Síntese de novas 3,4-diidropirimidin-2(1H)-onas graxas e estudo da atividade antitumoral

Neste trabalho foi realizada a síntese de novas 3,4-diidropirimidinonas funcionalizadas com diferentes cadeias graxas. Para a síntese destes compostos os β-cetoésteres graxos foram obtidos a partir da transesterificação do acetoacetato de metila na presença dos álcoois palmítico (2a), esteárico (2b) e oleico (2c), utilizando como catalisador I2 e ácido sulfâmico (NH3SO3). Os compostos foram obtidos com rendimentos de 97%, 90% e 60%, respectivamente. Após, a reação multicomponente de Biginelli foi realizada na presença de InCl3 utilizando os β- cetoésteres graxos 3a-c, os aldeídos aromáticos, benzaldeído, 3-hidroxi benzaldeído e 4-dimetilaminobenzaldeído, na presença de uréia ou tiouréia, levando às 3,4- diidropirimidinonas graxas 5-substituídas 6-11a-c em rendimentos que variaram entre 60–94%. Todos os compostos, ainda inéditos na literatura, foram caracterizados por espectroscopia de infravermelho (IV) e ressonância magnética nuclear de hidrogênio (RMN ¹H) e carbono (RMN ¹³C). A análise do efeito das novas 3,4-diidropirimidin-2(1H)-onas graxas pelo método do MTT na linhagem de glioma C6 rato e UG-138 humana demonstrou uma maior diminuição da viabilidade celular para os compostos graxos contendo as cadeias palmítica e oleica derivados da tiouréia e do 3-hidroxi benzaldeído, respectivamente. Comportamento semelhante foi observado para os compostos contendo as cadeias palmítica e oleica, porém derivados da uréia. Uma diminuição significativa da viabilidade celular, porém em menor grau, foi observada para os compostos graxos contendo as cadeias palmítica e oleica derivados da uréia e do benzaldeído. Os resultados mostraram até o momento que os derivados graxos contendo a cadeia oleica na posição 5 do anel diidropirimídinico derivado do 3- hidroxi benzaldeído e da tiouréia apresentaram maior atividade na diminuição da viabilidade celular de linhagem de glioma.

The effect of the proton pump inhibitor pantoprazole on the biology of Campylobacter jejuni

Campylobacter is a major cause of acute bacterial gastroenteritis worldwide, with the highest number of infections being attributed to Campylobacter jejuni. C. jejuni is a Gram negative, spiral, motile bacterium that belongs to the campylobacterales order and is related to both Helicobacter spp. and Wolinella sp.. It has long been established that proton pump inhibitors (PPIs) and other benzimidazole derivatives display anti-Helicobacter activity in vitro. PPIs have in the past been shown to affect Helicobacter pylori growth, survival, motility, morphology, adhesion/invasion potential and susceptibility to conventional antibiotics. PPIs are highly effective drugs that are well tolerated, safe for prolonged daily use and are therefore in high demand. Both the PPIs omeprazole and lansoprazole featured in the top ten drugs prescribed in England in 2014. In 2014 Campylobacter was also the most commonly diagnosed gastrointestinal infection in Scotland, in England and Wales and also in Europe. It has previously been generally accepted that patients who are being treated with PPIs are more susceptible to enteric infections such as Campylobacter than people not taking PPIs. The effect of PPI exposure on H. pylori has been investigated rigorously in the past. A single previous study has hinted that PPIs may also be capable of affecting the related organism C. jejuni,but investigations have been extremely limited in comparison to those investigating the effect of PPIs on H. pylori. This study has investigated the in vitro effects of direct contact with PPIs on the biology ofC. jejuni. Exposure to the PPI pantoprazole was found to affect C. jejuni growth/survival, motility, morphology, biofilm formation, invasion potential and susceptibility to some conventional antibiotics. Microarray studies showed that the cmeA and Cj0561c genes were significantly up-regulated in response to pantoprazole exposure and a CmeABC deficient mutant was found to be significantly more susceptible to killing by pantoprazole than was the parent strain. Proteomic analysis indicated that the oxidative stress response of C. jejuni was induced following exposure to sub-lethal concentrations of pantoprazole. C. jejuni gene expression was assessed using qRT-PCR and the genes encoding for thiol peroxidase and GroEL co-chaperonin (both involved in the C. jejuni oxidative stress response) were found to be around four times higher in response to exposure to sub-lethal concentrations of pantoprazole. Experiments using the oxidative stress inhibitors thiourea (a hydroxyl radical quencher) and bipyridyl (a ferrous iron chelator) showed that killing by pantoprazole was not mediated by hydroxyl radical production.

Hg2+ -selective fluorescent probe based on rhodamine 6G and its application in aqueous media

Based on rhodamine 6G, a highly sensitive and selective fluorescent sensor R6G1 for Hg2+ detection had been designed and prepared. It was synthesized through the well-known reaction that thiourea derivatives with amine could easily be transformed into guanidine derivatives with the promotion of Hg2+. By coordination with Hg2+, R6G1 exhibited high sensitivity and selectivity over other metal ions in aqueous systems. Furthermore, fluorescence titration experiments established the well-fitted linearity function of the fluorescent intensity with the concentration of Hg2+ in aqueous solution. The results showed that R6G1 provided high water solubility and high selectivity toward Hg2+ but no significant response toward other competitive cations and anions. It was suggested that the chemosensor would find its application in environmental field requiring rapid and accurate Hg2+ ion analysis.