Efficacy of the 7-chloro-4-(3-hydroxy-benzilidenehydrazo)quinoline derivative against infection caused by Leishmania amazonensis.

INTRODUCTION: The drugs currently available for leishmaniasis treatment have major limitations. METHODS: In vitro and in vivo studies were performed to evaluate the effect of a quinoline derivative, Hydraqui (7-chloro-4-(3-hydroxy-benzilidenehydrazo)quinoline, against Leishmania amazonensis. In silico analyses of absorption, distribution, metabolism, excretion, and toxicity (ADMET) parameters were performed. RESULTS: Hydraqui showed significant in vitro anti-amastigote activity. Also, Hydraqui-treated mice exhibited high efficacy in lesion size (48.3%) and parasitic load (93.8%) reduction, did not cause hepatic and renal toxicity, and showed appropriate ADMET properties. CONCLUSIONS: Hydraqui presents a set of satisfactory criteria for its application as an antileishmanial agent.

Pharmacological profiling of JME-173, a novel mexiletine derivative combining dual anti-inflammatory/anti-spasmodic functions and limited action in Na+ channels.

Existing evidence suggests that the local anaesthetic mexiletine can be beneficial for patients with asthma. However, caution is required since anaesthesia of the airways inhibits protective bronchodilator neuronal reflexes, limiting applications in conditions of hyperirritable airways. Here, we describe the synthesis of a new series of mexiletine analogues, which were screened for reduced activity in Na+ channels and improved smooth muscle relaxant effects, that were evaluated using the patch-clamp technique and an isolated tracheal organ bath, respectively. JME-173 (1-(4-bromo-3,5-dimethylphenoxy)propan-2-amine) was the most effective among the four mexiletine analogues investigated. JME-173 was then studied in vivo using a murine model of lung inflammation induced by cigarette smoke (CS) and in vitro using neutrophil chemotaxis and mast cell degranulation assays. Finally, the JME-173 pharmacokinetic profile was assessed using HPLC-MS/MS bioanalytical method. JME-173 directly inhibited IL-8 (CXCL8)- and FMLP-induced human neutrophil chemotaxis and allergen-induced mast cell degranulation. After oral administration 1 h before CS exposure, JME-173 (50 mg/kg) strongly reduced the increased number of macrophages and neutrophils recovered in the bronchoalveolar effluent without altering lymphocyte counts. Pharmacokinetic experiments of JME-173 (10 mg/kg, orally) showed values of maximum concentration (Cmax), maximum time (Tmax), area under the blood concentration-time curve (AUC0-t) and area under the blood concentration-time curve from 0-Inf (AUC0-inf) of 163.3 ± 38.3 ng/mL, 1.2 ± 0.3 h, 729.4 ± 118.3 ng*h/ml and 868.9 ± 117.1 ng*h/ml (means ± S.E.M.), respectively. Collectively, these findings suggest that JME-173 has the potential to be an effective oral treatment for diseases associated with bronchoconstriction and inflammation.

Selênio, um elemento essencial à vida humana

Introdução: O Selênio ao mesmo tempo em que é tóxico se ingerido em grandes quantidades, é, também, micronutriente essencial em diversos processos metabólicos de animais e humanos. A deficiência de selênio vem sendo relacionada à predisposição em desenvolver doenças como o câncer, a diabetes, doenças cardiovasculares, entre outras. Na química medicinal, o selênio vem ganhando importância a partir da descoberta do ebselen, do ethaselen e do disseleneto de difenila. Objetivo: Essa revisão tem como objetivo compilar as principais informações disponíveis na literatura sobre a importância do selênio para a vida humana, proporcionando ao leitor uma visão geral do papel biológico desse elemento, das principais doenças relacionadas à deficiência de selênio, e da química medicinal dos três principais compostos de organoselênio. Metodologia: Foram recuperados artigos e teses acadêmicas que contemplassem o papel do selênio na bioquímica e na química medicinal, publicados em português e inglês, utilizando-se as bases de dados SciFinder, PubMed e Google Acadêmico. Resultados: Até o momento, foram identificadas 25 selenoproteínas que desempenham funções biológicas essenciais em animais e humanos. Sabe-se que a deficiência de selênio está diretamente relacionada à predisposição no desenvolvimento de diversas doenças. No campo da química medicinal, foi provado que é possível desenvolver moléculas bioativas, com baixa toxidez, contendo átomos de selênio em sua estrutura. Conclusão: O selênio é um elemento essencial à vida, sendo o componente-chave das selenoproteínas. O entendimento dos processos bioquímicos modulados por elas é imperativo para que os químicos medicinais possam desenvolver fármacos potentes contendo átomos de selênio em sua estrutura.

SUMMARY Introduction: Selenium is, at the same time, toxic if ingested in great amounts and an essential micronutrient to several metabolic processes in both animals and humans. Selenium deficiency is being related to an increased chance to develop diseases such as cancer, diabetes, cardiovascular diseases, among others. In medicinal chemistry, selenium has gained in importance since the discovery of ebselen, ethaselen, and diphenyl disselenide. Objectives: This review aims to compile the main data avail-able on the literature on the importance of selenium to human life, providing an overview of its biological role, the main diseases related to its deficiency, as well as the medicinal chemistry of the three most prominent organoselenium compounds. Methodology: Articles and academic thesis, published in English and Portuguese, showing the role of selenium in biochemistry and medicinal chemistry were recov-ered from SciFinder, PubMed, and Google Scholar. Results: So far, 25 selenopro-teins that play a biological role in humans and animals were identified. It is known that selenium deficiency is directly related not only to a predisposition to developing some diseases but is also the main cause of illnesses such as Keshan and Kashin-Beck. In the medicinal chemistry field, the development of selenium-containing bioactive compounds with low toxicity was proved possible. Conclusion: Selenium is an essential element to life, being the core component of selenoproteins. The under-standing of the biochemical processes modulated by those proteins is mandatory to medicinal chemists willing to develop potent organoselenium drugs.

Introducción: El selenioa la par que tóxico si se ingiere en grandes cantidades, es también un micronutriente esencial en varios procesos metabólicos en animales y humanos. La deficiencia de selenio se ha relacionado con una predisposición a desarrollar enfermedades como cáncer, diabetes, enfermedades cardiovasculares, entre otras. Em química médica, el selenio ha ganado importancia desde el descubrimiento del ebselen, etaselen y difenil diselenide. Objetivo: Esta revisión tiene como objetivo recopilar los principales datos disponibles en la literatura sobre la importancia del selenio para la vida humana, y proporcionar al lector una descripción general del papel biológico de este elemento, las principales enfermedades relacionadas con la deficiencia de este elemento, así como los compuestos de organoselenio más destacados. Metodología: Se recuperaron artículos y tesis académicas que contemplaban el papel del selenio en la bioquímica y la química médica, publicados en portugués e inglés, utilizando las bases de datos SciFinder, PubMed y Google Scholar. Resultados: Hasta el momento, se han identificado 25 selenoproteínas que realizan funciones biológicas esenciales en animales y humanos. Se sabe que la deficiencia de selenio está directamente relacionada con la predisposición en el desarrollo de varias dolencias, y también es la principal causa de enfermedades como las de Keshan y Kashin-Beck. En el campo de la química médica se ha comprobado que es posible desarrollar moléculas bioactivas, de baja toxicidad, que contengan átomos de selenio en su estructura. Conclusión: El selenio es un elemento esencial en la vida, siendo un componente central de las selenoproteínas. Comprender los procesos bioquímicos modulados por ellos es imperativo para que los químicos médicos puedan desarrollar fármacos potentes que contengan átomos de selenio en su estructura.

Efficacy of the 7-chloro-4-(3-hydroxy-benzilidenehydrazo)quinoline derivative against infection caused by Leishmania amazonensis

Abstract INTRODUCTION: The drugs currently available for leishmaniasis treatment have major limitations. METHODS: In vitro and in vivo studies were performed to evaluate the effect of a quinoline derivative, Hydraqui (7-chloro-4-(3-hydroxy-benzilidenehydrazo)quinoline, against Leishmania amazonensis. In silico analyses of absorption, distribution, metabolism, excretion, and toxicity (ADMET) parameters were performed. RESULTS: Hydraqui showed significant in vitro anti-amastigote activity. Also, Hydraqui-treated mice exhibited high efficacy in lesion size (48.3%) and parasitic load (93.8%) reduction, did not cause hepatic and renal toxicity, and showed appropriate ADMET properties. CONCLUSIONS: Hydraqui presents a set of satisfactory criteria for its application as an antileishmanial agent.

Oral effectiveness of PMIC4, a novel hydroxyethylpiperazine analogue, in Leishmania amazonensis.

Pentavalent antimonials have saved the lives of thousands of Leishmania-infected patients more than seventy years but, unfortunately, they are highly toxic and require parenteral delivery. Therefore, the search for safer and orally delivered alternative is a need. This paper describes the antileishmanial properties of PMIC4, a novel hydroxyethylpiperazine analogue. PMIC4 showed potent activity against intracellular amastigotes of Leishmania amazonensis, with IC50 of 1.8 µM and selectivity index higher than 100-fold, calculated in relation to the toxicity on the host cell. Following laboratory animal welfare policies, we analyzed the absorption, distribution, metabolism, excretion and toxicity (ADMET) properties and calculated the Lipinski's rule of five of PMIC4 before proceeding to in vivo tests. PMIC4 satisfied Lipinski's rule of five and presented high probability of human intestinal absorption, suggesting a good chance of druglikeness and oral bioavailability. For in vivo studies, PMIC4 was administered via intralesional injection (3.4 mg/kg/day, three times a week) or orally (34.0 mg/kg/day, five times a week) to L. amazonensis-infected BALB/c mice throughout the 98 day experiments. At the end of the treatment period, serum markers of toxicity were measured. When administered orally, PMIC4 controlled the lesions in L. amazonensis-infected BALB/c mice without altering serological markers of toxicity. These results demonstrate that PMIC4 is a promising molecular scaffold, orally effective against experimental leishmaniasis.

Analysis of omega 3 fatty acid in natural and enriched chicken eggs by capillary zone electrophoresis.

Qualitative differentiation between natural and enriched chicken eggs through omega (ω) 3 fatty acid profiles by capillary zone electrophoresis (CZE) under direct UV detection at 200 nm is proposed. The electrolyte background consisted of 12.0 mmol L(-1) tetraborate buffer (pH 9.2) mixed with 12.0 mmol L(-1) Brij 35, 17% acetonitrile (ACN) and 33% methanol (MeOH). Omega 3 fatty acid profile in chicken egg samples were analyzed by CZE system and confirmed by single-quadrupole mass spectrometry with an electrospray ionization probe set to negative ionization mode after sample preparation by the Folch method. The results showed that ω fatty acid profiles analyzed by the CZE approach can be used to chemical markers to monitor fraud, presenting simplicity, short analysis time (10 min) and low cost as advantages.