ABSTRACT
Abstract Solvents play important and critical role in natural product chemistry and could generate artefacts during the extraction and purification of metabolites from a biological matrix. This study aimed to correlate the chromatographic profile with biological activity of Ipomoea pes-caprae (L.) R. Br., Convolvulaceae, extracts obtained with hydroethanolic extraction. Thus, aerial parts of I. pes-caprae were extracted with different concentration of ethanol (50, 70 and 90°GL) and the obtained extracts were analysed by HPLC-UV. HPLC data were studied employing chemometrics to discriminate the samples. Moreover these samples were further characterized by using UPLC-QTOF/MS data. The extracts were also biomonitored through the paw-oedema and spontaneous nociception induced by trypsin in mice. Different chromatographic profiles were obtained and the exploratory analysis clearly revealed higher level of ethyl caffeate in extracts of lower strength of ethanol (50°GL). This compound was suggested to be an artefact formed by transesterification of caffeoylquinic acid derivatives present in the plant, once it was not observed when other solvents were employed. During the biological assay, only the extract obtained with ethanol 50°GL presented significant inhibition of inflammation (45 ± 9%) and nociception (24 ± 3%). Ethyl caffeate seems to be linked to the anti-inflammatory effect since it reduced 86 ± 5% of paw-oedema induced by trypsin. Artefacts could contribute to the biological activity of herbal preparations and consequently lead to misinterpretation of the results.
ABSTRACT
Litchi chinensis Sonn seeds and pericarp are used in popular medicine as antioxidant, anticancer, antiviral, analgesic, antipyretic, immunomodulatory agent and others. However, literature on litchi leaves extract and the main compound procyanidin A2 (PA2) activities are scarce. Here, we investigated the anti-inflammatory activity of L. chinensis leaves extract and the main compound PA2 using in vitro and in vivo assays. We used the pleurisy and air-pouch model induced by carrageenan, substance P, histamine, bradykinin or lipopolysaccharide (LPS) in mice. The PA2 effects were also evaluated using carrageenan-induced pleurisy and LPS-induced air-pouch. In addition, LPS-induced NO2- production and cytotoxicity were quantified using peritoneal neutrophils recruited by oyster glycogen previously treated with L. chinensis extract or PA2. Animals orally treated with L. chinensis leaves extract exhibited a reduction on carrageenan-induced paw edema. Furthermore, the extract reduced the leukocyte migration and the protein leakage in the pleurisy model induced by carrageenan, substance P, histamine and bradykinin. The main compound in the leaves extract, PA2 reduced the paw edema and cell migration into the carrageenan-inflamed tissue. The data obtained in the LPS-induced air pouch model show that the extract and PA2 inhibit the in vivo neutrophil migration. In addition, the leaves extract and PA2 did not affect the neutrophil viability and reduces NO2- production. Taken together, the data herein obtained showed the modulatory actions of L. chinensis leaves extract on leukocyte migration to inflamed tissue, suggesting its therapeutic application to acute inflammatory process. In addition, it may be supposed that PA2 could be related with these actions, as it is the main compound of L. chinensis leaves extract
ABSTRACT
AbstractGastric ulcer is a prevalent gastrointestinal disease, and the drugs currently used in the treatment produce several adverse effects. In this context, the search for new therapeutic antiulcer agents is essential, and medicinal plants have great potential. Here, we investigated the gastroprotective properties of Copaifera langsdorffii Desf., Fabaceae, hydroalcoholic extract obtained from leaves and its isolated compounds. The phytochemistry studies and the compounds isolations were performed using chromatographic and spectroscopic methodologies. The hydroalcoholic extract was evaluated using ethanol/HCl, non-steroidal anti-inflammatory drug, stress-induced-ulcer and chronic ulcer-model. The effects on gastric content volume, pH, total acidity and mucus stomach production were evaluated in the pylorus ligated-model. The C. langsdorffii extract obtained from leaves (50, 250 or 500 mg/kg) reduced the injured area compared to control group in all experiments. The extract showed a significant decrease in the total gastric juice acidity and an increase in mucus production (500 mg/kg) when compared to vehicle. Among isolated compounds (30 mg/kg) α-humulene, β-caryophyllene and caryophyllene oxide showed greater gastroprotective activity in the ethanol/HCl induced ulcer model. The data herein obtained shown that C. langsdorffii leaves extract and isolated compounds from it, presented gastroprotective properties in different animal models of gastric ulcer. These effects may be associated with the ability of the extract to decrease gastric secretion and increase the mucus production.
ABSTRACT
A úlcera gástrica é uma doença crônica, de alta prevalência, e a eficácia dos tratamentos farmacológicos disponíveis é limitada pela alta incidência de efeitos adversos. Neste trabalho é mostrado o mecanismo de ação terapêutica e os efeitos toxicológicos da molécula indol-tiazolidínica LYSO-7 em diferentes modelos experimentais de úlcera gástrica. Camundongos Swiss machos foram tratados com veículo, LYSO-7 (5, 25 ou 50 mg/kg, v.o.) ou bezafibrato (25 ou 50 mg/kg, v.o.) 1 hora antes da administração oral de Et/HCl (60%/0,03 M) ou indometacina (100 mg/kg). Em outro conjunto de ensaios, animais foram pré-tratados com GW9962, um antagonista PPARγ (2 mg/kg, i.p.); anticorpo anti-granulócito (50 µL, i.p.), ou L-NAME (70 mg/kg, i.p) 1 hora antes dos tratamentos com veículo ou LYSO-7. Uma hora após administração da solução de Et/HCl, os neutrófilos foram quantificados no sangue e medula óssea, a rede microcirculatória gástrica foi estudada em in situ, utilizando a técnica de microscopia intravital; o tecido gástrico foi utilizado para quantificar a percentagem de área lesada, atividade da MPO, a expressão gênica e proteica de PPARγ, expressão proteica de iNOS e eNOS, e a atividade das enzimas catalase, SOD, GPx, GR e GST. Uma hora após a administração de indometacina, o tecido gástrico foi removido para avaliar a eficácia do tratamento e a secreção de mediadores inflamatórios. Ensaio de úlcera crônica, induzida por ácido acético, foi realizado em camundongos Balb/c WT ou ANXA1-/-, aplicando-se 20µL de ácido acético na camada subserosa do estômago e 24 horas após a indução, os animais foram tratados, uma vez ao dia, durante sete dias com LYSO-7 (50 mg/kg), bezafibrato (50 mg/kg) ou veículo. Foram realizados ensaios com macrófagos recrutados para o peritônio pela ação do tioglicolato de sódio (3%, i.p.) e com neutrófilos recrutados pela ação do glicogênio de ostra (1%, i.p.). Ensaios de toxicologia aguda, crônica e mutagenicidade também foram realizados. Os resultados obtidos mostram que o tratamento com LYSO-7 reduz a área lesada, o influxo de neutrófilos e a estase da rede microcirculatória provocada pela administração de Et/HCl. Os efeitos protetores foram revertidos em animais pré-tratados com GW9962, indicando a participação do PPARγ no efeito. O influxo de neutrófilos é determinante para a lesão, uma vez que a depleção destas células reduziu a ulceração gástrica, e indica que o bloqueio da mobilização de neutrófilos da medula óssea para o sangue e destes para o tecido lesado pela LYSO-7 pode ser um mecanismo de ação gastroprotetora desta molécula. A reversão da estase vascular na microcirculação, mas não o influxo de neutrófilos, é mediado pelo NO, pois o pré-tratamento com L-NAME aboliu os efeitos da LYSO-7 no restabelecimento do fluxo sanguíneo da microcirculação. Este efeito pode ser dependente da maior e menor expressão proteica de eNOS e iNOS, respectivamente. A LYSO-7 foi capaz de alterar favoravelmente a atividade das enzimas antioxidantes no tecido gástrico. Ainda, a LYSO-7 diminuiu a área lesada e reduziu a concentração de TNFα e aumentou a de IL-10 no tecido gástrico lesado pela indometacina. Na resolução do processo inflamatório, o tratamento com LYSO-7 diminuiu a percentagem de área lesada, aumentou a apoptose de neutrófilos e a eferocitose de neutrófilos por macrófagos peritoneais, inibiu a secreção de TNFα e aumentou a secreção de IL-10, TFG-1ß e VEGF para o sobrenadante de macrófagos em fagocitose. A resolução de lesão gástrica, bem como a indução da fagocitose pela LYSO-7 foi reduzida em animais ANXA1-/-. As investigações destes últimos dados mostraram a relação da ANXA1 e PPARγ, já que a expressão do receptor é reduzida em macrófagos obtidos de animais depletados de ANXA1. Os estudos toxicológicos mostraram que a LYSO-7 apresenta baixa toxicidade aguda e crônica in vivo, além de não ocasionar mutagenicidade em eritrócitos da medula óssea. Os dados obtidos mostram que a molécula LYSO-7 atua como agonista PPARγ na modulação da úlcera gástrica e modula a migração de neutrófilos e o fluxo sanguíneo na microcirculação. A transativação e transrepressão de eNOS e iNOS, respectivamente, o bloqueio da migração de neutrófilos para a lesão e a inibição da atividade de enzimas oxidativa, ativação de enzimas antioxidantes no epitélio gástrico e a inibição da secreção de mediadores inflamatórios parecem ser os mecanismos de ação da LYSO-7 na citoproteção gástrica. Adicionalmente, a LYSO-7 atua na resolução do processo inflamatório promovendo downregulation na secreção de mediadores inflamatórios, aumento na apoptose de neutrófilos e eferocitose de neutrófilos apoptóticos
Gastric ulcer is a chronic disease that presents high prevalence, and effectiveness of pharmacological treatments available is limited by several adverse effects. In this study is shown the mechanism of action and toxicological effects of the molecule indole-thiazolidine LYSO-7 in different models of gastric ulcer. Male Swiss mice were treated with vehicle LYSO-7 (5, 25, or 50 mg/kg, p.o.) or bezafibrate (25 or 50 mg/kg, p.o.) 1 hour before the oral administration of Et/HCl (60%/0.03 M) or indomethacin (100 mg/kg). In another set of assays, animals were pre-treated with GW9962, a PPARγ antagonist (2 mg/kg, i.p.), anti-granulocyte antibody (50 µL, i.p.) or L-NAME (70 mg/kg, i.p.) 1 hour before the treatment with vehicle or LYSO-7. One hour after administration of the Et/HCl solution, neutrophils were quantified in the blood and bone marrow, the gastric microcirculatory network was studied in situ by intravital microscopy, in the gastric tissue were quantified the percentage of injured area, MPO activity, PPARγ gene and protein expression, iNOS and eNOS protein expression, and catalase, SOD, GPx, GR and GST activity. One hour after indomethacin administration, gastric tissue was removed to verify the efficacy of LYSO-7 on inflammatory mediator secretion. Chronic ulcer assay induced by acetic acid was carried out in Balb/c WT or ANXA1-/-, applying 20µL of acetic acid in the subserosal layer of the stomach and 24 hours after induction, animals were treated during seven days, once a day, with LYSO-7 (50 mg/kg), bezafibrate (50 mg/kg) or vehicle. Assays were performed with macrophages recruited to the peritoneum by sodium thioglycollate (3%, i.p.) and neutrophils by oyster glycogen (1%, i.p.). Acute and chronic toxicological and mutagenicity assays were also conducted. The results obtained show that LYSO-7 treatment decrease the injured area, neutrophil influx and microcirculatory stasis evoked by Et/HCl administration. Protective effects were reversed in animals pretreated with GW9962, indicating the involvement of PPARγ. Neutrophil influx is a determinant of the gastric lesion, once the depletion of these cells decreased the gastric damage, indicating that in the neutrophil mobilization blockade from the bone marrow to blood and to injured tissue may be a gastroprotective mechanism of LYSO-7. The vascular stasis reversion in the microcirculation is mediated by NO, but not the neutrophil influx, since the pretreatment with L-NAME abolished the effects of LYSO-7 on blood flow. This effect was dependent on increase and decrease of eNOS and iNOS protein expression, respectively. LYSO-7 positively altered the activity of antioxidant enzymes in the gastric tissue. Furthermore, LYSO-7 reduced the injured area and the concentration of TNFα and increased IL-10 in the gastric tissue in the indomethacin-induced ulcer model. In the resolution of inflammation, LYSO-7 treatment decreased the percentage of the injured area, increased the neutrophils apoptosis and the efferocytosis of apoptotic neutrophils by peritoneal macrophages, inhibited the TNFα release and increased the secretion of IL-10, IL-1ß and VEGF in the supernatant of phagocytosis assay. The resolution of gastric lesions, as well as, the induction of phagocytosis by LYSO-7 was reduced in animals ANXA1-/-. This data shown the relation of PPARγ and ANXA1, as PPARγ expression is reduced in macrophages obtained from ANXA1-/- animals. Toxicological studies showed that LYSO-7 has low acute and chronic toxicity in vivo, and did not cause mutagenicity in bone marrow erythrocytes. The data obtained show that LYSO-7 acts as PPARγ in the modulation of gastric ulcer and modulate neutrophil migration and blood flow in the microcirculation. The transactivation and transrepression of eNOS and iNOS, respectively, blocking the neutrophil influx into the injury, antioxidant enzymes activation in the gastric epithelium and inhibition of inflammatory mediators release seem to be the mechanisms action of LYSO-7 in gastric cytoprotection. Additionally, LYSO-7 operates in the resolution of inflammation promoting downregulation in the secretion of inflammatory mediators and increases the neutrophil apoptosis and efferocytosis of apoptotic neutrophils