Characteristic identification of Sophorae Flavescentis Radix and Sophorae Tonkinensis Radix et Rhizoma based on HPTLC-ESI-MS / 药学学报

Sophorae Flavescentis Radix is the dried root of Sophora flavescens Ait. and Sophorae Tonkinensis Radix et Rhizoma is the dried root and rhizome of Sophora tonkinensis Gagnep. The two drugs are both from the same genus Sophora, having similar and different compositions and efficacies, however, their differences are not fully demonstrated in current standard. In this study, the high-performance thin-layer chromatography with multi-dimensional and multi-level features combined with electric spray mass spectrometry (HPTLC-ESI-MS) was used to discover and identify the characteristic zones in extracts of Sophorae Flavescentis Radix and Sophorae Tonkinensis Radix et Rhizoma, after optimizing the preparation method of the test solution and chromatographic parameters. As a result, 17 main characteristic zones were found on HPTLC chromatograms of Sophorae Flavescentis Radix and Sophorae Tonkinensis Radix et Rhizoma, among them, besides 3 known chemicals, another 12 unknown components were identified by HPTLC-ESI-MS, they are 1 alkaloid and 11 flavonoids. The identification results were verified by the reference standards partially and nuclear magnetic resonance spectra after guided-isolation. Finally, a unified HPTLC specific identification method with different markers was established to identify Sophorae Flavescentis Radix and Sophorae Tonkinensis Radix et Rhizoma simultaneously. Thanks to abundant chemical information provided when using diverse polarity mobile phases and derivatization reagents, the HPTLC technology offers a convenient strategy for discovery, quality evaluation, and identification of target chemicals when connecting with mass spectrometry.

Toxicity and Mechanism of Alkaloids in Sophorae Tonkinensis Radix et Rhizoma： A Review / 中国实验方剂学杂志

Sophorae Tonkinensis Radix et Rhizoma （STRER） is a commonly used Chinese medicine in clinical practice， which has the effects of clearing heat， removing the toxin， alleviating edema， and relieving sore throat. In recent years， the clinical reports of STRER-induced poisoning have gradually increased， with neurotoxicity and hepatotoxicity as the main characteristics of the acute attack. Timely treatment will lead to the good prognosis， but long-term or high-dose administration will cause irreversible damage. Therefore， the safety of clinical use of STRER should be highlighted. The chemical components in STRER mainly include alkaloids， flavonoids， triterpenoids， triterpenoid saponins， and polysaccharides， as well as small amounts of proteins， organic acids， and trace elements， where alkaloids both serve as the important material basis for the pharmacodynamic action and the main substances causing toxicity. The adverse events induced by STRER and its alkaloids include nerve injury, Hepatic injury, cardiovascular injury, kidney injury and reproductive injury， and gastrointestinal reaction. Quinolizidine alkaloids are the main toxic components， mainly including matrine， oxymatrine， cytisine， sophocarpine， oxysophocarpine， sophoridine， sophoramine， and lehmannine. Many studies have been carried out on the toxicity of different extracts and alkaloids of STRER in China and abroad， but there are no comprehensive and detailed reports on the toxicity mechanism of alkaloids in STRER. As a Chinese medicine， STRER is widely used. It's an urgent problem to clarify the material basis and mechanism of toxicity caused by STRER and reduce the toxicity for good clinical application. The present study reviewed the components of alkaloids， toxicity， and toxic mechanism of extracts and alkaloids in STRER to provide the basis for further development and clinical safe and effective application of STRER.

Visual analysis of research progress of Sophorae Tonkinensis Radix et Rhizoma based on CiteSpace / 中国中药杂志

To analyze the study advance of Sophorae Tonkinensis Radix et Rhizoma, this study utilized CiteSpace 5.6.R5 software to conduct bibliometrics analysis on the Chinese literatures of Sophorae Tonkinensis Radix et Rhizoma from 1990 to 2020 included in the CNKI database retrieval platform. The analysis contents involved the number of published papers, co-authors, cooperative institutions, emergence, co-occurrence and clustering of keywords. A total of 808 Chinese literatures were included in the study, of which 17 were published by SUN Rong, the author with the most published papers, and formed a research team centered on SUN Rong; the analysis of the cooperation of publishing institutions showed that the Drug Safety Evaluation Research Center, Shanghai University of Traditional Chinese Medicine was the organization with the largest number of publications, with a total of 29 articles. It also formed a scientific research coorperation institution with Shandong Academy of Traditional Chinese Medicine as the core, and formed a relatively close cooperative network relationship. The analysis of literature keywords showed that the research direction was concentrated on the traditional Chinese medicine of Sophorae Tonkinensis Radix et Rhizoma, pharmacological mechanism, and side effects, active ingredients, etc. Among them, the research on the efficacy and toxicity of the active ingredients of Sophorae Tonkinensis Radix et Rhizoma has become a hot trend.

Mechanism of Ethanol Extracts from Sophorae Tonkinensis Radix et Rhizoma on Hypertrophic Scars of Rabbit Ears Through TGF-β1/Smad Pathway / 中国实验方剂学杂志

Objective:To investigate that the effect of ethanol extracts from Sophorae Tonkinensis Radix et Rhizoma on the expression of transforming growth factor-β1 (TGF-β1)and Smad3 in the hypertrophic scars of rabbit ears and elucidate its mechanism to improve hypertrophic scars. Method:The model of hypertrophic ear scar model was established by damaging the inner skin of ears in New Zealand white rabbits.The 49 rabbits were randomly divided into control group, model group, low, medium and high-dose ethanol extracts groups from Sophorae Tonkinensis Radix et Rhizoma (0.4，1.0，2.0 g·kg-1), asiaticoside ointment group(5 mg·kg-1) and compound heparin sodium allantoin gel group(20 mg·kg-1), 7 rabbits per group. Except control group, the different drug about 0.5 mL had been applied the hypertrophic scar of rabbit ears once a day. After 42 days, the tissues of hypertrophic scar were obtained. Hematoxylin-eosin（HE）staining was used to observe the pathological changes of rabbit ear scar tissue and determine the scar hyperplasia index. The expression of TGF-β1 and Smad3 in scar tissue of rabbit ears were detected by immunohistochemistry, Western blot and reverse transcription PCR（RT-PCR）. Result:Compared with control group, the pathological changes of the ear scars in the model group showed obvious hyperplasia and higher hyperplasia index (P<0.01). Meanwhile, the expressions of TGF-β1 and Smad3 in scar tissue of rabbit ears were significantly increased (P<0.01). Compared with model group, the pathological structures of the ear scar tissue were significantly improved and the hyperplasia index of ear scar tissue was clearly reduced in medium and high-dose groups of ethanol extracts from Sophorae Tonkinensis Radix et Rhizoma(P<0.05，P<0.01). The protein and mRNA expression of TGF-β1 and Smad3 in scar tissue were also decreased in different group of ethanol extracts from Sophorae Tonkinensis Radix et Rhizoma compared with the model group (P<0.05，P<0.01). Conclusions:Ethanol extracts from Sophorae Tonkinensis Radix et Rhizoma may play a curative role in inhibiting hypertrophic scars by reducing the expression of TGF-β1 and Smad3 in scar tissue and inhibiting the TGF-β1/Smads signal transduction pathway. These provides the experimental basis for the clinical application of Sophorae Tonkinensis Radix et Rhizoma in the treatment of hypertrophic scars.

Phenylpropanoid glycosides from Sophorae Tonkinensis Radix et Rhizoma / 中国中药杂志

Three phenylpropanoid glycosides were purified by extensive chromatographic techniques including column chromatography over microporous resin, MCI, diol, sephadex LH-20, reverse phase C_(18) from water-extracts of Sophorae Tonkinensis Radix et Rhizoma. Their planar structures were elucidated by combination of various spectroscopic method, such as IR, UV, MS, and NMR. The absolute configuration of aglycone was determined by quantum chemical calculations. Their structures were elucidated as(8R)-3-(4-hydroxyphenyl)-1-propanol-2-O-β-D-glucopyranoside(1), kalopanaxin D(2),(E)-4-hydroxycinnamyl alcohol 4-O-[2'-O-β-D-apiofuranosyl(1″→2')]-β-D-glucopyranoside(3). Compound 1 was undescribed previously. Compounds 2 and 3 were firstly isolated from Sophora genus.

Discussion and consideration on safety of Sophorae Tonkinensis Radix et Rhizoma and its rational use / 中草药

Sophorae Tonkinensis Radix et Rhizoma is known as the important drug for treating sore throat and is widely used in clinic. Because of the coexisting of its efficacy and poison, Sophorae Tonkinensis Radix et Rhizoma often leads to a series of safety problems in the clinical application process. In this study, we attempt to analyze the ultimate cause of the toxicity of Sophorae Tonkinensis Radix et Rhizoma by reviewing nearly 20 years of literature, discuss the substance of its efficacy/toxicity from the point of view of chemical composition, and put forward exploratory thinking on its clinical rational application.

Pharmacological effect and toxicology of Sophorae Tonkinensis Radix et Rhizoma / 中国中药杂志

Sophorae Tonkinensis Radix et Rhizoma, which has been commonly used in clinic, shows activities in antitumor, antivirus, antibacteria, analgesia, anti-inflammation, anti-liver injury, anti-oxidation and immune enhancement, but can cause liver toxicity, neurotoxicity, gastrointestinal toxicity and respiratory toxicity. Its pharmacological effect and toxicity are related to extraction process, dosage and administration time. Therefore, exploration of appropriate extraction process, toxicity-effect dosage range, toxic substance basis provides guarantee for attenuation and safe clinical medication.

Simultaneous determination of seven alkaloids and three flavonoids in Sophorae Tonkinensis Radix et Rhizoma by HPLC / 中国中药杂志

In this study, an HPLC method was developed for simultaneous determination of seven alkaloids (cytosine, oxymatrine, N-oxysophocarpine, N-methylcytisine, sophoranol, matrine, and sophocarpine) and three flavonoids (trifolirhizin, fermononetin, and maackiain) from different samples of Sophorae Tonkinensis Radix et Rhizoma. Samples were analyzed on a Welch XtimateTM C₁₈ column (4. 6 mm× 250 mm, 5 μm) eluted with the mobile phase of acetonitrile (A) and 0.01 mol•L⁻¹ ammonium acetate solution (pH 8.0) (B) in a linear gradient mode as follows: 0-20 min,4%-14% A;20-30 min,14%-25% A;30-45 min,25%-40% A;45-65 min,40%-55% A;65-75 min,55% A. The flow rate of the mobile phase, the column temperature, and the PDA detector wavelength were set at 1.0 mL•min⁻¹, 30 ℃, and 225 nm, respectively. For the method validation, these ten compounds showed good separation and satisfactory linearity (r≥0.999 7) within the concentration ranges tested. The mean recoveries were in the range of 98.60% to 102.6% with the RSD (n=6) between 0.60% and 3.7%. This method was proved to be simple, accurate and repeatable. The quantitative results showed that there were significant differences in the contents of seven alkaloids and three flavonoids among the different samples. This result revealed that the quality of Sophorae Tonkinensis Radix et Rhizoma varied widely. This method could be used for the simultaneous determination of the multi-ingredients from Sophorae Tonkinensis Radix et Rhizoma, which might provide scientific evidences to evaluate/control the quality of Sophorae Tonkinensis Radix et Rhizoma, comprehensively.