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1.
BMC Vet Res ; 20(1): 204, 2024 May 17.
Artículo en Inglés | MEDLINE | ID: mdl-38755662

RESUMEN

Actinobacillus pleuropneumoniae (APP) causes porcine pleuropneumonia (PCP), which is clinically characterized by acute hemorrhagic, necrotizing pneumonia, and chronic fibrinous pneumonia. Although many measures have been taken to prevent the disease, prevention and control of the disease are becoming increasingly difficult due to the abundance of APP sera, weak vaccine cross-protection, and increasing antibiotic resistance in APP. Therefore, there is an urgent need to develop novel drugs against APP infection to prevent the spread of APP. Naringin (NAR) has been reported to have an excellent therapeutic effect on pulmonary diseases, but its therapeutic effect on lung injury caused by APP is not apparent. Our research has shown that NAR was able to alleviate APP-induced weight loss and quantity of food taken and reduce the number of WBCs and NEs in peripheral blood in mice; pathological tissue sections showed that NAR was able to prevent and control APP-induced pathological lung injury effectively; based on the establishment of an in vivo/in vitro model of APP inflammation, it was found that NAR was able to play an anti-inflammatory role through inhibiting the MAPK/NF-κB signaling pathway and exerting anti-inflammatory effects; additionally, NAR activating the Nrf2 signalling pathway, increasing the secretion of antioxidant enzymes Nqo1, CAT, and SOD1, inhibiting the secretion of oxidative damage factors NOS2 and COX2, and enhancing the antioxidant stress ability, thus playing an antioxidant role. In summary, NAR can relieve severe lung injury caused by APP by reducing excessive inflammatory response and improving antioxidant capacity.


Asunto(s)
Infecciones por Actinobacillus , Actinobacillus pleuropneumoniae , Lesión Pulmonar Aguda , Flavanonas , Proteína 1 Asociada A ECH Tipo Kelch , Factor 2 Relacionado con NF-E2 , FN-kappa B , Animales , Ratones , Infecciones por Actinobacillus/veterinaria , Infecciones por Actinobacillus/tratamiento farmacológico , Actinobacillus pleuropneumoniae/efectos de los fármacos , Lesión Pulmonar Aguda/tratamiento farmacológico , Lesión Pulmonar Aguda/prevención & control , Flavanonas/uso terapéutico , Flavanonas/farmacología , Hemo-Oxigenasa 1 , Proteína 1 Asociada A ECH Tipo Kelch/metabolismo , Proteínas de la Membrana , Factor 2 Relacionado con NF-E2/metabolismo , FN-kappa B/metabolismo , Transducción de Señal/efectos de los fármacos
2.
Pak J Pharm Sci ; 30(2(Suppl.)): 655-661, 2017 Mar.
Artículo en Inglés | MEDLINE | ID: mdl-28650336

RESUMEN

The aim of the present study was to optimize the shaping technology of the traditional herbal formula Genhuang dispersible tablets, and also establish a method for content determination. The optimal formulation of Genhuang dispersible tablets was determined based on the results of single factor test and orthogonal design test. The disintegration was used as the main study indicator. The proportion of each adjuvant in the optimal formulation consisted of 40% MCC as bulking agent, 15% PVPP and 7% L-HPC as disintegrant, ethanol as adhesive, CSD as lubricant, preparing the dispersible tablets with wet granulation. The content of baicalin in Genhuang dispersible tablets was determined by RP-HPLC method, the C18 column (150×4.6 mm, 10µm) was used, the mobile phase was methanol-water-phosphoric acid (47: 53: 0.2) with the flow rate of 1mL/min, the detection wavelength was at 280 nm and the column temperature was 30oC. The prepared dispersible tablets could be totally disintegrated within three minutes and in accordance with the standard of the Chinese pharmacopoeia. In conclusion, the formulation was suitable for Genhuang dispersible tablets, and the determination method was simple, sensitive and accurate. Therefore, the Genhuang dispersible tablets can be used for industrial production and effectively controlled.


Asunto(s)
Medicamentos Herbarios Chinos/química , Flavonoides/análisis , Composición de Medicamentos , Tamaño de la Partícula , Solubilidad , Comprimidos
3.
Biomed Pharmacother ; 170: 116028, 2024 Jan.
Artículo en Inglés | MEDLINE | ID: mdl-38113627

RESUMEN

Klebsiella pneumoniae (Kpn) is an important pathogen of hospital-acquired pneumonia, which can lead to sepsis and death in severe cases. In this study, we simulated pneumonia induced by Kpn infection in mice to investigate the therapeutic effect of naringin (NAR) on bacterial-induced lung inflammation. Mice infected with Kpn exhibited increases in white blood cells (WBC) and neutrophils in the peripheral blood and pathological severe injury of the lungs. This injury was manifested by increased expression of the inflammatory cytokines interleukin (IL)- 18, IL-1ß, tumor necrosis factor-α (TNF-α) and IL-6, and elevated the expression of NLRP3 protein. NAR treatment could decrease the protein expression of NLRP3, alleviate lung inflammation, and reduce lung injury in mice caused by Kpn. Meanwhile, molecular docking results suggest NAR could bind to NLRP3 and Surface Plasmon Resonance (SPR) analyses also confirm this result. In vitro trials, we found that pretreated with NAR not only inhibited nuclear translocation of nuclear factor (NF)-κB protein P65 but also attenuated the protein interaction of NLRP3, caspase-1 and ASC and inhibited the assembly of NLRP3 inflammasome in mice AMs. Additionally, NAR could reduce intracellular potassium (K+) efflux, inhibiting NLRP3 inflammasome activation. These results indicated that NAR could protect against Kpn-induced pneumonia by inhibiting the overactivation of the NLRP3 inflammasome signaling pathway. The results of this study confirm the efficacy of NAR in treating bacterial pneumonia, refine the mechanism of action of NAR, and provide a theoretical basis for the research and development of NAR as an anti-inflammatory adjuvant.


Asunto(s)
Inflamasomas , Neumonía , Ratones , Animales , Inflamasomas/metabolismo , Proteína con Dominio Pirina 3 de la Familia NLR/metabolismo , Klebsiella pneumoniae , Simulación del Acoplamiento Molecular , FN-kappa B/metabolismo , Neumonía/tratamiento farmacológico
4.
Artículo en Inglés | MEDLINE | ID: mdl-28480359

RESUMEN

BACKGROUND: Aster tataricus L. f. is used as a traditional Chinese drug to relieve cough and asthma symptoms and to eliminate phlegm. However, Aster tataricus L. f. possesses toxicity, and little systematic research has been conducted on its toxic effects in the laboratory. METHODS AND MATERIALS: The acute group was administered 75% alcohol extract of Aster tataricus L. f. in a single dose. A subchronic toxicity study was performed via daily oral administration of Aster tataricus L. f. at a dose of 0.34 g/kg body weight in SD rats. The rats were divided into six groups: a petroleum ether extract (PEA) group, an ethyl acetate extract (EEA) group, an n-butyl alcohol extract (NEA) group, a remaining lower aqueous phases (REA) group, a 75% alcohol extract (AEA) group and a control group. Quantitative measurements of cytokines were obtained by fluorescence with a laser scanner using a Cy3 equivalent dye. RESULTS: The LD50 of the 75% alcohol extract of Aster tataricus L. f. was 15.74 g/kg bw. In the subchronic toxicity study, no significant differences were observed among groups in relative organ weights, urine traits, liver antioxidase levels, or cytokine levels. However, significant sporadic differences were observed in body weight gains, haematology indices, biochemistry values, and histopathology features in PEA, EEA group. In addition, sporadic changes in other groups in measures such as WBC, MCHC, CK, ALP, AST, ALT, LDH, T-BIL, LDL-C, HDL-C, and TC were observed. CONCLUSION: The toxicity study showed that Aster tataricus L. f. can produce toxic effects, mainly on the liver; much less on the heart. The LD50 was 15.74 g/kg BW in mice, and the subchronic toxicity study, used a dosage of 0.34 g/kg/d.BW, showed that the toxic components of Aster tataricus L. f. were mainly concentrated in the petroleum ether fraction, followed by the ethyl acetate fraction, the n-butyl alcohol fraction, the lower aqueous phase and the 75% ethanol extracts. Abbreviations: PEA, petroleum ether extract of Aster tataricus L. f.; EEA, ethyl acetate extract of Aster tataricus L. f.; NEA: n-butyl alcohol extract of Aster tataricus L. f.; REA: lower aqueous phases of Aster tataricus L. f.; AEA, 75% alcohol extract of Aster tataricus L. f.; WBC, white blood cell; RBC, red blood cell, PLT, platelet; HCT, haematocrit; MCV, mean corpuscular volume; HGB, haemoglobin; MCH, mean corpuscular haemoglobin; MCHC, mean corpuscular haemoglobin concentration; CREA, creatinine; LDH, lactate dehydrogenase; HDL-C, high-density lipoprotein cholesterol; LDL-C, low-density lipoprotein cholesterol; T-BIL, total bilirubin; ALT, alanine aminotransferase; ALP, alkaline phosphatase; AST, aspartate aminotransferase; TP, total protein; ALB, albumin; Glu, glucose; TC, total cholesterol; TG, triglycerides; CK, creatine kinase; GSH, Glutathione; MDA, malondialdehyde; T-SOD, total superoxide dismutase; TNF, tumour necrosis factor; IFN, interferon; MCP, monocyte chemotactic protein C.


Asunto(s)
Aster/toxicidad , Extractos Vegetales/toxicidad , 1-Butanol/toxicidad , Acetatos/toxicidad , Alcanos/toxicidad , Animales , Aster/química , Peso Corporal/efectos de los fármacos , Citocinas/efectos de los fármacos , Etanol/toxicidad , Femenino , Hígado/efectos de los fármacos , Masculino , Tamaño de los Órganos/efectos de los fármacos , Extractos Vegetales/química , Ratas , Ratas Sprague-Dawley
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