Computational Modeling of the AT₂ Receptor and AT₂ Receptor Ligands : Investigating Ligand Binding, Structure–Activity Relationships, and Receptor-Bound Models

Sköld, Christian

January 2007

<p>Rational conversion of biologically active peptides to nonpeptide compounds with retained activity is an appealing approach in drug development. One important objective of the work presented in this thesis was to use computational modeling to aid in such a conversion of the peptide angiotensin II (Ang II, Asp-Arg-Val-Tyr-Ile-His-Pro-Phe). An equally important objective was to gain an understanding of the requirements for ligand binding to the Ang II receptors, with a focus on interactions with the AT₂ receptor.</p><p>The bioactive conformation of a peptide can provide important guidance in peptidomimetic design. By designing and introducing well-defined secondary structure mimetics into Ang II the bioactive conformation can be addressed. In this work, both γ- and β-turn mimetic scaffolds have been designed and characterized for incorporation into Ang II. Using conformational analysis and the pharmacophore recognition method DISCO, a model was derived of the binding mode of the pseudopeptide Ang II analogues. This model indicated that the positioning of the Arg side chain was important for AT₂ receptor binding, which was also supported when the structure–activity relationship of Ang II was investigated by performing a glycine scan.</p><p>To further examine ligand binding, a 3D model of the AT₂ receptor was constructed employing homology modeling. Using this receptor model in a docking study of the ligands, binding modes were identified that were in agreement with data from point-mutation studies of the AT₂ receptor.</p><p>By investigating truncated Ang II analogues, small pseudopeptides were developed that were structurally similar to nonpeptide AT₂ receptor ligands. For further guidance in ligand design of nonpeptide compounds, three-dimensional quantitative structure–activity relationship models for AT₁ and AT₂ receptor affinity as well as selectivity were derived. </p>

Pharmaceutical chemistry

Angiotensin II

AT1

AT2

SAR

bioactive conformation

turn mimetic

peptidomimetic

DISCO

homology model

3D-QSAR

CoMFA

Farmaceutisk kemi

Computational Modeling of the AT2 Receptor and AT2 Receptor Ligands : Investigating Ligand Binding, Structure–Activity Relationships, and Receptor-Bound Models

Sköld, Christian

January 2007

Rational conversion of biologically active peptides to nonpeptide compounds with retained activity is an appealing approach in drug development. One important objective of the work presented in this thesis was to use computational modeling to aid in such a conversion of the peptide angiotensin II (Ang II, Asp-Arg-Val-Tyr-Ile-His-Pro-Phe). An equally important objective was to gain an understanding of the requirements for ligand binding to the Ang II receptors, with a focus on interactions with the AT2 receptor. The bioactive conformation of a peptide can provide important guidance in peptidomimetic design. By designing and introducing well-defined secondary structure mimetics into Ang II the bioactive conformation can be addressed. In this work, both γ- and β-turn mimetic scaffolds have been designed and characterized for incorporation into Ang II. Using conformational analysis and the pharmacophore recognition method DISCO, a model was derived of the binding mode of the pseudopeptide Ang II analogues. This model indicated that the positioning of the Arg side chain was important for AT2 receptor binding, which was also supported when the structure–activity relationship of Ang II was investigated by performing a glycine scan. To further examine ligand binding, a 3D model of the AT2 receptor was constructed employing homology modeling. Using this receptor model in a docking study of the ligands, binding modes were identified that were in agreement with data from point-mutation studies of the AT2 receptor. By investigating truncated Ang II analogues, small pseudopeptides were developed that were structurally similar to nonpeptide AT2 receptor ligands. For further guidance in ligand design of nonpeptide compounds, three-dimensional quantitative structure–activity relationship models for AT1 and AT2 receptor affinity as well as selectivity were derived.

Pharmaceutical chemistry

Angiotensin II

AT1

AT2

SAR

bioactive conformation

turn mimetic

peptidomimetic

DISCO

homology model

3D-QSAR

CoMFA

Farmaceutisk kemi

Cyclic Sulfamide HIV-1 Protease Inhibitors : Design, Synthesis and Modelling

Ax, Anna

January 2005

Ten years ago, the first protease inhibitor targeting the human immunodeficiency virus (HIV) was approved for clinical use. Highly active antiretroviral therapy (HAART), which combined protease and reverse transcriptase inhibitors, quickly became the standard therapy for treating patients infected with HIV and Acquired Immune Deficiency Syndrome (AIDS). Nevertheless, last year the AIDS pandemic reached its highest level ever. Many infected patients, mainly in the developing countries, are still without treatment. Among those patients who receive treatment, an increase in drug resistance and new-infection with drug-resistant strains are seen. To come to terms with these problems, new drugs that are efficient against resistant strains and can be produced at low cost are needed. In this study, we have focused our research efforts on cyclic sulfamides active as HIV-1 protease inhibitors. Distinctive to this compound class, as compared to the inhibitors so far approved for clinical use, was the incorporation of a water mimic that displaces the structural water (W301) observed in the X-ray crystal co-complexes. The first part of the study was aimed at understanding the rationale behind the nonsymmetric binding mode that the inhibitor adopted when bound to the enzyme. Symmetric and nonsymmetric inhibitors were synthesized and the structure-activity relationships and preferable binding modes were rationalized with the help of Comparative Molecular Field Analysis (CoMFA). In the second part of the study, an attempt was made to reduce the size of these inhibitors. As a result, the traditional P1/P1' substituents were removed, while the P2/P2' substituents were elongated in an attempt to reach between the binding sites. The design hypothesis was shown to be successful and inhibitors possessing nanomolar activity were identified.

Pharmaceutical chemistry

AIDS

HIV

protease inhibitor

aspartic protease

molecular modelling

3D-QSAR

CoMFA

Farmaceutisk kemi

Pharmaceutical chemistry

Farmaceutisk kemi

Improved CoMFA Modeling by Optimization of Settings : Toward the Design of Inhibitors of the HCV NS3 Protease

Peterson, Shane

January 2007

The hepatitis C virus (HCV), with a global prevalence of roughly 2%, is among the most serious diseases today. Among the more promising HCV targets is the NS3 protease, for which several drug candidates have entered clinical trials. In this work, computational methods have been developed and applied to the design of inhibitors of the HCV NS3 protease. Comparative molecular field analysis (CoMFA) modeling and molecular docking are the two main computational tools used in this work. CoMFA is currently the most widely used 3D-QSAR method. Methodology for improving its predictive performance by evaluating 6120 combinations of non-default parameters has been developed. This methodology was tested on 9 data sets for various targets and found to consistently provide models of enhanced predictive accuracy. Validation was performed using q2, r2pred and response variable randomization. Molecular docking was used to develop SARs in two series of inhibitors of the HCV NS3 protease. In the first series, preliminary investigations indicated that replacement of P2 proline with phenylglycine would improve potency. Docking suggested that phenylglycine-based inhibitors may participate in two additional interactions but that the larger, more flexible phenylglycine group may result in worse ligand fit, explaining the loss in potency. In the second series, β-amino acids were explored as α-amino acid substitutes. Although β-amino acid substitution may reduce the negative attributes of peptide-like compounds, this study showed that β-amino acid substitution resulted in reduced potency. The P3 position was least sensitive to substitution and the study highlighted the importance of interactions in the oxyanion hole. Finally, docking was used to provide the conformations and alignment necessary for a CoMFA model. This CoMFA model, derived using default settings, had q2 = 0.31 and r2pred = 0.56. Application of the optimization methodology provided a more predictive model with q2 = 0.48 and r2pred = 0.68.

Pharmaceutical chemistry

CoMFA

3D-QSAR

model validation

Docking

SAR

hepatitis C virus

HCV

NS3 protease inhibitor

Farmaceutisk kemi

Application of Computer-Aided Drug Discovery Methodologies Towards the Rational Design of Drugs Against Infectious Diseases

Athri, Prashanth

30 April 2008

Computer-aided drug discovery involves the application of computer science and programming to solve chemical and biological problems. Specifically, the QSAR (Quantitative Structure Activity Relationships) methodology is used in drug development to provide a rational basis of drug synthesis, rather than a trial and error approach. Molecular dynamics (MD) studies focus on investigating the details of drug-target interactions to elucidate various biophysical characteristics of interest. Infectious diseases like Trypanosoma brucei rhodesiense (TBR) and P. falciparum (malaria) are responsible for millions of deaths annually around the globe. This necessitates an immediate need to design and develop new drugs that efficiently battle these diseases. As a part of the initiatives to improve drug efficacy QSAR studies accomplished the formulation of chemical hypothesis to assist development of drugs against TBR. Results show that CoMSIA 3D QSAR models, with a Pearson’s correlation coefficient of 0.95, predict a compound with meta nitrogens on the phenyl groups, in the combinatorial space based on a biphenyl-furan diamidine design template, to have higher activity against TBR relative to the existing compound set within the same space. Molecular dynamics study, conducted on a linear benzimidazole-biphenyl diamidine that has non-classical structural similarity to earlier known paradigms of minor groove binders, gave insights into the unique water mediated interactions between the DNA minor groove and this ligand. Earlier experiments suggested the interfacial water molecules near the terminal ends of the ligand to be responsible for the exceptianlly high binding constant of the ligand. Results from MD studies show two other modes of binding. The first conformation has a single water molecule with a residency time of 6ns (average) that is closer to the central part of the ligand, which stabilizes the structure in addition to the terminal water. The second conformation that was detected had the ligand completely away from the floor of the minor groove, and hydrogen bonded to the sugar oxygens.

Molecular Dynamics

CoMSIA

3D- QSAR

Trypanosoma brucei rhodesiense

Interfacial water

Water mediated Interactions

DNA minor groove binders

Chemistry

Planejamento, desenvolvimento e estudos de QSAR de derivados benzofuroxânicos com atividade frente Staphylococcus aureus e Trypanosoma cruzi / Design, development and QSAR studies of benzofuroxan derivatives with activity against Staphylococcus aureus and Trypanosoma cruzi

Salomão Dória Jorge

08 December 2011

A modificação molecular de fármacos do arsenal terapêutico é estratégia promissora no planejamento e desenvolvimento de novas entidades químicas que possam apresentar características pertinentes deste fármaco, e suprimir suas características indesejáveis. Desta forma, na busca por novos compostos com atividade antimicrobiana, uma série de vinte [N\'-(benzofuroxan-5-il)metileno]benzidrazidas substituídas, análogas funcionais da nifuroxazida (Passifuril®), foram sintetizadas e sua atividade biológica foi testada frente a cepas padrão e multirresistentes (MRSA e VISA) de Staphylococcus aureus, e frente a formas epimatigotas de Trypanosoma cruzi, agente causal da Doença de Chagas. A escolha dos grupos substituintes foi baseada em suas propriedades físico-químicas, tais como efeito eletrônico e hidrofobicidade, empregando o Diagrama de Craig. Os compostos foram obtidos por rota sintética descrita em literatura, assim como por rotas alternativas a fim de otimizar a metodologia tradicional e melhorar o rendimento dos produtos finais. Todos os compostos foram identificados e apresentam estrutura química inédita. A atividade dos vinte compostos frente S. aureus foi avaliada pelo método de determinação da concentração inibitória mínima (CIM); destes, dezesseis apresentaram os mesmos intervalos de CIM frente as cepas padrão e multirresistentes. O composto dissubstituído 3-CF3,4-NO2 (7t), apresentou a maior atividade com valores de CIM entre 12,7 - 11,4 &#181;g/mL. A avaliação da atividade anti-T. cruzi também foi investigada, e na fase log de crescimento parasitário os compostos substituídos 4-H (7a), 4-CF3 (7n), 3,4-Cl2 (7s), 3-CF3,4-NO2 (7t) demonstraram os melhores resultados. O benznidazol, único fármaco utilizado no tratamento da Doença de Chagas, foi utilizado como referência nas mesmas concentrações. Os compostos que apresentaram melhores atividades nos ensaios realizados na fase estacionária de crescimento foram os compostos substituídos 4-I (7q) e 4-Br (7o) com valores de %IC50 de 6,11 &#181;M e 7,38 &#181;M, respectivamente. A influência das propriedades físico-químicas dos grupos substituintes em ambas as atividades foi observada e, a fim de avaliar quantitativamente suas contribuições para a bioatividade, estudos de QSAR-2D e QSAR-3D foram desenvolvidos, auxiliando assim na predição de novas estruturas com propriedades farmacológicas otimizadas, uma vez que os resultados obtidos indicam o forte potencial destes compostos na identificação de novos candidatos a fármaco antimicrobiano. / Molecular modification of drugs from the therapeutic arsenal is a promising strategy for the design and development of new chemical entities that can demonstrate the relevant properties of this drug, and suppressing its undesirable properties. For the research of new leads with potential antimicrobial activity, a new series of twenty substituted [N´-(benzofuroxan-5-yl)methylene]benzohydrazides, nifuroxazide\'s (Passifuril®) functional analogs, was synthesized and tested against standard and multidrug-resistant Staphylococcus aureus (MRSA and VISA) strains and against epimastigote form of Trypanosoma cruzi, the etiological agent of Chagas\' Disease. The selection of the substituent groups was based on their physicochemical properties, such as hydrophobicity and electronic effects, employing Craig\'s diagram. The designed compounds were obtained by synthetic route described in the literature, as well as by an alternative route, in order to optimize the traditional methodology and also to improve the final compounds yields. All compounds were identified as unpublished chemical structures. Bacterial activity of the twenty compounds against S. aureus was performed by minimal inhibitory concentration method (MIC), and sixteen of them exhibited similar bacteriostatic activity against standard and multidrug-resistant strains. The most active compound was the 3-CF3,4-NO2 disubstituted derivative (7t), which presented a MIC value from 12.7 to 11.4 &#181;g/mL. Anti-T. cruzi activity was also investigated. The substituted compounds 4-H (7a), 4-CF3 (7n), 3,4-Cl2 (7s), 3-CF3,4-NO2 (7t) showed better results at logarithmic growth phase. Benznidazole, that is the only drug available to threat Chagas\' disease, was used as a reference drug at the same concentrations of the compounds studied. The most effective substituded compounds were the 4-I (7q) and 4-Br (7o) substituted derivatives having %IC50 values of 6.11 &#181;M and 7.38 &#181;M, respectively, at stationary growth phase. The influence of the substituent\'s physicochemical properties on in vitro activities was observed, and, in order to establish quantitatively their contributions to bioactivity, 2D-QSAR and 3D-QSAR studies were developed, assisting in the prediction of new leads with improved pharmacological properties, since the results showed benzofuroxan derivatives as potential leads for identifying new drug candidates.

Derivados benzofuroxânicos

Modelagem molecular

QSAR-2D/3D

Staphylococcus aureus

Trypanosoma cruzi

2D/3D-QSAR

Benzofuroxan derivatives

Molecular modeling

Staphylococcus aureus

Trypanosoma cruzi

Modelagem molecular de compostos arilpiperazínicos e suas interações com o receptor 5-HT1A / Molecular modeling of arylpiperazine compounds and their interactions with the 5-HT1A receptor

Weber, Karen Cacilda

29 August 2008

Os inibidores seletivos da recaptação de serotonina (ISRSs) representam a classe mais importante de antidepressivos em uso clínico atualmente. Entretanto, esses medicamentos costumam levar de duas a seis semanas para apresentar os efeitos de sua ação terapêutica. Estudos clínicos mostram que quando um antagonista do receptor 5-HT1A é administrado juntamente com um ISRS, um aumento da concentração extracelular de serotonina é observado nas áreas terminais dos neurônios. Assim, a combinação de um antagonista do receptor 5-HT1A com um ISRS pode acelerar o início da ação antidepressiva, aumentando a eficácia do tratamento farmacológico da depressão. A classe mais importante de ligantes do receptor 5-HT1A são os compostos arilpiperazínicos. O presente estudo teve como objetivo o entendimento das características importantes para as interações entre uma série de compostos arilpiperazínicos com o receptor 5-HT1A. Para tal, foram realizados estudos de Relação Quantitativa entre Estrutura e Atividade (QSAR) bi- e tridimensionais, empregando as seguintes abordagens: métodos quimiométricos baseados em descritores teóricos, QSAR por hologramas (HQSAR) e o método de Análise Comparativa de Campos Moleculares (CoMFA). Essas análises foram complementadas com a modelagem por homologia do receptor 5-HT1A e com estudos de docking ligante-receptor realizados para alguns compostos arilpiperazínicos. Modelos de QSAR com boa consistência interna, habilidade preditiva e estabilidade foram obtidos em todos os casos. Os modos de interação observados apresentaram consistência com dados experimentais disponíveis sobre os resíduos importantes para as interações com ligantes arilpiperazínicos. Os principais resultados indicaram algumas características dos ligantes que são importantes para a afinidade pelo receptor 5-HT1A, tais como a presença de um anel benzotiofeno como substituinte Ar2, substituintes pouco volumosos na posição Z e receptores de ligações de hidrogênio na posição orto do anel Ar1. Esses resultados foram corroborados pelo estudo das interações com o modelo do receptor 5-HT1A, que indicou uma importante interação hidrofóbica do grupo benzotiofeno com o resíduo Trp6.48 do receptor, assim como uma ligação de hidrogênio entre a hidroxila na posição Z e o resíduo Thr3.37 e, ainda, entre o oxigênio do anel Ar1 e o resíduo Asn7.39. As informações obtidas neste estudo podem fornecer subsídios para o planejamento de novos ligantes com afinidade pelo receptor 5-HT1A. / Selective serotonin reuptake inhibitors (SSRIs) are the most important class of antidepressants in current clinical use. However, they present the serious drawback of a delay of two to six weeks in the onset of therapeutic effect. Clinical studies have shown that when a 5-HT1A receptor antagonist is administrated along with a SSRI, an increase of extracellular serotonin concentration in neuronal terminal areas is observed. Thus, the combination of a 5- HT1A receptor antagonist and a SSRI could accelerate the onset of antidepressant action, improving the pharmacological treatment of depression. The most important class of 5-HT1A receptor ligands are arylpiperazine compounds. In the present study, our aim was to understand the main features of the interaction between a series of arylpiperazines and the 5- HT1A receptor. Bi- and Tridimensional Quantitative Structure-Activity Relationship (QSAR) studies were conducted employing the following approaches: chemometric methods based on theoretical descriptors, Hologram QSAR (HQSAR), and Comparative Molecular Field Analysis (CoMFA). These analyses were complemented by 5-HT1A receptor homology modeling and ligand-receptor docking studies. QSAR models presenting good internal consistency, predictive power and stability were obtained in all cases. The observed binding modes are consistent with available experimental data on residues considered crucial for interactions with arylpiperazine compounds. The main results have indicated some important features for optimal binding to the 5-HT1A receptor, such as the presence of a benzothiophene ring as Ar2 substituent, small groups at position Z and hydrogen bond acceptors at the ortho position of Ar1 ring. These results were corroborated by modeling the interactions with the 5- HT1A receptor, which has indicated an important hydrophobic interaction between the benzothiophene group and residue Trp6.48, a hydrogen bond between the OH group at position Z and residue Thr3.37, as well as between the oxygen in Ar1 and residue Asn7.39. The information gathered in these studies can be useful for the design of new ligands displaying affinity to the 5-HT1A receptor.

2D QSAR

3D QSAR

5-HT1A receptor

arilpiperazinas

arylpiperazines

homology modeling

modelagem por homologia

QSAR 2D

QSAR 3D

recepto 5-HT1A

Planejamento, desenvolvimento e estudos de QSAR-2D e QSAR-3D de derivados 5-nitro-2-tiofilidênicos com atividade frente a Staphylococcus aureus multi-resistente (CEB - Clone Endêmico Brasileiro) / Molecular design, 2D-QSAR and 3D-QSAR studies of 5-nitro-2-thiophylidene derivatives with antimicrobial activity against multidrug-resistant Staphylococcus aureus (BEC - Brazilian Endemic Clone)

Masunari, Andrea

13 October 2005

A reemergência de algumas bactérias Gram-positivas, em particular, do gênero Staphylococcus, como principal foco causador de infecções hospitalares, tem se intensificado nas últimas décadas, e, apesar da existência de potentes fármacos voltados para o tratamento de infecções causadas por este gênero de bactéria, as taxas de morbidade e mortalidade prevalecem com perfil crescente. Além disso, um grande problema associado a cepas de MRSA (Methicillin-Resistant Staphylococcus aureus) é o fenótipo de multi-resistência, característica que confere a este microrganismo resistência não apenas à meticilina como também a uma série de outros fármacos, exceto frente à vancomicina e à teicoplanina. Muito tem se feito, mas ainda são poucos os resultados efetivamente aplicáveis no tratamento de infecções com caráter de multi-resistência, justificando, desta forma, a necessidade de desenvolvimento de sucedâneos que sejam consideravelmente mais efetivos para a solução deste problema. Baseado nestes fatos, a proposta deste estudo envolveu o planejamento, síntese, identificação e estudos de QSAR (Quantitative Structure-Activity Relationships) em duas e três dimensões de derivados 5-nitro-2-tiofilidênicos com atividade antimicrobiana frente a cepas padrão e multi-resistente de Staphylococcus aureus. A escolha dos grupos substituintes foi realizada em duas etapas. Na primeira delas seguiu-se metodologia de substituição em anéis aromáticos proposta por Topliss para a otimização da bioatividade de compostos. Em uma segunda etapa, predominantemente quantitativa, foram selecionados mais alguns derivados baseando-se em faixa de hidrofobicidade ótima pré-determinada experimentalmente e na variação de efeito estérico dos grupos substituintes. Quatorze derivados 5-nitro-2-tiofilidênicos foram sintetizados, estruturalmente identificados e avaliados quanto à atividade antimicrobiana frente às cepas padrão (ATCC 25923) e multi-resistente (3SP/R33) de Staphylococcus aureus por determinação da concentração inibitória mínima empregando-se método de macrodiluição sucessiva em tubos. Salienta-se que a cepa 3SP/R33 se mostra resistente a dezenove antibióticos empregados na prática médica e apresenta suscetibilidade apenas à vancomicina. As concentrações inibitória e bactericida mínimas apresentadas pelos compostos sintetizados mostraram sofrer influência significativa da hidrofobicidade sobre as referidas atividades de acordo com os estudos de QSAR-2D e QSAR-3D, sendo os resultados obtidos para a cepa multi-resistente absolutamente compatíveis com os anteriormente determinados para a cepa padrão. Os estudos de QSAR-2D indicaram que a atividade antimicrobiana das 5nitro-2-tiofilideno benzidrazidas substituídas sofre influência significativa de duas propriedades físico-químicas que são a hidrofobicidade e a distribuição eletrônica. A relevância dos descritores estruturais &#963; e efe na determinação da atividade antimicrobiana, sinalizam que a distribuição eletrônica influencia fortemente o aumento da potência antimicrobiana dos compostos em estudo tanto pela influência dos efeitos indutivo e de ressonância na estrutura química do ligante, como também pelos campos moleculares gerados ao redor de grupos substituintes, sugerindo uma possível interação dos mesmos com uma área específica do sítio receptor. Nos estudos de QSAR-3D, foi evidenciado, em concordância com o estudo clássico anteriormente realizado, que a hidrofobicidade prevalece como propriedade de fundamental importância no estabelecimento da atividade antimicrobiana. Foi observada a importância da presença de regiões hidrofílicas pontuais nos compostos de forma a propiciar processos de solvatação e dessolvatação que são críticos na difusão através de membranas biológicas. Pode-se afirmar que a análise de QSAR, considerando os aspectos tridimensionais ligantes, ressaltou a necessidade de um balanço lipofílico-hidrofílico para um bom desempenho das 5-nitro-2-tiofilideno benzidrazidas &#961;-substituídas como agentes antimicrobianos. A partir dos resultados obtidos evidenciou-se, neste estudo, o forte potencial de derivados 5-nitro-2-tiofilidênicos como possível alternativa para o desenvolvimento racional, em nível molecular, de fármacos voltados para o tratamento de infecções causadas por cepas multi-resistentes de Staphylococcus aureus. / In the last decade, there has been a reemergence of Gram-positive bacteria, in particular Staphylococcus, which isconsidered one of the. most causing of nosocomial infections. Although potent antistaphylococcal drugs are available, this infection continues presenting increasing morbidity and mortality rates. Besides, a serious problem associated with MRSA (Methicillin-Resistant Staphylococcus aureus) is the phenotype of multidrug resistance, which is, resistance not only to methicillin but also to many other drugs, except to vancomycin and teicoplanin. Many efforts have been made in a tentative to reduce this problem, nevertheless there is only a few number of alternatives to combat Staphylococcus aureus multidrug-resistant strains, justifying the necessity of development of more effective compounds to the treatment of these infections. Based in these facts, the purpose of this study was the design, synthesis, structural identification and 2D-QSAR and 3D-QSAR (Quantitative Structure-Activity Relationships) studies of 5-nitro-2-thiophylidene derivatives with antimicrobial activity against multidrug-resistant strains of Staphylococcus aureus. The choice of substituent groups was made in two stages. The first stage comprises on application of Topliss operational scheme for aromatic substitution. In a second quantitative stage, more derivatives were selected according by hydrophobicity range previously determined. Other standard considered at the selection of substituent groups was the variation of steric effect. Fourteen 5-nitro-2-thiophylidene derivatives were synthesized, structural identified and tested against standard (A TCC 25923) and multidrug-resistant (3SP/R33) strains of Staphylococcus aureus. The Minimal Inhibitory Concentration, MIC, was determined using the serial dilution tests in two sequential stages. The 3SP/R33 strain is resistant to nineteen antimicrobial agents in use, except to vancomycin. The minimal inhibitory and bactericidal concentrations of synthesized compounds showed, according by 2D-QSAR and 3D-QSAR studies, a significant influence of hydrophobic properties on antimicrobial activity determination and the results obtained for multidrug-resistant strain were consistent with those determined for A TCC 25923 strain. 2D-QSAR studies showed that antimicrobial activity are mainly influenced by two physico-chemical properties: hydrophobicity and electronic distribution. The relevance of &#963; e ephe parameters on antimicrobial activity determination, denotes the contribution of inductive and resonance effects for the polar performed by the substituent groups, probably suggesting an interaction between them and specific receptor site. 3D-QSAR studies showed that hydrophobicity is a essential property to antimicrobial activity determination, sustained the same conclusions previously obtained by Hansch Analysis. It was observed a great concern of small hydrophilic regions distributed on derivatives in order to promote solvation and desolvation process, that have critical importance on diffusion process through the biological membranes. QSAR studies considering three-dimensional properties of ligands indicated the necessity of accurate hydrophilic-hydrophobic balance on nitrothiophene derivatives for their good performance as antimicrobial agents. The results obtained in this preliminary study have shown the potential of synthesized compounds as alternatives to the treatment of infections caused by multidrug-resistant strains of Staphylococcus aureus.

2D QSAR

3D QSAR

Multi-resistência

Multidrug resistance

Nifuroxazida

Nifuroxazide

QSAR-2D

QSAR-3D

Relações estrutura-atividade

Staphylococcus aureus

Staphylococcus aureus

Structure-activity relationships

Volsurf

Volsurf

Planejamento, desenvolvimento e estudos de QSAR de derivados benzofuroxânicos com atividade frente Staphylococcus aureus e Trypanosoma cruzi / Design, development and QSAR studies of benzofuroxan derivatives with activity against Staphylococcus aureus and Trypanosoma cruzi

Jorge, Salomão Dória

08 December 2011

A modificação molecular de fármacos do arsenal terapêutico é estratégia promissora no planejamento e desenvolvimento de novas entidades químicas que possam apresentar características pertinentes deste fármaco, e suprimir suas características indesejáveis. Desta forma, na busca por novos compostos com atividade antimicrobiana, uma série de vinte [N\'-(benzofuroxan-5-il)metileno]benzidrazidas substituídas, análogas funcionais da nifuroxazida (Passifuril®), foram sintetizadas e sua atividade biológica foi testada frente a cepas padrão e multirresistentes (MRSA e VISA) de Staphylococcus aureus, e frente a formas epimatigotas de Trypanosoma cruzi, agente causal da Doença de Chagas. A escolha dos grupos substituintes foi baseada em suas propriedades físico-químicas, tais como efeito eletrônico e hidrofobicidade, empregando o Diagrama de Craig. Os compostos foram obtidos por rota sintética descrita em literatura, assim como por rotas alternativas a fim de otimizar a metodologia tradicional e melhorar o rendimento dos produtos finais. Todos os compostos foram identificados e apresentam estrutura química inédita. A atividade dos vinte compostos frente S. aureus foi avaliada pelo método de determinação da concentração inibitória mínima (CIM); destes, dezesseis apresentaram os mesmos intervalos de CIM frente as cepas padrão e multirresistentes. O composto dissubstituído 3-CF3,4-NO2 (7t), apresentou a maior atividade com valores de CIM entre 12,7 - 11,4 &#181;g/mL. A avaliação da atividade anti-T. cruzi também foi investigada, e na fase log de crescimento parasitário os compostos substituídos 4-H (7a), 4-CF3 (7n), 3,4-Cl2 (7s), 3-CF3,4-NO2 (7t) demonstraram os melhores resultados. O benznidazol, único fármaco utilizado no tratamento da Doença de Chagas, foi utilizado como referência nas mesmas concentrações. Os compostos que apresentaram melhores atividades nos ensaios realizados na fase estacionária de crescimento foram os compostos substituídos 4-I (7q) e 4-Br (7o) com valores de %IC50 de 6,11 &#181;M e 7,38 &#181;M, respectivamente. A influência das propriedades físico-químicas dos grupos substituintes em ambas as atividades foi observada e, a fim de avaliar quantitativamente suas contribuições para a bioatividade, estudos de QSAR-2D e QSAR-3D foram desenvolvidos, auxiliando assim na predição de novas estruturas com propriedades farmacológicas otimizadas, uma vez que os resultados obtidos indicam o forte potencial destes compostos na identificação de novos candidatos a fármaco antimicrobiano. / Molecular modification of drugs from the therapeutic arsenal is a promising strategy for the design and development of new chemical entities that can demonstrate the relevant properties of this drug, and suppressing its undesirable properties. For the research of new leads with potential antimicrobial activity, a new series of twenty substituted [N´-(benzofuroxan-5-yl)methylene]benzohydrazides, nifuroxazide\'s (Passifuril®) functional analogs, was synthesized and tested against standard and multidrug-resistant Staphylococcus aureus (MRSA and VISA) strains and against epimastigote form of Trypanosoma cruzi, the etiological agent of Chagas\' Disease. The selection of the substituent groups was based on their physicochemical properties, such as hydrophobicity and electronic effects, employing Craig\'s diagram. The designed compounds were obtained by synthetic route described in the literature, as well as by an alternative route, in order to optimize the traditional methodology and also to improve the final compounds yields. All compounds were identified as unpublished chemical structures. Bacterial activity of the twenty compounds against S. aureus was performed by minimal inhibitory concentration method (MIC), and sixteen of them exhibited similar bacteriostatic activity against standard and multidrug-resistant strains. The most active compound was the 3-CF3,4-NO2 disubstituted derivative (7t), which presented a MIC value from 12.7 to 11.4 &#181;g/mL. Anti-T. cruzi activity was also investigated. The substituted compounds 4-H (7a), 4-CF3 (7n), 3,4-Cl2 (7s), 3-CF3,4-NO2 (7t) showed better results at logarithmic growth phase. Benznidazole, that is the only drug available to threat Chagas\' disease, was used as a reference drug at the same concentrations of the compounds studied. The most effective substituded compounds were the 4-I (7q) and 4-Br (7o) substituted derivatives having %IC50 values of 6.11 &#181;M and 7.38 &#181;M, respectively, at stationary growth phase. The influence of the substituent\'s physicochemical properties on in vitro activities was observed, and, in order to establish quantitatively their contributions to bioactivity, 2D-QSAR and 3D-QSAR studies were developed, assisting in the prediction of new leads with improved pharmacological properties, since the results showed benzofuroxan derivatives as potential leads for identifying new drug candidates.

2D/3D-QSAR

Benzofuroxan derivatives

Derivados benzofuroxânicos

Modelagem molecular

Molecular modeling

QSAR-2D/3D

Staphylococcus aureus

Staphylococcus aureus

Trypanosoma cruzi

Trypanosoma cruzi

5-HT2B Receptor-mediated Cardiac Valvulopathy

Nistala, Pallavi

01 January 2018

5-HT2B receptor agonism causes cardiac valvulopathy, a condition characterized by thickening of the heart valves and as a result, regurgitation of blood within the heart. The anti-obesity drug fenfluramine, which was originally prescribed as an anorectic, was withdrawn from the market due to causing cardiac valvulopathy. Fenfluramine, after metabolism by N-dealkylation, produces the metabolite norfenfluramine, which acts as a more potent valvulopathogen. The same was seen with MDMA (ecstasy), a popular drug of abuse, which is metabolized by N-dealkylation to produce MDA, a more potent valvulopathogen. Glennon and co-workers. studied a series of 2,5-dimethoxy-4- substituted phenylisopropylamines (DOX type) hallucinogens and determined their affinities at the three types of 5-HT2 receptors. A high correlation was found between the affinities of these molecules at 5-HT2A and 5-HT2B receptors. Therefore, these hallucinogens have a high possibility of causing valvulopathy, which gives rise to a new class of valvulopathogens. Since certain hallucinogens have the common phenylisopropylamine structural scaffold as that of MDA and norfenfluramine, we conducted 3D-QSAR studies to identify the common structural features of these molecules that are responsible for their high affinities. We were unable to obtain a suitable CoMFA and CoMSIA model for 5-HT2B receptors, but we were able to obtain an internally and externally validated model for 5-HT2A receptor affinities which indicated the hydrophobicity of the substituent at the 4- position was essential for high affinity. Following up with this evidence, we conducted a correlation analysis for the hydrophobicity (π-value) of the 4-position substituent and found a positive correlation between the π-value and the affinity of the molecules. The same results were not observed for the volume of the substituents. We docked the molecules into the 5-HT2B receptor and successfully generated models of the putative interactions made by the DOX molecules and the receptor. In order to compare their binding modes with respect to known valvulopathogens, we also generated models for norfenfluramine and MDA. Our docking results revealed that DOX molecules bind in a more or less similar manner to valvulopathogens MDA and norfenfluramine. Ours is the first in silico model developed for the potent valvulopathogen MDA and the hallucinogenic DOX series of molecules.

5-HT2B receptors

Cardiac valvulopathy

3D QSAR

HINT analysis

Ecstasy

Hallucinogens

Cardiovascular Diseases

Medicinal Chemistry and Pharmaceutics

Medicinal-Pharmaceutical Chemistry

Other Chemicals and Drugs

Substance Abuse and Addiction