Unlocking the hidden potential: Enhancing the utilization of stems and leaves through metabolite analysis and toxicity assessment of various parts of Aconitum carmichaelii.

ETHNOPHARMACOLOGICAL RELEVANCE: Aconitum carmichaelii is widely used in traditional Chinese medicine clinics as a bulk medicinal material. It has been used in China for more than two thousand years. Nevertheless, the stems and leaves of this plant are usually discarded as non-medicinal parts, even though they have a large biomass and exhibit therapeutic properties. Thus, it is crucial to investigate metabolites of different parts of Aconitum carmichaelii and explore the relationship between metabolites and toxicity to unleash the utilization potential of the stems and leaves. AIM OF THE STUDY: Using plant metabolomics, we aim to correlate different metabolites in various parts of Aconitum carmichaelii with toxicity, thereby screening for toxicity markers. This endeavor seeks to offer valuable insights for the development of Aconitum carmichaelii stem and leaf-based applications. MATERIALS AND METHODS: UHPLC-Q-Orbitrap MS/MS-based plant metabolomics was employed to analyze metabolites of the different parts of Aconitum carmichaelii. The cardiotoxicity and hepatotoxicity of the extracts from different parts of Aconitum carmichaelii were also investigated using zebrafish as animal model. Toxicity markers were subsequently identified by correlating toxicity with metabolites. RESULTS: A total of 113 alkaloids were identified from the extracts of various parts of Aconitum carmichaelii, with 64 different metabolites in stems and leaves compared to daughter root (Fuzi), and 21 different metabolites in stems and leaves compared to mother root (Wutou). The content of aporphine alkaloids in the stems and leaves of Aconitum carmichaelii is higher than that in the medicinal parts, while the content of the diester-diterpenoid alkaloids is lower. Additionally, the medicinal parts of Aconitum carmichaelii exhibited cardiotoxicity and hepatotoxicity, while the stems and leaves have no obvious toxicity. Finally, through correlation analysis and animal experimental verification, mesaconitine, deoxyaconitine, and hypaconitine were used as toxicity markers. CONCLUSION: Given the low toxicity of the stems and leaves and the potential efficacy of aporphine alkaloids, the stems and leaves of Aconitum carmichaelii hold promise as a valuable medicinal resource warranting further development.

Safety evaluations of the processed lateral root of Aconitum carmichaelii Debx. And its hepatotoxicity mechanisms in rats.

ETHNOPHARMACOLOGICAL RELEVANCE: The processed lateral root of Aconitum carmichaelii Debx. is known as Fuzi, an extensively used Traditional Chinese Medicine to treat cardiovascular diseases, rheumatism arthritis, bronchitis, pains, and hypothyroidism, etc. Although Chinese Pharmacopeia regulates the safe clinical dosage of Fuzi at 3-15 g/person/day, such recommendation not only lacks bench evidence but also does not differentiate Fuzi with different processing types, such as Heishunpian and Paofupian. AIM OF THE STUDY: The current study aimed to 1) determine No-Observed-Adverse-Effect-Levels of Heishunpian and Paofupian in rats and 2) investigate the related toxicity mechanisms for their safe clinical use. MATERIALS AND METHODS: After giving clinically relevant dosing regimen of Heishunpian/Paofupian to rats, we conducted toxicity assessments including ECG monitoring, histopathological changes and serum biomarkers to detect organ injury. Metabolomic study in the liver revealed changes in endogenous metabolite levels after two-week treatment of Fuzi preparations or its corresponding six toxic alkaloids mixtures. RESULTS: The NOAEL for both bolus and two-week treatments of Heishunpian and Paofupian in rats was designated to be 7.5 g/kg and 15 g/kg, respectively. Corresponding recommended doses in humans were 7.5-25 g/person/day for Heishunpian and 15-50 g/person/day for Paofupian. Metabolic profiles revealed more significant alterations in endogenous substances from rats receiving the two Fuzi preparations than their corresponding toxic alkaloids mixtures. Upregulation of bile acid pathway could be responsible for Fuzi induced liver injury. CONCLUSIONS: Compared to the current maximum recommended dose, our suggested upper limit of guided dose for Heishunpian was comparable, whereas that for Paofupian could be further elevated. Both C19-diterpenoid alkaloids and co-occurring components in Fuzi preparations contributed to their hepatotoxicity via upregulation of bile acid pathway.

Glycyrrhiza uralensis promote the metabolism of toxic components of Aconitum carmichaeli by CYP3A and alleviate the development of chronic heart failure.

Aconitum, as "the first drug of choice for invigorating Yang and saving lives", has been widely used for the treatment of heart failure. However, toxic components of Aconitum can easily lead to serious arrhythmia, even death (Y. CT., 2009; Zhang XM., 2018). In this study, a High Performance Liquid Chromatography (HPLC) method for the determination of aconitine (AC), mesaconitine (MA) and hypaconitine (HA) was established; The effect of Glycyrrhiza on CYP3A1 / 2 mRNA expression was detected by RT-PCR; SD rats were given Aconitum and compatibility of Glycyrrhizae and Aconitum by gavage respectively, the blood concentration of toxic components were determined by LC-MS / MS; The CHF rat model was established by intraperitoneal injection of adriamycin (2.5 mg / kg), and were randomly divided into model, Aconitum, the compatibility of Glycyrrhizae and Aconitum and Captopril group, 5 mice/group. After 4 weeks of gavage, the corresponding indexes were detected by ELISA and HPLC. The results showed that Ketoconazole significantly inhibited the metabolites of AC, MA and HA; Glycyrrhiza induced CYP3A gene expression; The level of ALD in the compatibility of Glycyrrhizae and Aconitum group was significantly lower than that in Aconitum group. After intervention with the compatibility of Glycyrrhizae and Aconitum, ATP increased, ADP decreased significantly. In conclusion, we found Glycyrrhiza promoted the metabolism of toxic components of Aconitum by up regulating the expression of CYP3A, and reduced the content of BNP, Ang II and ALD, improved the energy metabolism disorder of myocardium, alleviated the development of CHF.

Assessment of reproductive toxicity and genotoxicity of Aconiti Lateralis Radix Praeparata and its processed products in male mice.

ETHNOPHARMACOLOGICAL RELEVANCE: Aconiti Lateralis Radix Praeparata (Chinese name: Fuzi), the root of Aconitum carmichaelii Debx., is a representative medicine for restoring yang and rescuing patient from collapse. However, less studies had been reported on the reproductive toxicity and genotoxicity of Fuzi. According to the principle of reducing toxicity and preserving efficiency, only processed products of Fuzi are commonly applied in clinic, including Baifupian, Heishunpian and Danfupian. However, whether processing could alleviate the reproductive toxicity and genotoxicity of Fuzi had not been revealed. AIM OF THE STUDY: To assess the effect and possible mechanism of Fuzi and its processed products on reproductive toxicity and genotoxicity in male mice. MATERIALS AND METHODS: Aqueous extracts of Fuzi and its processed products (Baifupian, Heishunpian and Danfupian, 5.85 g/kg) were administrated by gavage once daily for fourteen consecutive days. The reproductive toxicity was evaluated by testis weight, testis ratio, testis histopathology, sperm count, sperm viability rate and sperm deformity rate. The genotoxicity was evaluated by comet assay and micronucleus test in sperm, peripheral blood cell and bone marrow cell. Possible mechanisms of attenuating toxicity by processing were analyzed by detecting the level of testosterone, superoxide dismutase (SOD), glutathione (GSH), malondialdehyde (MDA) and catalase (CAT). RESULTS: Fuzi significantly caused different degrees of reproductive toxicity and genotoxicity, specifically reducing the weight and testicular coefficient of testis, causing obvious pathological changes in testicular tissue, reducing sperm count and sperm viability rate, increasing sperm deformity rate and DNA damage in sperm/peripheral blood cells/bone marrow cells. Moreover, Fuzi decreased the level of testosterone, SOD, GSH and CAT, while increased the level of MDA in serum. Notably, the reproductive toxicity and genotoxicity induced by the processed products, especially Heishunpian and Danfupian, were significantly lowered compared to Fuzi. Processing could increase the level of testosterone, SOD, GSH, CAT and decrease the level of MDA compared to Fuzi. CONCLUSION: Fuzi and its processed products had reproductive toxicity and genotoxicity, but the toxicity of processed products was significantly weakened compared to Fuzi. The protective mechanism of processing to reduce the toxicity of Fuzi might be related to increasing the level of testosterone and decreasing oxidative stress.

An Integrated TK-TD Model for Evaluation of Radix Aconitikusnezoffii (RAK).

OBJECTIVE: An integrated TK-TD model with indirect response to toxicity was established using ADAPT 5 to evaluate abnormal heart rate (HR) and QT interval changes caused by Radix Aconitikusnezoffii (RAK). METHODS: Plasma samples were collected from male SD rats, which were divided into the blank and RAK groups. HR and QT interval indicators were recorded. Four alternative TK models were analyzed, and the best fitting model was determined. An indirect toxicodynamics model was selected, and the relationship of plasma concentration-time-toxicity was linked by Hill's equation. RESULTS: A 1-compartment linear first-order elimination kinetic model with the biophase model - an indirect toxic effect response model - best described the data. The high-dose QT interval was evaluated. Model simulation with the ML method showed that the fitting values of 0-15 h all fell within the confidence interval (95%). AMOS analysis showed that almost all the load factor of the variable was >0.7, and the χ2 value was 4.169 indicating a significant difference. Load factor (correlation coefficient) between the HR and QT intervals was -0.965, indicating negative correlation. CONCLUSIONS: The integrated TK-TD model with linear atrioventricular first-order elimination kinetics and indirect response represents a novel mathematical method to evaluate drug-induced changes in HR and QT.

[Research advancement in mechanisms of processing and compatibility for detoxication of Aconitums].

Aconitums,represented by Aconite Radix,Aconiti Lateralis Radix Praeparata and Aconiti Kusnezoffh Folium,is a kind of traditional Chinese medicine with a long medicinal history in China. They possess the significant toxicity and therapeutic effects simultaneously. Their potent effects of rescuing from dying,curing rheumatism,anti-inflammation,and analgesia make Aconitums highly regarded by physicians and pharmacists of various dynasties. However,countless poisoning cases caused by an irrational use of Aconitums were reported. In case of improper application and exceeding the therapeutic window,the acute cardiotoxicity and neurotoxicity would be caused,seriously threatening health and even life of the users. Therefore,the clinical application of Aconitums is limited to some extent. To avoid its toxicity and ensure the safety of medicinal use,Aconitums is usually used in a form of its processed products instead of the crude herbs,or combined with some other traditional Chinese medicines in a normal prescription. A proper processing and compatibility method can detoxicate its severe toxicity,reduce the adverse reactions,and also significantly broaden the indications and application range of Aconitums. This provides a guarantee for the secondary exploitation and utilization of Aconitums. In this paper,the traditional processing methods of Aconitums,along with the modern advancement were reviewed,and the mechanisms of detoxification by processing and compatibility were also illuminated. The physical detoxification mode and chemical detoxification mode were found as two main detoxification ways for Aconitums. In particular,the detoxification by hydrolysis,ion-pair,and saponification were three main means. The mechanisms illustrated in this paper can be a reference to the development of modern processing method and a guidance for appropriate use of Aconitums in clinical application.

[Adverse reactions analysis of Aconiti Lateralis Radix Praeparata and mechanism prediction of cardiac toxicity by network pharmacology].

The aim of this paper was to provide reference for the clinical safety use of aconite through the retrieval of literature about adverse reactions,predict its mechanism of cardiac toxicity by using network pharmacology,and provide ideas for the studies on toxicity mechanism of toxic Chinese medicines. The papers on adverse reactions of aconite were searched to established a database and summarize the adverse reactions of aconite. The results of literature review showed that the main causes for adverse reactions in clinical use of aconite included overdose use,short cooking time,consumption of medicinal liquor/medicinal diet,external use and misuse and so on. Therefore,the dosage of aconite should be strictly followed in clinical application,and the decoction method should be notified to the patients in detail to avoid taking the medicinal liquor and diet containing aconite,so as to prevent the occurrence of adverse reactions as much as possible,and make the best use of aconite in clinical application in avoid its toxicity. At the same time,based on the results of literature review,the network construction and visual analysis of cardio toxicity produced by aconite were carried out by using the network pharmacology technologies. RESULTS: showed that aconite can be applied to eight biological processes such as action potential of cardiac myocytes,cardiac conduction-related cell signal transduction,cardiac myocytes contraction,action potential involved in cardiac myocytes contraction,and signal transduction from atrial myocardial cells to atrioventricular node cells,and three target genes(SCN5 A,GJA1,GJA5). It was predicted that Aconiti Lateralis Radix Praeparata may influence cardiomyocyte depolarization,intercellular information transmission and material exchange by acting on three target genes(SCN5 A,GJA1,GJA5) and regulating the sodium channel protein and the expression of gap junction protein,thus affecting the heart rhythm as well as its structure and function and causing cardiac toxicity.

Protective effect of berberine on aconite­induced myocardial injury and the associated mechanisms.

Aconitum plants, which have analgesic, diuretic and anti­inflammatory effects, have been widely used to treat various types of disease. However, the apparent toxicity of Aconitum­derived agents, particularly in the cardiovascular system, has largely limited their clinical use. Thus, the present study investigated whether berberine (Ber), an isoquinoline alkaloid, may reduce myocardial injury induced by aconitine (AC) in rats and the underlying mechanisms. Rats (n=40) were randomly divided into four groups: Control, Chuan­wu and Chuan­wu + Ber (8 and 16 mg/kg doses). Electrocardiograms (ECG) of the rats were recorded and serum biomarkers of cardiac function [lactate dehydrogenase (LDH), creatine kinase (CK) and CK­MB] were assayed. Histopathological changes were assessed using myocardial tissue sectioning and hematoxylin and eosin staining. Additionally, the effects of Ber on AC­induced arrhythmias in rats were observed. The changes in ECG following AC perfusion were observed, and the types and onset time of arrhythmias were analyzed. Furthermore, the effects of Ber and AC on papillary muscle action potentials were observed. The results suggested that Ber ameliorated myocardial injury induced by Chuan­wu, which was indicated by reduced arrhythmias and decreased LDH, CK and CK­MB levels in serum. Furthermore, histological damage, including dilation of small veins and congestion, was also markedly attenuated by Ber. In addition, the occurrence of arrhythmias was significantly delayed, and the dosage of AC required to induce arrhythmias was also increased by Ber pretreatment. Additionally, AC­induced changes in action potential amplitude, duration of 30% repolarization and duration of 90% repolarization in the papillary muscle were attenuated by Ber. All of these results indicate that Ber had a preventive effect on acute myocardial injury induced by Chuan­wu and arrhythmias caused by AC, which may be associated with the inhibition of delayed depolarization and triggered activity caused by AC. Thus, combination treatment of Ber with Aconitum plants may be a novel strategy to prevent AC­induced myocardial injury in clinical practice.

[Safety evaluation and risk control measures for Aconiti Kusnezoffii Radix].

Through the comprehensive and systematic research of domestic and overseas literature and information, we studied ancient original records on Aconiti Kusnezoffii Radix and its toxicity, analyzed related adverse cases and the animal toxicity experiments in recent years, then systematically analyzed the safety of Aconitum and its preparations, and finally we summarized the clinical characteristics and potential risk factors related to the safety of Aconitum. A report on adverse events of Aconitum in 76 patients with myocardial damage and renal damage accounting for 53.9% and 42.1% respectively, indicated that the safety problems of Aconitum may be related to heart toxicity and liver-kidney toxicity. Aconitum had complex compositions, and based on the animal experiments, Aconitum decoction had the highest toxicity at 2 h, and it reduced significantly at 4 h, which showed that the toxic components mainly depend on the hydrolysis or the decomposition degree of diester diterpenoid alkaloids. According to the toxicity study, Aconitum toxicity might occur in cardiovascular system, nervous system, kidney, embryo, reproductive system, and it was contraindicated in pregnant women. So far, specific antidote for aconitine poisoning is still a blank. The key for treatment is to correct arrhythmia timely and effectively, maintain stable vital signs, and meanwhile, give gastric lavage, intravenous fluid infusion and other therapies. So we suggest that the basic study for Aconitum toxicology should be strengthened, and the pharmacology and mechanism of toxicity, as well as the mechanism of processing for raising efficiency and reducing toxicity, should be further clarified to determine the quantity-effect relationship and eliminate safety hazards in using Aconitum.

[Study on dosage rules of Aconitum herbs in oral prescriptions based on efficacy-toxicity relation].

Based on the relation of efficacy and toxicity, this study mined the dosage rules and characteristics of Aconitum herbs in oral prescriptions from 48 traditional ancient books from Eastern Han dynasty to Qing dynasty, to provide the basis for strengthening the clinical risk pharmacovigilance. In the 48 traditional ancient books, 4 521 prescriptions with clear daily oral dosage were included to establish a database. SPSS 20.0 software was used for statistics and analysis of the daily dosage characteristics with different kinds of herbs, indications, dose forms, processing, use in special population, and other aspects. The results showed that 67% prescriptions contained Aconitum carmichaeli(Fuzi), and 90% of them was less than 14.87 g·d⁻¹; The dosage of A. carmichaeli(Chuanwu) and A. kusnezoffii(Caowu) were less than 3.14 g·d⁻¹. In the prescriptions for treating typhoid, epidemic, edema and phlegm, the dosage of Aconitum was larger. There dosage in the decoction and vinum was significantly higher than that in the pill and powder. With the dynastic evolution, the dosage of Aconitum herbal medicines prescriptions and the application percentage of superposition drug also had decreased. For the special populations that with different metabolism process, such as old people, children, pregnant and lactating women, the application of Aconitum was not only with relatively small ratio, but also with lower dose. Therefore, based on the data-mining of ancient books, the dosage of Aconitum should not exceed the limit prescribed by the current China Pharmacopoeia, and also should be strictly controlled by considering various factors, which will ensure the balance of efficacy and toxicity.

Identification of Potential Biomarkers from Aconitum carmichaelii, a Traditional Chinese Medicine, Using a Metabolomic Approach.

Despite their well-known toxicity, Aconitum species are important traditional medicines worldwide. Aconitum carmichaelii, known in Chinese as (fuzi), is an officially recognized traditional Chinese medicine with characteristic analgesic and anti-inflammatory activities, whose principal pharmacological ingredients are considered as aconitine-type diterpene alkaloids. Notwithstanding the long-recorded use of A. carmichaelii in traditional Chinese medicine, no single-entity aconitum alkaloid drug has been developed for clinical use. UPLC-Q-TOF-MS was used to investigate the marker compounds that can be used to differentiate A. carmichaelii from seven other Aconitum species collected in Yunnan Province. Nontargeted principle component analysis scores plots found that all the tested Aconitum species clustered into three distinct groups, and A. carmichaelii was significantly different chemically than the other seven species. Furthermore, the primary and lateral roots of A. carmichaelii also showed significant differences. Using orthogonal partial least squares discriminate analysis analysis, eight marker compounds were identified, including 14-acetylkarakoline, aconitine, carmichaeline, fuziline, hypaconitine, mesaconitine, neoline, and talatisamine. Four of these aconitum alkaloids, fuziline, hypaconitine, mesaconitine, and neoline, showed significant analgesic activity in a dose-dependent manner compared to the negative and positive controls. However, hypaconitine, mesaconitine, and neoline exhibited significant acute toxicity activity, while fuziline showed no acute toxicity in mice, suggesting the relative safety of this alkaloid. This study provides a good example of how to differentiate an authentic medicinal plant from common adulterants using a metabolomics approach, and to identify compounds that may be developed into new drugs.

A review of traditional and current methods used to potentially reduce toxicity of Aconitum roots in Traditional Chinese Medicine.

CONTEXT: Aconitum species are well-known for their medicinal value and high lethal toxicity in many Asian countries, notably China, India and Japan. The tubers are only used after processing in Traditional Chinese Medicine (TCM). They can be used safely and effectively with the methods of decoction, rational compatibility, and correct processing based on traditional experiences and new technologies. However, high toxicological risks still remain due to improper preparation and usage in China and other countries. Therefore, there is a need to clarify the methods of processing and compatibility to ensure their effectiveness and minimize the potential risks. OBJECT: The aim of this paper is to provide a review of traditional and current methods used to potentially reduce toxicity of Aconitum roots in TCM. MATERIALS AND METHODS: The use of Aconitum has been investigated and the methods of processing and compatibility throughout history, including recent research, have been reviewed. RESULTS AND CONCLUSIONS: Using of the methods of rational preparation, reasonable compatibility, and proper processing based on traditional experiences and new technologies, can enable Aconitum to be used safely and effectively.

Evaluation of processed borax as antidote for aconite poisoning.

ETHNOPHARMACOLOGICAL RELEVANCE: Aconite root is very poisonous; causes cardiac arrhythmias, ventricular fibrillation and ventricular tachycardia. There is no specific antidote for aconite poisoning. In Ayurveda, dehydrated borax is mentioned for management of aconite poisoning. AIM OF THE STUDY: The investigation evaluated antidotal effect of processed borax against acute and sub-acute toxicity, cardiac toxicity and neuro-muscular toxicity caused by raw aconite. MATERIALS AND METHODS: For acute protection Study, single dose of toxicant (35mg/kg) and test drug (22.5mg/kg and 112.5mg/kg) was administered orally, and then 24h survival of animals was observed. The schedule was continued for 30 days in sub-acute protection Study with daily doses of toxicant (6.25mg/kg), test drug (22.5mg/kg and 112.5mg/kg) and vehicle. Hematological and biochemical tests of blood and serum, histopathology of vital organs were carried out. The cardiac activity Study was continued for 30 days with daily doses of toxicant (6.25mg/kg), test drug (22.5mg/kg), processed borax solution (22.5mg/kg) and vehicle; ECG was taken after 1h of drug administration on 1TB, 15th and on 30th day. For neuro-muscular activity Study, the leech dorsal muscle response to 2.5µg of acetylcholine followed by response of toxicant at 25µg and 50µg doses and then response of test drug at 25µg dose were recorded. RESULTS: Protection index indicates that treated borax gave protection to 50% rats exposed to the lethal dose of toxicant in acute protection Study. Most of the changes in hematological, biochemical parameters and histopathological Study induced by the toxicant in sub-acute protection Study were reversed significantly by the test drug treatment. The ventricular premature beat and ventricular tachyarrhythmia caused by the toxicant were reversed by the test drug indicate reversal of toxicant induced cardio-toxicity. The acetylcholine induced contractions in leech muscle were inhibited by toxicant and it was reversed by test drug treatment. CONCLUSION: The processed borax solution is found as an effective protective agent to acute and sub-acute aconite poisoning, and aconite induced cardiac and neuro-muscular toxicity. Processed borax at therapeutic dose (22.5mg/kg) has shown better antidotal activity profile than five times more than therapeutic dose (112.5mg/kg).

Establishment of one-step approach to detoxification of hypertoxic aconite based on the evaluation of alkaloids contents and quality.

Aconite is a valuable drug and also a toxic material, which can be used only after detoxification processing. Although traditional processing methods can achieve detoxification effect as desired, there are some obvious drawbacks, including a significant loss of alkaloids and poor quality consistency. It is thus necessary to develop a new detoxification approach. In the present study, we designed a novel one-step detoxification approach by quickly drying fresh-cut aconite particles. In order to evaluate the technical advantages, the contents of mesaconitine, aconitine, hypaconitine, benzoylmesaconine, benzoylaconine, benzoylhypaconine, neoline, fuziline, songorine, and talatisamine were determined using HPLC and UHPLC/Q-TOF-MS. Multivariate analysis methods, such as Clustering analysis and Principle component analysis, were applied to determine the quality differences between samples. Our results showed that traditional processes could reduce toxicity as desired, but also led to more than 85.2% alkaloids loss. However, our novel one-step method was capable of achieving virtually the same detoxification effect, with only an approximately 30% alkaloids loss. Cluster analysis and Principal component analysis analyses suggested that Shengfupian and the novel products were significantly different from various traditional products. Acute toxicity testing showed that the novel products achieved a good detoxification effect, with its maximum tolerated dose being equivalent to 20 times of adult dosage. And cardiac effect testing also showed that the activity of the novel products was stronger than that of traditional products. Moreover, particles specification greatly improved the quality consistency of the novel products, which was immensely superior to the traditional products. These results would help guide the rational optimization of aconite processing technologies, providing better drugs for clinical treatment.

The water extract of Veratrilla baillonii could attenuate the subacute toxicity induced by Aconitum brachypodum.

BACKGROUND: Aconitum brachypodum Diels (Family Ranunculaceae) is a Chinese ethnodrug and is well known for both its therapeutic application and high toxicity. However, no detoxication strategy is available for the complete elimination of the toxicity of Aconitum plants. Veratrilla baillonii Franch is believed to possess antitoxic effects on the toxicity induced by Aconitum plants and has been clinically used for hundreds of time by Naxi and Lisu nationalities in Yunnan Province of China. To further address the mechanism of the detoxication of Veratrilla baillonii, the effect of water decoction of Veratrilla baillonii (WVBF) on subacute toxicology of SD rats induced by Aconitum brachypodum (CFA), a genus Aconitum, was determined and studied in the present work. METHODS: The clinical behavior and number of survivors for different dosage of WVBF (25, 50, 100mg/kg) on CFA (4mg/kg) induced rats were observed until day 28. Histological changes and haematological parameters were evaluated. Moreover, Na+-K+-ATPase pathway in heart as well as key enzymes in liver were determined to further discuss the mechanism. RESULTS: The results showed that the exposure of CFA led to some subacute toxicity to rats, especially male ones, accompanied with abnormality of serum biochemical index in rats' serum. The toxicological target organs of CFA may be the heart, liver, kidney and brain. It is demonstrated that WVBF could attenuate the toxicity induced by Aconitum brachypodum via promoting the metabolic enzymes CYP3A1 and CYP3A2 in liver, downregulating the expression of Sodium/Calcium exchanger 1 (NCX1) and SCN5A sodium channal mRNA, and inducing Na+/K+-ATPase activity in heart. This study provides insights into detoxifying measures of Aconitum plants. CONCLUSIONS: Aconitum brachypodum may lead to subacute toxicity of rats after long term of administration, and the toxicity could be attenuated by Veratrilla baillonii via promoting the metabolic enzymes in liver, downregulating the expression of NCX1 and SCN5A mRNA, and inducing Na+/K+-ATPase activity in heart.

[Establishment of biological assess for quality control of Fuzi based on determination of premature ventricular contractions in rats].

Aconiti Lateralis Radix (Fuzi) is a toxic traditional Chinese medicine with definite efficacy. In order to improve the quality control of its different prepared products and ensure the security in clinic, it is significant to establish a method of quality evaluation related to clinic adverse effects. Aiming at the important biological marker of early cardiac toxicity reaction, there was no method to detect it. In this manuscript, a novel approach for measuring the minimal toxic dose (MTD) of premature ventricular contractions (PVC) poisoning of rats was established. Then, the determination methodology and conditions were optimized to meet the needs of the quality and biological assessment, including animal sex, weight, stability of standards and test solutions. Using this method, the MTD value of different Fuzi products were determined, such as Heishunpian, Baifupian, Zhengfupian, Baofupian, and Paotianxiong. The results showed that the MTD of Fuzi was significantly decreased after detoxification processed (P<0.05) and the MTD of Heishunpian, Zhengfupian, Baofupian and Baifupian was as much as 15.76, 22.36, 19.65 and 20.97 times to that of unprocessed Shengfuzi. In addition, Paotianxiong could not induce PVC in rats, which indicated that Paotianxiong was nontoxic and safe.This method could appropriately reflects the cardiotoxity of Fuzi and its prepared samples. Together with the chemical composition analysis, the contents of diester alkaloids were explored including aconitine, mesaconitine and hypaconitine as well as monoester alkaloids in Fuzi and its prepared products were significantly associated with PVC. Furthermore, there may be some components undetermined facilitating arrhythmia to be worth exploring. This research provides an overall and comprehensive approach to diagnose early clinical cardiotoxity and control the quality of Fuzi, which could not only be a complementary solution for the chemical evaluation, but a new method to ensure its efficacy and security of clinical application.

UPLC-Q-TOF/MS-based metabolomic studies on the toxicity mechanisms of traditional Chinese medicine Chuanwu and the detoxification mechanisms of Gancao, Baishao, and Ganjiang.

Chuanwu (CW), a famous traditional Chinese medicine (TCM) from the mother roots of Aconitum carmichaelii Debx.. (Ranunculaceae), has been used for the treatment of various diseases. Unfortunately, its toxicity is frequently reported because of its narrow therapeutic window. In the present study, a metabolomic method was performed to characterize the phenotypically biochemical perturbations and potential mechanisms of CW-induced toxicity. Meanwhile, the expression level of toxicity biomarkers in the urine were analyzed to evaluate the detoxification by combination with Gancao (Radix Glyeyrrhizae, CG), Baishao (Radix Paeoniae Alba, CS) and Ganjiang (Rhizoma Zingiberis, CJ), which were screened from classical TCM prescriptions. Urinary metabolomics was performed by UPLC-Q-TOF-HDMS, and the mass spectra signals of the detected metabolites were systematically analyzed using pattern recognition methods. As a result, seventeen biomarkers associated with CW toxicity were identified, which were associated with pentose and glucuronate interconversions, alanine, aspartate, and glutamate metabolism, among others. The expression levels of most toxicity biomarkers were effectively modulated towards the normal range by the compatibility drugs. It indicated that the three compatibility drugs could effectively detoxify CW. In summary, our work demonstrated that metabolomics was vitally significant to evaluation of toxicity and finding detoxification methods for TCM.

[Investigating mechanism of toxicity reduction by combination of Glycyrrhizae Radix et Rhizoma and Aconiti Lateralis Radix Preparata on terms of proteins self-assembly].

The combination of Glycyrrhizae Radix et Rhizoma and Aconiti Lateralis Radix Preparata can increase efficacy and decrease toxicity. This study started from the phenomena of protein self-assembly in the mixed decoction of Glycyrrhizae Radix et Rhizoma with Aconiti Lateralis Radix Preparata. The attenuated mechanism was explored between the combination of Glycyrrhizae Radix et Rhizoma and Aconiti Lateralis Radix Preparata by using the protein of Glycyrrhizae Radix et Rhizoma and aconitine which was the major toxic component of Aconiti Lateralis Radix Preparata. Glycyrrhizae Radix et Rhizoma protein with aconitine could form stable particles which particle mean diameter was (206.2 ± 2.02) nm and (238.20 ± 1.23) nm at pH 5.0 in normal temperature. Through the mouse acute toxicity experiment found that injection of aconitine monomer all mice were killed, and injection of Glycyrrhizae Radix et Rhizoma protein-aconitine particles with the same content of aconitine all mice survived. Survey the stability of Glycyrrhizae Radix et Rhizoma protein-aconitine shows that the colloid particles is stable at room temperature, and it has the possibility to candidate drug carrier. Glycyrrhizae Radix et Rhizoma protein can reduce the toxicity of aconitine through self-assembly.

[Study on intersection and regulation mechanism of "efficacy-toxicity network" of aconite in combination environment of Sini decoction].

OBJECTIVE: To explore the intersection and regulation mechanism of "efficacy-toxicity network" of Glycyrrhizae Radix et Rhizoma, Zingiberis Rhizoma and Aconiti Lateralis Radix Praeparata's action gene in the combination environment of Sini decoction with the network pharmacological method. METHOD: The gene interaction network of Aconiti Lateralis Radix Praeparata, Glycyrrhizae Radix et Rhizoma, Zingiberis Rhizoma were mined and established with Cytoscape software and Agilent literature search plug-in. The "efficiency-toxicity network" intersection of Aconiti Lateralis Radix Praeparata was formed according to its effects in anti-heart failure, neurotoxicity and cardiotoxicity. The target genes were clustered with Clusterviz plug-in. And the possible pathways of the "efficacy-tox- icity network" intersection of Glycyrrhizae Radix et Rhizoma, Zingiberis Rhizoma and Aconiti Lateralis Radix Praeparata were forecasted in DAVID database. RESULT: There were five genes related to neurotoxicity, cardiotoxicity and anti-heart failure function of Aconiti Lateralis Radix Praeparata, namely AKT1, BAX, HCC, IL6 and IL8, which formed 47 nodes genes in the "efficiency-toxicity network" intersection of Aconiti Lateralis Radix Praeparata. There were 29 and 27 coincident genes in the "efficiency-toxicity network" of Glycyrrhizae Radix et Rhizoma, Zingiberis Rhizoma and Aconiti Lateralis Radix Praeparata. There were 23 and 17 possible regulatory pathways. CONCLUSION: In the combination environment of Sini decoction, Glycyrrhizae Radix et Rhizoma and Zingiberis Rhizoma may regulate the efficiency-toxicity network of Aconiti Lateralis Radix Praeparata by influencing immune-inflammatory signaling pathway, apoptosis-autophagy signaling pathway, nerve cell and myocardial ischemia and hypoxia protection signaling pathways.

Important poisonous plants in tibetan ethnomedicine.

Tibetan ethnomedicine is famous worldwide, both for its high effectiveness and unique cultural background. Many poisonous plants have been widely used to treat disorders in the Tibetan medicinal system. In the present review article, some representative poisonous plant species are introduced in terms of their significance in traditional Tibetan medicinal practices. They are Aconitum pendulum, Strychnos nux-vomica, Datura stramonium and Anisodus tanguticus, for which the toxic chemical constituents, bioactivities and pharmacological functions are reviewed herein. The most important toxins include aconitine, strychnine, scopolamine, and anisodamine. These toxic plants are still currently in use for pain-reduction and other purposes by Tibetan healers after processing.