthesis, enzymatic assays were carried out to assess whether the new compound haddemonstrated inhibitory function as found in the original IQG607. Unfortunately, although the in silico simulations have led us to believe that the models designed could generate good compounds, early in the in vitro experiments we found that there was no variation in the enzyme s activity, indicating that the compound showed no inhibitor effect. In our attempt to lengthen the IQG607 compound - thus allowing a greater number of torsion angles for the molecule, and thereby promote a better fit of the ligand binding cavity in the substrate - we discovered that two important pieces of INH were separated, which caused the loss of activity of the compound. It appears that the changes which were introduced in the IQG607 compound have hindered the acyl radical formation and therefore the adduct ligand-NADH could not be formed. |
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