1.Cell culture and identification of pericytes in rat brain.
Qiang LI ; Wen-yan LI ; Bo LI ; Yu-xing HUANG ; An-yong YU ; Hong-fei GE ; Yun-feng YANG ; Rong HU ; Huai-zhen RUAN ; Guo-cai WU ; Wei-hua TANG ; Hua FENG
Chinese Journal of Pathology 2013;42(8):551-553
3.Exploration of the Suitable Culture Conditions for Extracellular Microvesicles Derived from Human Mesenchymal Stem Cells.
Bo WU ; Xiao-Yun BI ; Huai-Sun LU ; Hai-Yong ZHU ; Zheng-Dong MA ; Hai TANG
Journal of Experimental Hematology 2020;28(4):1363-1366
OBJECTIVE:
To explore the appropriate procedures for preparing extracellular microvesicles (MV) derived from human mesenchymal stem cells (MSC).
METHODS:
Human MSCs from umbilical cords were cultured in a serum-free medium and maintained in a basal medium for 72 hours after the cell confluence reached to 80%. The supernatants of cultured cells were collected and MVs were enriched. MVs were identified by flow cytometry and electron microscopy. The total protein amount in MVs was used as a parameter for the content of MVs. The supernatants were adjusted to different pH values, and the output of MVs was detected. The supernatants were also collected for enriching the MV and detecting the protein content of MV after the cells were maintained in the basic medium for different time.
RESULTS:
Flow cytometric analysis showed that the MVs expressed CD9, CD63 and CD81, morphologically presented round under an electron microscope and the diameter of MV was around 100 nm. After enrichment of MV, the protein content of MVs in the supernatants was 416.8±128.1, 255.4±77.9 and 142.8±46.4 μg per 10 MSC,respectively at pH of supernatant 3, 7 and 9 (P<0.05). The protein content of the supernatants per 10 MSC was 173.6±44.5, 262.4±49.6 and 364.2±37.8 μg respectively after starvation culture for 48, 72 and 96 hrs (P<0.05).
CONCLUSION
MVs can be readily collected after MSCs were starved for 96 hours, and the pH of the supernatants is adjusted at 3.0.
Cell-Derived Microparticles
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Cells, Cultured
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Flow Cytometry
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Humans
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Mesenchymal Stem Cells
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Umbilical Cord
4.Exploring the mechanism of Buxue Yimu Pill on hemorrhagic anemia through molecular docking, network pharmacology and experimental validation.
Yan XIONG ; Xu-Yuan CAO ; Bo-Yu LIU ; Yong-Qi DAI ; Heng-Jun ZHOU ; Juan-Juan HE ; Yun GONG ; Xue-Wen WU ; Huai-Bo TANG
Chinese Journal of Natural Medicines (English Ed.) 2021;19(12):900-911
Buxue Yimu Pill (BYP) is a classic gynecological medicine in China, which is composed of Angelica sinensis (Oliv.) Diels, Leonurus japonicus Houtt, Astragalus membranaceus (Fisch.) Bunge, Colla corii asini and Citrus reticulata Blanco. It has been widely used in clinical therapy with the function of enriching Blood, nourishing Qi, and removing blood stasis. The current study was designed to determine the bioactive molecules and therapeutic mechanism of BYP against hemorrhagic anemia. Herein, GC-MS and UPLC/Q-TOF-MS/MS were employed to identify the chemical compounds from BYP. The genecards database (https: //www.genecards.org/) was used to obtain the potential target proteins related to hemorrhagic anemia. Autodock/Vina was adopted to evaluate the binding ability of protein receptors and chemical ligands. Gene ontology and KEGG pathway enrichment analysis were conducted using the ClusterProfiler. As a result, a total of 62 candidate molecules were identified and 152 targets related to hemorrhagic anemia were obtained. Furthermore, 34 active molecules and 140 targets were obtained through the virtual screening experiment. The data of molecular-target (M-T), target-pathway (T-P), and molecular-target-pathway (M-T-P) network suggested that 32 active molecules enhanced hematopoiesis and activated the immune system by regulating 57 important targets. Pharmacological experiments showed that BYP significantly increased the counts of RBC, HGB, and HCT, and significantly down-regulated the expression of EPO, IL-6, CSF3, NOS2, VEGFA, PDGFRB, and TGFB1. The results also showed that leonurine, leonuriside B, leosibiricin, ononin, rutin, astragaloside I, riligustilide and levistolide A, were the active molecules closely related to enriching Blood. In conclusion, based on molecular docking, network pharmacology and validation experiment results, the enriching blood effect of BYP on hemorrhagic anemia may be associated with hematopoiesis, anti-inflammation, and immunity enhancement.
Anemia/drug therapy*
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Drugs, Chinese Herbal
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Humans
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Molecular Docking Simulation
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Network Pharmacology
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Tandem Mass Spectrometry
5.Preparation and quality standard of standard decoction of Scrophulariae Radix pieces.
Hong-Bo XU ; Chun-Hui GAO ; Xing-Hang CAI ; Kang YANG ; Yu ZHANG ; Juan-Juan WANG ; Huai-Li XU ; Lu ZHANG ; Su-Yun CHEN ; Zhi-Shu TANG
China Journal of Chinese Materia Medica 2019;44(12):2493-2498
The standard decoction of Chinese herbal decoction pieces is a standard reference substance to measure whether different dosage forms of Chinese medicine are basically consistent with those of clinical decoction,and provides new ideas and methods for effectively solving the problems of uneven quality in Chinese medicine dispensing granules. In this study,a systematic method for evaluating the quality of Scrophulariae Radix decoction was established from the perspective of " standard decoction",providing reference for the quality control of the Scrophulariae Radix dispensing granules. 15 batches of Scrophulariae Radix decoction pieces from different origins were collected,and 15 batches of standard decoctions were prepared according to the standardized process with water as solvent.Harpagide and harpagoside were used as quantitative detection indicators to determine the content,calculate the transfer rates and determine the extraction rate. The high performance liquid chromatography( HPLC) was used to establish a standard decoction fingerprint analysis method. The results showed that the transfer rates of harpagide and harpagoside in 15 batches of Scrophulariae Radix pieces standard decoction were( 70. 84±13. 39) % and( 48. 56±6. 40) % respectively; the extraction rate was( 57. 47±5. 89) %. Nine peaks were identified in the HPLC fingerprint,and the similarity was higher than 0. 97 between the fingerprints of 15 batches of standard decoction and the control fingerprint. In this study,the preparation process of standard decoction of Scrophulariae Radix pieces conformed to the traditional decoction preparation method. The sources of the samples were representative,and the established fingerprint method was stable and feasible,which can provide reference for the preparation and quality control of Scrophulariae Radix dispensing granules.
Chromatography, High Pressure Liquid
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Drugs, Chinese Herbal
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standards
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Plant Roots
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chemistry
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Quality Control
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Scrophularia
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chemistry
6.Analysis on prevalence and epidemic risk of animal plague in different ecological plague foci in Inner Mongolia Autonomous Region.
Bo Xi LIU ; Ran DUAN ; Hao Hui WANG ; Da Yu ZHANG ; Shuai QIN ; Hong Yan LUO ; Jun LIU ; Jun Rong LIANG ; De Ming TANG ; Huai Qi JING ; Jian WANG ; Xin WANG
Chinese Journal of Preventive Medicine 2022;56(1):9-14
The risk of plague epidemics and relapse of various types of plague foci persists in Inner Mongolia Autonomous Region. For Marmota sibirica plague foci, the animal plague has not been found but antibody has been detected positive. Nowadays, Marmota sibirica has been increasing in population and distribution in China. In bordering countries Mongolia and Russia, the animal plague has been continuously prevalent. For Spermophilus dauricus plague foci, the animal plague has been taken place now and then. Compared to the above foci, the animal plague is most prevalent in Meriones unguiculatus plague foci and frequently spread to humans. Due to higher strain virulence and historical disaster in Marmota sibirica plague foci and Spermophilus dauricus plague foci, plague prevention and control should be strengthened on these foci. In addition to routine surveillance, epidemic dynamics need to be further monitored in these two foci, in order to prevent their relapse and spread to humans.
Animals
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China/epidemiology*
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Epidemics
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Humans
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Plague/prevention & control*
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Prevalence
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Sciuridae
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Yersinia pestis