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The present study was aimed to investigate the effect of lime and licorice processing of Pinelliae Rhizoma on its toxic lectin protein and clarify the scientific detoxification connotation of lime and licorice processing of Pinelliae Rhizoma. Western blot was used to semi-quantitatively analyze the contents of lectin in Pinelliae Rhizoma and Pinelliae Rhizoma Praeparatum. Raw products and lectin were treated by soaking in licorice juice, lime solution or mixture solution of these two to investigate the different processing time on the content of toxic lectin protein. SDS-PAGE gel electrophoresis was used to analyze the changes of lectin protein bands in the solution and precipitates before and after processing. MALDI-TOF technology was used to qualitatively analyze and compare the protein molecular weight before and after processing. The results showed that the contents of lectin in Pinelliae Rhizoma and Pinelliae Rhizoma Praeparatum were 5.01% and 0.04% respectively, indicating that processing could significantly reduce the content of active lectin in raw products. The results also showed that the content of lectin in raw drugs decreased significantly after soaking in lime solution for one day or in licorice juice for three day, and the effect was greatest in mixture solution. Qualitative analysis showed that after being treated by soaking in lime solution, the lectin protein was decomposed into small peptide segments, while after being treated by soaking in licorice juice, the lectin protein was denatured and precipitated. The structure of lectin protein in Pinelliae Rhizoma was broken after being processed with licorice juice and lime solution, which significantly reduced the content of toxic lectinprotein. This is one of the detoxification mechanisms of Pinelliae Rhizoma processing.
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Compuestos de Calcio , Medicamentos Herbarios Chinos , Glycyrrhiza , Lectinas , Óxidos , Pinellia , Tecnología FarmacéuticaRESUMEN
The study aimed to investigate the effect of processing on lectin protein in four toxic Chinese medicines tubers of Pinellia ternata,P. pedatisecta,Arisema heterophyllum and Typhonium giganteum. Western blot was used to semi-quantitatively analyze the content of lectin in the four kinds of toxic Chinese medicines and their different processed products. Raw products and lectin were treated by heating or soaking in ginger juice or alum solution. The effects of different excipients and the heating methods on lectin proteins were investigated. The results showed that the content of lectin in raw products of P. pedatisecta,P. ternata,A. heterophyllum,and T. giganteum were 7. 3%,4. 9%,2. 7%,2. 3%,respectively. And the content of lectin in Pinelliae Rhizoma praeparatum cum alumine was 0. 027%. Lectin was not detected in the Pinelliae Rhizoma Praeparatum cum Zingibere et Alumine,Arisaematis Rhizma Praeparatum and Typhonii Rhizoma Praeparatum,which indicated that processing could significantly reduce the content of active lectin in raw products. The results also showed that with the prolongation of soaking and heating time,the content of lectin in raw products decreased gradually,while the content was almost unchanged when soaked in ginger juice alone. The effects of different excipients and heating on lectin were the same as those on raw products. Therefore,the method with alum soaking and heating can reduce the content of active lectin,which is the key to reduce the toxicity of toxic Chinese medicines. In this paper,Western blot was used to study the content of toxic protein in Araceae toxic Chinese medicines as an evaluation method of the processing degree.
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Araceae/química , Química Farmacéutica/métodos , Medicamentos Herbarios Chinos/análisis , Lectinas/análisis , Tubérculos de la Planta/química , Rizoma/químicaRESUMEN
<p><b>OBJECTIVE</b>To evaluate the effects of tumor necrosis factor-α (TNF-α) on osteogenic differentiation and Notch signaling pathway of periodontal ligament stem cells (PDLSCs) and to investigate the regulatory role of Notch signaling pathway on the osteogenic differentiation of PDLSCs under the influence of TNF-α.</p><p><b>METHODS</b>PDLSCs were obtained through enzyme digestion and tissue block method. The expression levels of stem cell surface markers CD105, CD90, CD146, CD45, and CD31 were detected by fluorescence activated cell sorter (FACS). PDLSCs were divided into experimental (10 ng·mL⁻¹ TNF-α) and control groups (0 ng·mL⁻¹ TNF-α). The proliferation ability of PDLSCs was detected using cell counting kit-8 (CCK-8). The effect of TNF-α on the osteogenic ability of PDLSCs were tested by measuring alkaline phosphatase (ALP) activity and conducting alizarin red staining and quantitative real-time polymerase chain reaction (PCR). We tested Notch signal pathway receptors Notch1, Notch2, ligand JAG1, JGA2, and downstream gene Hes-1. Changes in DLL1 expression were detected by quantitative real-time PCR.</p><p><b>RESULTS</b>FACS profiling showed that PDLSCs were strongly positive for CD105, CD90, and CD146 but negative for CD45 and CD31. CCK-8 results showed that TNF-α could promote the proliferation of PDLSCs (P<0.05). ALP activity in the experimental group was lower than that in the control group (P<0.05). Alizarin red staining showed that the experimental group had decreased mineralized nodules as compared with the control group. Quantitative real-time PCR results showed that the mRNA expression of osteogenic marker genes cementum attachment protein (CAP), osteopontin (OPN), and Runt-related transcription factor 2 (Runx2) significantly decreased in the experimental group as compared with those in the control group (P<0.05). The expression levels of Notch1, Notch2, JAG1, JGA2 and Hes-1 were significantly decreased (P<0.05), whereas those of Notch3 and DLL1 were increased in Notch signaling pathway-related molecules (P<0.05).</p><p><b>CONCLUSIONS</b>TNF-α can promote PDLSCs proliferation and inhibit bone differentiation and Notch signaling pathway expression, indicating that the Notch signaling pathway regulates PDLSCs osteogenic differentiation.</p>
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<p><b>OBJECTIVE</b>To explore the impact of prenatal exposure to lipopolysaccharide on renin-angiotensin system of offspring rats.</p><p><b>METHODS</b>Six pregnant SD rats were randomly divided into 2 groups. The rats in the lipopolysaccharide (LPS) group were treated with LPS 0.79 mg/kg (i.p.) on the 8th, 10th and 12th day of gestation, and rats in the control group were treated with saline at the same time points. The blood pressure of offspring rats was measured by the tail cuff method. Protein expression of Angiotensin II (AngII) in thoracic aorta vessel was determined by immunohistochemistry. Protein expressions of AngII type 1 and type 2 receptor in thoracic aorta vessel were detected by Western blot.</p><p><b>RESULTS</b>Blood pressure of 12-week-old offspring rats of LPS group was significantly higher than that of 12-week-old offspring rats of control group (P < 0.01). The protein expression of AngII and AngII type 1 receptor in thoracic aorta vessel were significantly higher while protein expression of AngII type 2 receptor was lower in 15-week-old offspring rats of LPS group than in control group, resulting in a significant increase in the ratio of AngII type 1 receptor/AngII type 2 receptor in the aorta at 15-week-old of offspring rats than in 15-week-old offspring rats of control group (P < 0.01).</p><p><b>CONCLUSION</b>Prenatal lipopolysaccharide exposure results vascular renin-angiotensin system dysfunction, which may play an important role on the pathogenesis of hypertension development in offspring rats.</p>
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Animales , Femenino , Embarazo , Ratas , Angiotensina II , Metabolismo , Animales Recién Nacidos , Presión Sanguínea , Hipertensión , Metabolismo , Lipopolisacáridos , Exposición Materna , Ratas Sprague-Dawley , Sistema Renina-AngiotensinaRESUMEN
<p><b>OBJECTIVE</b>To review the progress in the research of the active ingredients of Zushima and their pharmacological activities.</p><p><b>METHOD</b>Base on the articles of the chemical constituents and pharmacological activities of Zushima.</p><p><b>RESULT</b>Traditional Chinese drug, Zushima contains coumarins, diteropenoids, lignans, flavonoids, anthraquinones and sterols. Pharmacological investigation concludes that it has actions of painkilling, antiinflammation, inhibiting bacteria, antithrombus, antitumer and antifertility.</p><p><b>CONCLUSION</b>Zushima has extensive actions in pharmacology. And plant resources are very rich. It is a meaning job to study the chemical ingredients and pharmacological activities of Zushima further.</p>