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AIM: To investigate the effects of isonlosinine on proliferation, invasion, migration and autophagy of PC9 cells in non-small cell lung cancer (NSCLC), and to explore its possible molecular mechanism. METHODS: The effect of Isoliensinine on the proliferation of PC9 cells were measured by CCK-8 assay, and the IC50 value of PC9 cells was calculated. Wound healing and transwell experiments were used to study the effect of Isoliensinine on migration and invasion of PC9 cells in vitro, respectively. The formation of autophagosome was observed with acridine orange staining under fluorescence microscope. The expression levels of LC3, pERK and ERK in the PC9 cells were determined by western blot. RESULTS: Isonlosinine significantly inhibited the proliferation of PC9 cells. IC50 of isonlosinine (24 h) for the PC9 cells was 34.11 µmol / L. Isonlosinine significantly inhibited cell migration and invasion of PC9 cells. The results of acridine orange fluorescent staining showed that the number of the intracellular acid dye follicular bright red fluorescence in PC9 cells was significantly increased after isonlosinine treatment, while the autophagic lysosomes were rarely observed in control group. The expression of LC3-II in PC9 cells was significantly enhanced after isonlosinine treatment. Furthermore, molecular mechanism study showed that isonlosinine could activate the expression level of p-ERK. CONCLUSION: Isoliensinine significantly inhibits the proliferation, migration and invasion, and induces autophagy of PC9 cells, which may be correlated with the activation of ERK signaling pathway.
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The coronavirus disease 2019 (COVID-19), originated in Wuhan city, Hubei Province, China in December 2019, and then quickly spread to most provinces and regions in China and even spread to many countries abroad. COVID-19 is characterized by wide epidemic, strong infectivity, rapid onset and critical condition. In the face of this epidemic, all parts of the country quickly set off a peak in the fight against COVID-19, but no effective drug for COVID-19 has been developed in the short term. Recently, many hospitals have combined traditional Chinese medicine with western medicine in treatment, and the clinical effect is remarkable, which proves the antiviral effect of traditional Chinese medicine. A large number of pharmacological and clinical studies have proved that the Chinese materia medica S. flavescens has significant antiviral effect. In this paper, the mechanism of anti-coronavirus effect of S. flavescens is expounded from multiple pathways, such as type I interferon, NF-κB signal pathway, ERK signal pathway, PI3K/Akt signal pathway and matrine alkaloids, etc. It is intended to provide reference for clinical treatment of coronavirus infection pneumonia and research and development of related drugs of S. flavescens.
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Objective To study the role of ERK signal pathway in the endochondral ossification of bone mesenchymal stem cells ,and to explore the mechanism of ERK signal pathway in persistent enhanced FGFR2 function on development of mice BMSCs by a knock‐in mouse model with the FGFR2S252W/+ .Methods Mice with neo‐FGFR2 gain‐of‐function mutation were mated with EII‐Cre mice .The genotype of generation mice were identified by PCR and divided into wild type group and mutant type group ac‐cording to their genotype .6 week‐old mice were sacrificed to receive bone mesenchymal stem cells .The western blot was used to compare the level of P‐ERK and ERK and the RT‐PCR was applied to detect the genes of Col2 ,Col10 ,OC ,OP in chondrogenic dif‐ferentiation medium of BMSCs .Then ,treatment of cultured BMSCs with PD98059 ,compare the changes of genes and utilize the in vitro culture of long bones detect the role of ERK signal pathway in the endochondral ossification by FGFR2 mutant .Results We successfully derive BMSCs from FGFR2S252W/+ mutant mice and found the activity of ERK signal pathway of FGFR2S252W/+ was en‐hanced .After been cultured in chondrogenic differentiation medium ,the expressions of the BMSCs mRNA of Col2 ,Col10 from mu‐tant group were decreased ,while the expressions of OC ,OP were increased .Those OC ,OP genes levels showed an increased treated by PD98059 .Using in vitro culture of long bones ,we found the retardation of total length growth of long bones has been rescued by PD98059 treatment ,suggesting that ERK signal pathways was responsible for the retarded long bone development in FGFRS252W/+mice .Conclusion The results indicate these effects are mediated by the ERK signal pathway .Furthermore ,the retardation of long bones has been recued by PD98059 treatment ,suggesting that ERK signal pathway is responsible for the retarded long bone devel‐opment in FGFR2S252W/+ mice .
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OBJECTIVE:To study the mechanism of autophagy of HeLa cell in human cervical cancer induced by fucoxanthin. METHODS:MTT was adopted to determine the cell activity and calculate the inhibition rate after HeLa cells were cultured by 1, 10,20,40 and 80 μmol/L of fucoxanthin for 48 h. Flow cytometry was used to determine the cell cycle and apoptosis rate after HeLa cells were cultured by 0(blank control),10,20 and 40 μmol/L of fucoxanthin for 48 h;acridine orange staining,LysoTrack-er Red staining,HeLa-GFP-LC3 method and fluorescence microscope were used to observe the autophagy state;Western blot was used to determine the expressions of proteins related to autophagy. RESULTS:The cells had obvious inhibition effect on the cell growth after being cultured by 0,10,20,40 and 80 μmol/L of fucoxanthin. The cell was blocked in G0/G1 stage after being cul-tured by 10,20 and 40μmol/L of fucoxanthin,and had no obvious effect on the apoptosis rate;autophagy degree was increased af-ter the cells were cultured by 40 μmol/L fucoxanthin for 48 h. Compared with blank control,40 μmol/L fucoxanthin could promote LC3Ⅰ transferring into LC3Ⅱ and the expressions of Beclin-1,PTEN,p21;and inhibit the phosphorylation of p-Akt,p-p70S6K and p-mTOR. The pre-treatment by autophagy inhibitor 3-methyladenine(5 mmol/L)could reverse the autophagy of HeLa cells in-duced by fucoxanthin;U0126 could partly reverse the autophagy of HeLa cells induced by fucoxanthin. CONCLUSIONS:Fucoxan-thin can induce the authphagy of HeLa cells by inhibiting Akt signaling pathway and activating MEK/ERK signaling pathway.
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Objective To investigate the changes in molecule levels of Ras-ERK signal pathway of K562 cells treated with simvastatin in vitro,and to illustrate that simvastatin inducing the changes in molecule levels of Ras- ERK signal pathway is involved in regulation of proliferation and apoptosis of K562 cells. Methods K562 cells,the chronic myelocytic leukemia(CML) cell lines,were cultured and treated with simvastatin in vitro and proliferation activity of K562 cells was detected by MTT. The changes of apoptosis rate and cell cycle of K562 cells were measured by flow cytometry(FCM). The molecular changes of Ras-ERK signal pathway were analyzed by RT- PCR in transcriptional level. Results The proliferation of K562 cells was inhibited by simvastatin,and G_0-G_1 arrested in K562 cells and significant apoptosis rate was observed with FCM. Most molecules of Ras- ERK signal pathway expressed differentially at transctiptional level. Conclusion Simvastatin probablely inhibit proliferation and induces apoptosis of K562 cells,depending on Ras-ERK signal pathway which is involved in cell proliferation and apoptosis.
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Background and purpose:Many studies indicate that nonsteroidal anti-inflammatory drugs(NSAIDs) may inhibit cancer growth.However,the molecular mechanisms may involve different pathway and still remain unclear.The aim of this experiment was to investigate the influence of aspisol against breast cancer lines,including MDA-MB-231(estrogen receptor-negative),MCF-7(estrogen receptor-positive),and reveal the potential signaling pathway mechanism of aspisol effect on breast cancer lines.Methods:MDA-MB-231 and MCF-7 human breast cancer cell lines were treated with aspisol in vitro.Cell proliferation was evaluated by MTT assay and rate of apoptosis were determined by flow cytometry.Extracellular signal regulated kinase(ERK),phosphor-ERK(P-ERK) protein expressed in breast cancer cell lines were analyzed by Western blot.Results:①The results of MTT assay demonstrated that the growth of MDA-MB-231,MCF-7 cells were inhibited by aspisol in a time-and dose-dependent fashion(P0.05).Conclusions:aspisol inhibits proliferation and induces apoptosis not only in ER-positive but also in ER-negative breast cancer cells.The mechanism may relate to ERK signal pathway.