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OBJECTIVE To improve the quality standard of Yi medicine Gynura japonica, and to evaluate its quality. METHODS Using 15 batches of G. japonica from different producing areas as samples, the contents of water, total ash, acid- insoluble ash and water-soluble extract were determined according to the method stated in part Ⅳ of Chinese Pharmacopoeia (2020 edition). The contents of total alkaloid (calculated by senecionine) was determined by UV spectrophotometry. The contents of senecionine and seneciphylline were determined by HPLC. Using above 7 indexes as evaluation indexes, cluster heat map analysis, principal component analysis (PCA) and entropy weight approximation ideal ranking (TOPSIS) were used to evaluate the quality of medicinal material comprehensively. RESULTS Among 15 batches of G. japonica, the moisture contents were 8.88%-12.60%, the total ash contents were 4.43%-11.02%, the acid-insoluble ash contents were 0.56%-3.45%, the water-soluble extract contents were 21.71%-53.91%, the total alkaloid contents (calculated by senecionine) were 0.15%-0.39%, and the contents of senecionine and seneciphylline were 0.01% -0.05% and 0.01%-0.06% respectively. According to the results of various indicators, it was preliminarily proposed that the water content in the sample of G. japonica should not exceed 13.00%, the total ash content should not exceed 11.50%, the acid-insoluble ash content should not exceed 3.70%, the water-soluble extract should not be less than 20.70%, the total alkaloid content should not be less than 0.15%, the contents of senecionine and seneciphylline should not be less than 0.01% both. The results of cluster heat map analysis showed that the 15 batches of samples could be divided into four categories; the results of PCA and TOPSIS showed that the samples with high-quality ranking were jsq-2, jsq-5, jsq-6 and jsq-10, and the samples with low-quality ranking were jsq-4, jsq-13 and jsq-14. CONCLUSIONS In this study, the quantitative analysis method of total alkaloids (calculated by senecionine), senecionine and seneciphylline in G. japonica is established, and the limits of each index are preliminarily determined. Among 15 batches of samples, the qualities of medicinal material collected from Linza Village of Ganluo County of Liangshan Yi Autonomous Prefecture, Machangping Village of Luojishan Town of Puge County of Liangshan Yi Autonomous Prefecture and other places are better.
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Hepatotoxicity induced by herbal medicines such as Gynura japonica, which contains large amount of pyrrolizidine alkaloids (PAs) such as senecionine (SEN), is among the most serious problems of herbal drug-induced liver injury, yet there is no effective treatment in clinic. We have previously reported that ritonavir (the well-known CYP3A4 inhibitor) protected rats against Gynura japonica-induced liver injury in rats, which was closely related to the inhibition of the metabolic activation of PAs. A large number of lignans have been identified in Schisandrae Chinensis Fructis and are reported to attenuate drug-induced liver injuries by modulating the drug metabolism enzymes. Therefore, the present study investigated the protective effect and potential mechanism of schisandrol A (SoA, a representative lignan identified in Schisandrae Chinensis Fructis) against SEN-induced hepatotoxicity in mice. All experiments were approved by the Animal Research Committee of Shanghai University of Traditional Chinese Medicine (PZSHUTCM210604002). Animal welfare and the animal experimental protocols were strictly consistent with related ethics regulations of Shanghai University of Traditional Chinese Medicine. Liver injury was induced by a single gavage of SEN (150 μmol·kg-1); mice in the protection group were gavaged with SoA (116 μmol·kg-1) 7 days before SEN treatment. The results show that SoA dramatically alleviated SEN-induced liver injury in mice. Mice in the protection group showed decreased serum activities for alanine aminotransferase and aspartate aminotransferase; in addition, the hepatic necrosis and sinusoidal hemorrhage in SEN-treated mice were markedly attenuated in the protection group. The serum contents of SEN metabolites in mice were decreased. In vitro studies were performed by using human liver microsomes and proved that SoA inhibits CYP3A4 to decrease the metabolism of SEN. These studies indicate that SoA attenuated SEN-induced liver injury in mice, which was closely related to the inhibition of the metabolic activation of SEN. These results provide a better understanding of the relationship between CYP3A4 and PA-induced toxicity. This work also will be helpful in developing effective treatments for SEN-induced liver injury based on inhibition of its metabolic activation, and in making reasonable evaluations of the safety of herbal medicines containing PAs such as G. japonica.
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In recent years, there has been an increase in the incidence of herbal-induced liver injury due to the accidental ingestion of herbal medicines containing pyrrolizidine alkaloids (PAs) in domestic. Salvianolic acid B (Sal B), a hydrophilic component in Salvia miltiorrhiza Bge., shows activities of anticoagulation, antioxidation, and other pharmacological activities. This research aims to investigate the protective effect of Sal B on hepatotoxicity induced by senecionine (SEN) and its potential mechanism. The animal experiment was approved by the Experimental Animal Ethical Committee of Shanghai University of Traditional Chinese Medicine, and all mice have received humane care in compliance with the institutional animal care guidelines. Mice were treated with Sal B (10 mg·kg-1) 3 days before and 1 day after SEN (50 mg·kg-1) treatment. The animals were sacrificed 48 h after SEN administration. As a result, Sal B effectively ameliorated SEN-induced liver injury. The mice in the group treated with Sal B showed lower serum activities of alanine aminotransferase and aspartate aminotransferase, less hepatic sinusoidal hemorrhage, and reduced hepatocyte necrosis. Besides, contents of pyrrole-protein adducts, the marker for PA-induced toxicity, were also decreased in serum. The key factors related to coagulation, oxidative stress, and liver fibrosis were further analyzed. It was found that Sal B inhibited the coagulant system by reducing the expression of plasminogen activator inhibitor-1. Sal B also modulated glutathione and superoxide dismutase levels and improved the anti-oxidative defense system. In addition, Sal B decreased the excessive deposition of extracellular matrix and inhibited the progression of liver fibrosis via down-regulating several key factors related to liver fibrosis, including matrix metalloproteinase 9, transforming growth factor-β1, signal transducer and activator of transcription 3, and chemokine 1. In conclusion, Sal B ameliorated SEN-induced liver injury in mice by regulating the blood coagulation system, improving oxidative stress, and modulating liver fibrosis-related factors. Our present study pointed to the possibility of utilizing salvianolic acid B for protection against PA-induced liver injury clinically.
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Drug-induced liver injury and herbal preparations containing pyrrolizidine alkaloid (PA) have gained global attention. The purpose of this research was to investigate the effects and mechanisms of Alismatis Rhizoma, a traditional Chinese medicine, to protect against acute liver injury in mice induced by senecionine (SEN), a representative toxic PA compound. All experiments were approved by the Animal Research Committee of Shanghai University of Traditional Chinese Medicine. Animal welfare and the animal experimental protocols were strictly consistent with related ethics regulations of Shanghai University of Traditional Chinese Medicine. Acute liver injury was induced by a single intragastric administration of SEN (50 mg·kg-1). Mice in the protection groups received intragastric administration of Alismatis Rhizoma water extract (WE, 18 g·kg-1 per day) or ethanol extract (EE, 18 g·kg-1 per day) 5 days before SEN treatment. The results show that Alismatis Rhizoma extracts can significantly attenuate acute liver injury in mice. Mice in the protection groups showed decreased serum activities of alanine aminotransferase and aspartate aminotransferase, as well as decreased total bile acids. In addition, the infiltration of inflammatory cells, sinusoidal hemorrhage, and hepatic necrosis in SEN-treatment mice was clearly attenuated in the protection groups. Interestingly, EE showed a better effect than WE. The content of principal bile acids in serum and the mRNA and protein expression of key factors related to bile acid metabolism were also measured. Alismatis Rhizoma up-regulated the bile acid transporters and drug metabolism enzymes, consistent with the observed bile acid homeostasis and alleviation of SEN-induced injury to hepatocytes. The present study points to the possibility of utilizing Alismatis Rhizoma for protection against liver injury caused by drugs and preparations containing PA.
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Pyrrolizidine alkaloids (PAs) are produced by numerous plant species throughout the world. Numerous intoxications in animals and humans caused by the consumption of certain plants were attributed from the middle of this century to compounds of vegetable origin, the pyrrolizidine alkaloids. Daun dewa (Gynura pseudo-china (L.) DC.) is one of Indonesian medicinal plant which also a native plant of India, Thailand and China. The tuber of this plant is commonly used in Indonesian traditional medicine such as for treatments of uterine hemorrhages, dysentery, and inflamed wounds. Although its medicinal value, it is reported that leaves of this plant and other Gynura species content pyrrolizidine alkaloids (PAs). There are concern about the present of PAs in medicinal plants because of the toxicity of this compounds to human and animal. It is reported that PAs are hepatotoxic, pneumotoxic, genotoxic, neurotoxic, and cytotoxic. The purpose of this study is to study the PAs content of G. pseudochina tuber. The structures-were elucidated using spectral data of Infra Red, Liquid Chromatography-Mass Spectroscopy and a combination of one- and two dimensional 1H and 13C- Nuclear Magnetic Resonance spectroscopy. In this study, two pyrrolizidine alkaloids, senecionine (Compound 1) and senkirkine (Compound 2) were isolated from the tuber of G. pseudo-china. This results suggest that it should be a safety consideration in consuming this plant for traditional medicine because it is also contains PAs which are toxic compounds.
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OBJECTIVE: To investigate the metabolic profile of senecionine in rats. METHODS: Liquid chromatography-tandem mass spectrometry (LC-MSn) mass spectrometry was used for the analysis of senecionine and its metabolites in rats bile, urine, and feces after a single oral dose of senecionine. RESULTS: In total 38 metabolites were identified, including oxidation products, hydroxylation products, hydrolysis products, sulfation products, glucuronidation products, and GSH-conjugations. And metabolites were found to be more abundant in bile and urine than those in feces. CONCLUSION: Senecionine undergoes extensive metabolism in rats.