Design, Synthesis, Experimental and Theoretical Characterization of a New Multitarget 2-Thienyl-N-Acylhydrazone Derivative.

Pulmonary arterial hypertension (PAH) is a chronic cardiovascular disease that displays inflammatory components, which contributes to the difficulty of adequate treatment with the available therapeutic arsenal. In this context, the N-acylhydrazone derivative LASSBio-1359 was previously described as a multitarget drug candidate able to revert the events associated with the progression of PAH in animal models. However, in spite of having a dual profile as PDE4 inhibitor and adenosine A2A receptor agonist, LASSBio-1359 does not present balanced potencies in the modulation of these two targets, which difficult its therapeutic use. In this paper, we describe the design concept of LASSBio-1835, a novel structural analogue of LASSBio-1359, planned by exploiting ring bioisosterism. Using X-ray powder diffraction, calorimetric techniques, and molecular modeling, we clearly indicate the presence of a preferred synperiplanar conformation at the amide function, which is fixed by an intramolecular 1,5-N∙∙∙S σ-hole intramolecular interaction. Moreover, the evaluation of LASSBio-1835 (4) as a PDE4 inhibitor and as an A2A agonist confirms it presents a more balanced dual profile, being considered a promising prototype for the treatment of PAH.

α-bisabolol-loaded lipid-core nanocapsules reduce lipopolysaccharide-induced pulmonary inflammation in mice.

Acute respiratory distress syndrome (ARDS) is a severe clinical condition of respiratory failure due to an intense inflammatory response with different etiologies. Despite all efforts, therapy remains limited, and ARDS is still associated with high mortality and morbidity. Plants can provide a vast source of active natural products for the discovery of new drugs. α-bisabolol (α-bis), a constituent of the essential oil from chamomile, has elicited pharmacological interest. However, the molecule has some limitations to its biological application. This study was conducted to develop a drug delivery system using lipid-core nanocapsules (LNCs) to improve the anti-inflammatory effects of orally administered α-bis. α-bis-loaded LNCs (α-bis-LNCs) were prepared by interfacial deposition of poly(ε-caprolactone) and orally administered in a mouse model of ARDS triggered by an intranasal administration of lipopolysaccharide (LPS). We found that α-bis-LNCs (30, 50, and 100 mg kg-1) significantly reduced airway hyperreactivity (AHR), neutrophil infiltration, myeloperoxidase activity, chemokine levels (KC and MIP-2), and tissue lung injury 18 hours after the LPS challenge. By contrast, free α-bis failed to modify AHR and neutrophil accumulation in the bronchoalveolar lavage effluent and lung parenchyma and inhibited elevation in the myeloperoxidase and MIP-2 levels only at the highest dose. Furthermore, only α-bis-LNCs reduced LPS-induced changes in mitogen-activated protein kinase signaling, as observed by a significant reduction in phosphorylation levels of ERK1/2, JNK, and p38 proteins. Taken together, our results clearly show that by using LNCs, α-bis was able to decrease LPS-induced inflammation. These findings may be explained by the robust increase of α-bis concentration in the lung tissue that was achieved by the LNCs. Altogether, these results indicate that α-bis-LNCs should further be investigated as a potential alternative for the treatment of ARDS.

Antinociceptive activities of crude methanolic extract and phases, n-butanolic, chloroformic and ethyl acetate from Caulerpa racemosa (Caulerpaceae) / Atividade antinociceptiva do extrato metanólico bruto e das fases n-butanólica, clorofórmica e acetato de etila de Caulerpa recemosa (Caulerpaceae)

In this study, we attempted to identify the possible antinociceptive actions of n-butanolic phase, chloroformic phase, ethyl acetate phase and crude methanolic extract obtained from Caulerpa racemosa. This seaweed is cosmopolitan in world, mainly in tropical regions. The n-butanolic, chloroformic, ethyl acetate phases and crude methanolic extract, all administered orally in the concentration of 100 mg/kg, reduced the nociception produced by acetic acid by 47.39 percent, 70.51 percent, 76.11 percent and 72.24 percent, respectively. In the hotplate test the chloroformic and ethyl acetate phase were activite in this models. In the neurogenic phase on formalin test, were observed that crude methanolic extract (51.77 percent), n-butanolic phase (35.12 percent), chloroformic phase (32.70 percent) and indomethacin (32.06 percent) were effective in inhibit the nociceptive response. In the inflammatory phase, only the ethyl acetate phase (75.43 percent) and indomethacin (47.83 percent) inhibited significantly the nociceptive response. Based on these data, we can infer that the ethyl acetate phase shows a significant anti-inflammatory profile, whose power has not yet been determined. However, pharmacological and chemical studies are continuing in order to characterize the mechanism(s) responsible for the antinociceptive action and also to identify other active principles present in Caulerpa racemosa.

Neste estudo, tentamos identificar a atividade antinociceptiva do extrato metanólico bruto e das fases n-butanólica, clorofórmica e acetato de etila provenientes da alga Caulerpa racemosa. Esta alga é cosmopolita no mundo, principalmente em regiões tropicais. O extrato metanólico bruto e as fases n-butanólica, clorofórmica e acetato de etila foram administrados por via oral, na concentração de 100 mg/kg. Estes foram capazes de reduzir a nocicepção produzida pelo ácido acético, sendo 47,39 por cento, 70,51 por cento, 76,11 por cento e 72,24 por cento, respectivamente. No ensaio da placa quente as fases clorofórmica e acetato de etila foram ativas neste modelo. Na fase neurogênica do teste de formalina, foi observado que o extrato metanólico bruto (51,77 por cento), fase n-butanólica (35,12 por cento), fase clorofórmica (32,70 por cento) e indometacina (32,06 por cento) foram eficazes em inibir a resposta nociceptiva. Na fase inflamatória, apenas a fase acetato de etila (75,43 por cento) e indometacina (47,83 por cento) foram capazes de inibir significativamente a resposta nociceptiva. Com base nestes dados, podemos sugerir que o a fase acetato de etila apresenta um significativo efeito anti-inflamatório, cuja potência ainda não foi determinada. No entanto, estudos farmacológicos e químicos serão necessários, a fim de caracterizar o mecanismo responsável pela ação antinociceptiva e também para identificar outros princípios ativos presentes na alga Caulerpa racemosa.