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Objective To investigate the effects of aucubin(AU)on the proliferation,apoptosis,and cell cycle of human liver cancer cells line HepG2 and its mechanism of action.Methods HepG2 cells were cultured in vitro,CCK-8 method was applied to screen the optimal dosage concentration of AU.HepG2 cells were randomly grouped into a control group,an AU 12.5 mg/L group(AU L group),an AU 62.5 mg/L group(AU H group),and an AU H+Akt pathway agonist(SC79)group(AU H+SC79 group).The cell proliferation was observed in each group;5-Ethynyl-2′-deoxyuridine(EDU)method was applied to detect cell proliferation;Flow cytometry was applied to detect cell apoptosis and cell cycle;Western blot was applied to detect the expression levels of phosphorylated pro-tein kinase B(p-Akt),Akt,p-MDM2,MDM2,p-p53,and p53 proteins.Results AU concentrations of 12.5 and 62.5 mg/L were selected for subsequent experiments.Compared with 0 mg/L AU,the proliferation of 12.5 and 62.5 mg/L AU cells was obviously reduced(P<0.05);Compared with the control group,the number of suspended and exfoliated cells in the AU L and AU H groups gradually increased.Cells shrunk and became round.The propor-tion of G0/G1 phase cells,the proportion of EDU positive staining cells increased and the expression level of p-Akt/Akt and p-MDM2/MDM2 proteins decreased.The proportions of S and G2/M phase cells,the rate of cell apoptosis,and the expression level of p-p53/p53 protein all increased(P<0.05).Compared with the AU H group,the above changes in the AU H+SC79 group were recovered(P<0.05).After AU treatment,the tumor vol-ume and weight of transplanted nude mice decreased.Conclusions AU may inhibit the proliferation of liver cancer cells,induce cell cycle arrest and apoptosis by regulating the Akt/MDM2/p53 signaling pathway.
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BACKGROUND:Photothermal therapy is a novel tumor treatment strategy that uses photothermal agents to transform light energy into heat energy to accomplish non-invasive tumor ablation.The rise of photothermal therapy and nanotechnology has provided a new perspective on breast cancer treatment.OBJECTIVE:To prepare a new type of near-infrared biomimetic nanoprobe that has been modified by breast cancer cell membrane,to investigate the effect of near-infrared fluorescence/ultrasound imaging in vitro,and to observe its targeting ability and photothermal therapy effect on homologous tumor cells in vitro.METHODS:Organic small molecule ITIC-4CI with A-D-A structure was used as photothermal agents;polylactic acid/glycolic acid copolymer as nanocarrier;4T1 cell membrane of mouse breast cancer cells as a surface modifier of nanoparticles;perfluorohexane(PFH)was loaded.A novel near-infrared biomimetic nanoprobe(4T1m/ITIC-4CI/PFH)was prepared by the double emulsion evaporation method and sonication method.The basic characterization of the nanoprobe and the homologous targeting ability were detected.The photothermal properties and photothermal stability of the probe were investigated,and the near-infrared fluorescence/ultrasound imaging effect of the probe under laser irradiation was observed.The CCK-8 assay and calcein/propidium iodide staining were used to assess the efficacy of photothermal therapy.RESULTS AND CONCLUSION:(1)The prepared 4T1m/ITIC-4CI/PFH nanoprobes had uniform size,high stability,and an average particle size of(92.7±2.3)nm.The probe's protein composition was identical to that of the 4T1 cell membrane.The nanoprobe's ability to target homologous 4T1 cells was validated by an in vitro cell uptake assay.(2)The nanoprobe had a red-shift absorption spectrum and tail emission extending to the near-infrared-Ⅱ,which emitted a bright near-infrared-Ⅱ fluorescence signal under laser irradiation.(3)After laser irradiation,the nanoprobe 4T1m/ITIC-4CI/PFH could be turned into microbubbles and enhanced ultrasound imaging.The results of CCK-8 assay and calcein/propidium iodide staining showed that the nanoprobe 4T1m/ITIC-4CI/PFH had an obvious photothermal killing effect on 4T1 cells.(4)The results show that the nanoprobe 4T1m/ITIC-4CI/PFH has the ability to target homologous tumors and enhance near-infrared-Ⅱ fluorescence imaging/ultrasound imaging and photothermal therapy effects.
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Objective @# To explore the effect of MPZL1 knockdown in A549 Taxol resistant (A549 / Tax) cells and whether it affect drug resistance and tumor cell stemness by regulating β-catenin.@*Methods @#A549 and A549 / Tax cells were treated with different concentrations of doxorubicin and paclitaxel to observe the differences in drug resist- ance between the two cells.Quantitative real-time PCR (qRT-PCR) and Western blot were used to detect the MP- ZL1 expression level in A549 and A549 / Tax cells. After knockdown or overexpression of MPZL1 in A549 / Tax cells,cells were divided into control group,small hairpin RNA negative control ( sh-NC) group,MPZL1 knock- down(sh-MPZL1) group,overexpression negative control ( OE-NC) group,MPZL1 overexpression ( OE-MPZL1) group.Cell counting kit-8 ( CCK-8 ) and clone formation assay were utilized to investigate cell proliferation and clone formation ablity.Western blot assay was used to detect the protein expression after the cells treated with Wnt / β-catenin signaling inhibitor XAV939 and activator CHIR-99201 . @*Results @# The half inhibitory concentration ( IC50 ) of doxorubicin and paclitaxel in A549 / Tax cells significantly increased compared to A549 cells(P<0. 01) . MPZL1 presented a higher expression trend in A549 / Tax cells.The IC50 values of A549 / Tax for doxorubicin and paclitaxel were 2. 731 mg / ml and 4. 939 μg / ml after MPZL1 knockdown,compared to 4. 541 mg / ml and 13. 55 μg / ml in the NC group (P<0. 01) .The results of CCK-8 and clone formation assay showed that the knockdown of MPZL1 reduced the viability of cells proliferation and clonal formation ability (P<0. 05) .Western blot results in- dicated that the expression levels of MPZL1 protein,tumor cell stemness associated proteins ( CD44,CD133) ,β - catenin and multidrug resistance protein 1 (MDR1) ,lung resistance-related protein ( LRP) were significantly re- duced in the sh-MPZL1 group. Furthermore ,XAV939 could inhibit the expression levels of MPZL1 ,CD44, CD133,MDR1,LRP and β-catenin(P<0. 01) .The inhibitory effect of knockdown MPZL1 on the aforementioned proteins was significantly reversed by CHIR-99201 treatment.@*Conclusion @# MPZL1 is highly expressed in A549 / Tax cells.Knockdown MPZL1 suppresses the tumor cell stemness and proliferation,thereby reversing the drug re- sistance of doxorubicin and paclitaxel in A549 / Tax cells.
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ObjectiveTo investigate the effect of curcumin on the cycle arrest of human colon cancer HCT116 cells and decipher the possible molecular mechanism. MethodThe methyl thiazolyl tetrazolium (MTT) method was employed to examine the effects of curcumin (0, 12.5, 25, 50, 75, 100 μmol·L-1) and 5-fluorouracil (5-FU, 600 μmol·L-1) on the proliferation of HCT116 cells at different time points (24, 48, 72 h). Flow cytometry was employed to examine the cycle of HCT116 cells treated with curcumin (0, 25, 50, 75 μmol·L-1) and 5-FU. Western blot was employed to determine the expression of proteins in the Janus kinase 1 (JAK1)/signal transducer and activator of transcription 1 (STAT1) /cyclin-dependent kinase inhibitor 1A (p21) pathway in HCT116 cells. The binding of STAT1 to p21 promoter region was detected by chromatin immunoprecipitation (ChIP). Small interfering RNA (siRNA) was employed to measure the role of STAT1 in regulating the expression of p21 and that of JAK1 in regulating the activation of STAT1 by Western blot and cellular immunofluorescence, respectively. ResultCompared with the blank group, the HCT-116 cells treated with curcumin and 5-FU showed decreased viability (P<0.05), increased proportions of cells in the G0/G1 phase (P<0.05), decreased proportions of cells in the S phase and G2/M phase (P<0.05), down-regulated protein level of phosphorylated p21 (P<0.05), and up-regulated protein level of p21 (P<0.05). Compared with the curcumin group, the p21 siRNA+ curcumin group presented decreased proportion of cells in G0/G1 phase (P<0.05). Compared with the blank group, curcumin elevated the level of phosphorylated STAT1 (p-STAT1) (P<0.05). Compared with the curcumin group, the curcumin + STAT1 siRNA group showcased up-regulated protein level of p21 in HCT116 cells (P<0.05). The mechanism study showed that curcumin treatment enhanced the enrichment of STAT1 in the p21 promoter region (P<0.05) compared with the blank group. Compared with the blank group, curcumin up-regulated the level of phosphorylated JAK1 (p-JAK1) (P <0.05). Compared with the curcumin group, the curcumin + STAT1 siRNA group demonstrated up-regulated protein levels of p-STAT1 and p21 in HCT116 cells (P<0.05). ConclusionCurcumin may induce the cycle arrest of human colon cancer HCT116 cells by activating the JAK1/STAT1/p21 signaling pathway.
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OBJECTIVE To investigate the regulatory effect of autophagy on the resistance of human liver cancer cell Huh7 to lenvatinib. METHODS Using human liver cancer cell Huh7 as subject, the lenvatinib-resist cell model (Huh7-LR) was generated by the low-dose gradient method combined with long-term administration. The sensitivity of parental cell Huh7 and drug-resistant cell Huh7-LR to lenvatinib was detected by using CCK-8 assay and flow cytometry. Western blot assay and GFP-mCherry-LC3 plasmid transfection were performed to detect the expression levels of autophagic protein Beclin-1, autophagic adapter protein sequestosome 1 (p62), microtubule-associated protein 1 light chain 3 (LC3) and autophagic level. Furthermore, an autophagy activation model was constructed by cell starvation, the protein expression of p62 and autophagy level were detected by using Western blot assay and GFP-mCherry-LC3 plasmid transfection, and the effect of autophagy activation on the sensitivity of Huh7-LR cells to lenvatinib was detected by flow cytometry. RESULTS Compared with parental cells, the drug resistance index of Huh7-LR cells was 6.2; protein expression of p62 was increased significantly, while apoptotic rate, protein expression of Beclin-1 and LC3Ⅱ/ LC3Ⅰ ratio were all reduced significantly (P<0.05 or P<0.01); the level of autophagy was decreased to some extent. Autophagy activation could significantly increase the protein expression of p62 in Huh7-LR cells (P<0.05) and autophagy level, and significantly increase its apoptotic rate (P<0.05). CONCLUSIONS Autophagy is involved in lenvatinib resistance, and activating autophagy can reverse the resistance of liver cancer cells to lenvatinib to some extent.
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Chemotherapy is one of the major approaches for the treatment of metastatic lung cancer, although it is limited by the low tumor delivery efficacy of anticancer drugs. Bacterial therapy is emerging for cancer treatment due to its high immune stimulation effect; however, excessively generated immunogenicity will cause serious inflammatory response syndrome. Here, we prepared cancer cell membrane-coated liposomal paclitaxel-loaded bacterial ghosts (LP@BG@CCM) by layer-by-layer encapsulation for the treatment of metastatic lung cancer. The preparation processes were simple, only involving film formation, electroporation, and pore extrusion. LP@BG@CCM owned much higher 4T1 cancer cell toxicity than LP@BG due to its faster fusion with cancer cells. In the 4T1 breast cancer metastatic lung cancer mouse models, the remarkably higher lung targeting of intravenously injected LP@BG@CCM was observed with the almost normalized lung appearance, the reduced lung weight, the clear lung tissue structure, and the enhanced cancer cell apoptosis compared to its precursors. Moreover, several major immune factors were improved after administration of LP@BG@CCM, including the CD4+/CD8a+ T cells in the spleen and the TNF-α, IFN-γ, and IL-4 in the lung. LP@BG@CCM exhibits the optimal synergistic chemo-immunotherapy, which is a promising medication for the treatment of metastatic lung cancer.
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Objective:To explore the effects of estrogen receptor α (ERα) encoded by protein encoding gene ESR1 on the radiation resistance of breast cancer cells and their molecular mechanisms.Methods:The ESR1 overexpression plasmid was transfected into estrogen receptor (ER)-negative breast cancer cells. Then, the shRNA-ESR1 vector was introduced into ER-positive cell to establish models with different phenotype. The ATG5 mRNA level and protein expression levels of LC3B-I, LC3B-II, P62, FIP200, ATG5, ATG7, ATG12, Beclin1, ULK1 were detected using qPCR and Western blot techniques. Cell death was measured using flow cytometry. The radiation sensitivity was determined through the colony formation assay. The mortality of breast cancer cells under the autophagy gene knockdown and overexpression or treated with estrogen receptor inhibitor (TAM) combined with ionizing radiation were detected by trypan blue staining.Results:Under the condition of 8 Gy X-ray irradiation, the knockdown of ESR1 in ER-positive ZR75 breast cancer cells promoted cell death ( t = 3.49, 3.13, P < 0.05), while the overexpression of ESR1 in ER-negative MDA-MB-231 breast cancer cells inhibited cell death ( t = 4.16, 7.48, P < 0.05). Compared to the control group, the treatment with chloroquine increased the number of formed colonies of ESR1 knockdown ZR75 cells ( t = 8.49, P < 0.05), and inhibiting autophagy could reduce the death of ZR75 cells caused by ESR1 silencing. Under the treatment with ionizing radiation, the overexpression of ESR1 in MDA-MB-231 cells promoted protective autophagy, which, however, was reduced after ESR1 knockdown in ZR75 cells. Furthermore, it was observed that the knockdown of ATG5 in ZR75 cells was associated with reduced autophagy and an increase in cell death ( t = 4.19, 6.39, P < 0.05). In contrast, the overexpression of ATG5 in ZR75 cells reversed the increase in cell death caused by ESR1 knockdown ( t = 1.70, 4.65, P < 0.05). After the treatment of ER-positive ZR75 breast cancer cells with TAM, the expressions of ATG5 and ATG12 decreased, suggesting inhibited autophagy and an increase in cell death ( t = 18.70, P < 0.05). Furthermore, these processes were promoted by ionizing radiation ( t = 16.82, P < 0.05). Conclusions:The estrogen receptor encoded by ESR1 promotes protective autophagy of ER-positive breast cancer cells by increasing ATG5, further leading to radiation resistance in ER-positive breast cancer cells. Treatment with tamoxifen combined with ionizing radiation can increase the radiation sensitivity of ER-positive breast cancer cells.
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Cancer cells refer to a group of malignant cells with strong division and proliferation abilities. Cancer cells rely on the unstable plunder of human nutrition to sustain the large amount of energy that they need for their own division and proliferation. The division and proliferation of cancer cells are linked to the synthesis and replication of genetic material in the nucleus. Blockage or destruction of the synthesis of genetic material in cancer cells is one of the mechanisms underlying the action of most antitumor drugs. As the key material that dominates cell division, proliferation, and death, nuclear genetic material which mainly refers to the deoxyribonucleic acid located on the chromatin in the nucleus, plays a decisive role in the final fate of cells. The final fate of cancer cells after the damage of the genetic material is worthy of investigation and analysis. In this paper, we discuss and analyze the fate of cancer cells after genetic material damage from the aspect of cellular cycle arrest, apoptosis, autophagy, and senescence to provide ideas for the mechanism research on antitumor drugs.
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Background Research on prostate cancer is mostly performed using cell lines derived from metastatic disease, not reflecting stages of tumor initiation or early progression. Establishment of cancer cell lines derived from the primary tumor site has not been described so far. By definition, cancer cells are able to be cultured indefinitely, whereas normal epithelial cells undergo senescence in vitro. Epithelial cells can be immortalized, accomplished by using viral integration of immortalization factors. Viral approaches, however, might be impaired by regulatory and safety issues as well as random integration into regulatory genetic elements, modifying precise gene expression. We intend to use surgical specimen of prostate cancer patients to (i) prove for establishment of cancer cell lines, and (ii) perform nonviral, Sleeping Beauty (SB) transposase-based immortalization of prostate epithelial cells. Methods Radical prostatectomy samples of prostate cancer patients (n = 4) were dissociated and cultured in vitro. Cells were cultivated either without or after non-viral, Sleeping-Beauty transposase-based stable transfection with immortalization factors SV40LT and hTERT. Established cell lines were analyzed in vitro and in vivo for characteristics of prostate (cancer) cells. Results Initial cell cultures without genetic manipulation underwent senescence within ≤ 15 passages, demonstrating inability to successfully derive primary prostate cancer cell lines. By using SB transposase-based integration of immortalization factors, we were able to establish primary prostate cell lines. Three out of four cell lines displayed epithelial characteristics, however without expression of prostate (cancer) characteristics, e.g., androgen receptor. In vivo, one cell line exhibited tumorigenic potential, yet characteristics of prostate adenocarcinoma were absent. Conclusion Whereas no primary prostate cancer cell line could be established, we provide for the first-time immortalization of primary prostate cells using the SB transposase system, thereby preventing regulatory and molecular issues based on viral immortalization approaches. Although, none of the newly derived cell lines demonstrated prostate cancer characteristics, tumor formation was observed in one cell line. Given the non-prostate adenocarcinoma properties of the tumor, cells have presumably undergone oncogenic transformation rather than prostate cancer differentiation. Still, these cell lines might be used as a tool for research on prostate cancer initiation and early cancer progression.
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OBJECTIVE To study the correlation of novel organic cation transporter 2 (OCTN2) with the chemosensitivity of prostate cancer cells to oxaliplatin. METHODS Tumor samples of patients receiving radical prostatectomy were collected, and OCTN2 protein was detected with immunohistochemistry; the primary cells of the specimen were cultivated to obtain prostate cancer cell line. Inductively coupled plasma mass spectrometry was used to detect the uptake of low concentration (0.1 μmol/L) of oxaliplatin by cancer cells. Real-time PCR and Western blot were used to detect the mRNA and protein expressions of OCTN2 in cancer cells; the prostate cancer cells with the highest and lowest expression of OCTN2 protein were selected, and IC50 of oxaliplatin to prostate cancer cells was analyzed by ATP-TCA method. The inhibitory rate of plasma peak concentration of oxaliplatin (50 μmol/L) to prostate cancer cells was detected by MTT assay. Spearman method was used to analyze the relationship of the uptake of oxaliplatin by prostate cancer cells with inhibitory rate of oxaliplatin to prostate cancer cells and 505916443@qq.com mRNA expressions of OCTN2. RESULTS OCTN2 was located on the membrane of cancer cells, and the uptake of zjdtztougao@163.com oxaliplatin by cancer cells was 0.283±0.264 (n=12)mRNA and protein expression of OCTN2 varied significantly among different cancer cells. The sensitivity of cancer cells with high expression of OCTN2 to oxaliplatin (IC50 of 4.61 μmol/L) was higher than that of cancer cells with lower expression of OCTN2 (IC50 of 26.23 μmol/L). The inhibitory rate of oxaliplatin to cancer cells was (25.4±10.8)% (n=12). There was a correlation between the uptake of oxaliplatin by prostate cancer cells and the inhibition rate of oxaliplatin to prostate cancer cells and mRNA expression of OCTN2 (P<0.05). CONCLUSIONS High-expressed OCTN2 may promote the uptake of oxaliplatin by prostate cancer cells, and its expression can serve as a reference for predicting the sensitivity of prostate cancer cells to oxaliplatin chemotherapy.
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ObjectiveThe aim of this study is to investigate the role of salidroside in regulating the miR-1343-3p/MAP3K6 (mitogen-activated protein kinase kinase kinase 6)/MMP24 (membrane-type matrix metalloproteinase 24) signaling pathway to inhibit gastric cancer cell proliferation and migration. MethodsHuman gastric cancer cells (MGC-803) were divided into several groups based on different salidroside concentrations: a control group (0 μmol/mL), a low-dose group (6 μmol/mL), a medium-dose group (12 μmol/mL), and a high-dose group (24 μmol/mL). The anti proliferative effects of salidroside on human gastric cancer cells were evaluated by CCK-8 assay. Clonogenic assay was used to examine the effects of salidroside drugs on the clonogenic ability of human gastric cancer cells. Transwell assay was performed to detect the effect of salidroside on the invasive ability of human gastric cancer cells. Cell scratch assay was performed to detect the effect of salidroside on the migration ability of human gastric cancer cells. The miRNA expression profile was analyzed by using RNA-seq in cancer cells for 24 h after salidroside treatment. The differentially expressed miRNAs were clustered and their target genes were predicted. Gene Ontology (GO) and Kyoto Encyclopedia of Genes and Genomes (KEGG) were used to analyze and predict the functions of these target genes, and the interaction networks were established. Immunocytofluorescence was used to detect the expression of target proteins, and the transcription of candidate genes was detected by q-PCR. ResultsCCK-8 cytotoxicity experiments showed that salidroside inhibited the proliferation of MGC-803 cells (P < 0.01). Cell cloning experiments showed that salidroside reduced the clonal formation capacity of MGC-803 cells (P < 0.000 1). Cell invasion experiments showed that salidroside reduced the MGC-803 cell invasion capacity (P < 0.000 1). Cell scratch experiments showed that salidroside reduced the cell migration capacity (P < 0.000 1). RNA-seq findings showed that the expression of 44 miRNAs changed significantly after salidroside treatment in cancer cells (P < 0.05). Bioinformatic analysis showed that there were 1 384 target mRNAs corresponding to the differentially expressed miRNAs, and the expression of the tumor suppressor miR-1343-3p was significantly upregulated after salidroside treatment (P < 0.01),and resulted in down-regulated transcription of MAP3K6 and MMP24 genes which are related to the proliferation and migration of cancer cells (P < 0.05). Immunofluorescence experiments demonstrated that salidroside reduced protein expression levels in MAP3K6 and MMP24 genes (P < 0.000 1). q-PCR experiments showed that salidroside reduced the mRNA expression level of MAP3K6 and MMP24 genes (P < 0.000 1), while miRNA expression in miR-1343-3p gene was upregulated (P < 0.000 1). ConclusionSalidroside regulates the miRNA-1343-3p/MAP3K6/MMP24 signaling molecules to inhibit proliferation and invasion of gastric cancer cells.
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In situ and real-time monitoring of responsive drug release is critical for the assessment of pharmacodynamics in chemotherapy. In this study, a novel pH-responsive nanosystem is proposed for real-time monitoring of drug release and chemo-phototherapy by surface-enhanced Raman spectroscopy (SERS). The Fe3O4@Au@Ag nanoparticles (NPs) deposited graphene oxide (GO) nanocomposites with a high SERS activity and stability are synthesized and labeled with a Raman reporter 4-mercaptophenylboronic acid (4-MPBA) to form SERS probes (GO-Fe3O4@Au@Ag-MPBA). Furthermore, doxorubicin (DOX) is attached to SERS probes through a pH-responsive linker boronic ester (GO-Fe3O4@Au@Ag-MPBA-DOX), accompanying the 4-MPBA signal change in SERS. After the entry into tumor, the breakage of boronic ester in the acidic environment gives rise to the release of DOX and the recovery of 4-MPBA SERS signal. Thus, the DOX dynamic release can be monitored by the real-time changes of 4-MPBA SERS spectra. Additionally, the strong T2 magnetic resonance (MR) signal and NIR photothermal transduction efficiency of the nanocomposites make it available for MR imaging and photothermal therapy (PTT). Altogether, this GO-Fe3O4@Au@Ag-MPBA-DOX can simultaneously fulfill the synergistic combination of cancer cell targeting, pH-sensitive drug release, SERS-traceable detection and MR imaging, endowing it great potential for SERS/MR imaging-guided efficient chemo-phototherapy on cancer treatment.
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Objective To explore the effects from the synergy of substrate stiffness and hypoxia on epithelial mesenchymal transition (EMT) of colon cancer cells SW480 by simulating the microenvironment of human colon cancer tissues. Methods Polyvinyl alcohol gels with different stiffness ( 4. 5, 20, 40 kPa) were prepared to simulate the stiffness of each part of colon cancer tissues. The morphological change of cells on substrate with different stiffness was detected under simulated hypoxia ( CoCl2 ) environment. The expression of hypoxia inducible factor (HIF-1α), and EMT markers E-cadherin, Vimentin, Snail 1 were detected by Western blot. The mRNA expression of E-cadherin, Vimentin, Snail 1, matrix metalloproteinase-2 ( MMP-2), and MMP-9 was detected by quantitative real-time PCR ( qRT-PCR). Results Under simulated hypoxia environment, with the increase of substrate stiffness, the SW480 cells spreading area increased, and transformed from round shape into irregular polygon. The EMT of SW480 could be enhanced through up-regulating expression of Vimentin, Snail 1, MMP-2, MMP-9, and down-regulating expression of E-cadherin. Conclusions This study is important for exploring the synergistic effect of substrate stiffness and hypoxia on the EMT of colon cancer cells as well as the molecular mechanism.
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The objective of this study is to investigate the effect of chemokine CXCR4 on the apoptosis of gastric cancer cells through IL-6/STAT3 signaling pathway and to explore the related mechanisms.Fluorescence quantitative PCR and Western blot were performed to detect the mRNA and protein expression levels of the chemokine CXCR4 in human gastric cancer tissues and adjacent non-cancerous tissues(PCT).Next,CXCR4 knockdown and overexpression were achieved by transfecting SGC7901 gastric cancer cell line with lentiviral vectors.TUNEL staining was used to evaluate the apoptosis of SGC7901 cells,while MTT assay was employed to measure cell proliferation.Western blot was conducted to determine the expression of apoptosis-related proteins Bax and Bcl2.Further,enzyme-linked immunosorbent assay(ELISA)was employed to measure the secretion levels of inflammatory cytokines.Real-time fluorescent quantitative PCR(RT-PCR)was utilized to quantify the expression of IL-6 mRNA in the IL-6/STAT3 signaling pathway,and Western blot was performed to analyze the expression of STAT3-Ser727 protein.In addition,after knocking down CXCR4 in SGC7901 cells,IL-6/STAT3 signaling pathway agonist lipopolysaccharide(LPS)was transfected,while in CXCR4-overexpressing SGC7901 cells,IL-6/STAT3 signaling pathway inhibitors angoline or bruceantinol were transfected.Then TUNEL staining was used to assess cell apoptosis,and Western blotting was performed to examine the expression levels of apoptosis-related proteins Bax and Bcl2 in these cells.Data showed that the expression of immune chemokine CXCR4 was increased in gastric cancer tissues,as compared with adjacent non-cancerous tissues.Single-cell gel electrophoresis analysis indicated that knockdown or overexpression of CXCR4 do not induce DNA damage in SGC7901 cells.TUNEL staining,MTT cell proliferation assay and Western blotting demonstrated that knockdown of CXCR4 in SGC7901 cells promoted the apoptosis in SGC7901 cells,while overexpression of CXCR4 inhibited the apoptosis.ELISA showed that knockdown of CXCR4 in SGC7901 cells promotes the expression of pro-inflammatory factors IL-1β and TNF-α,while inhibited the expression of anti-inflammatory factors IL-10 and TGF-β.Conversely,overexpression of CXCR4 demonstrated opposite effects.Finally,the activation of the IL-6/STAT3 signaling pathway significantly reduced the apoptosis induced by knocking down CXCR4 in iSGC7901 cells,whereas the inhibition of IL-6/STAT3 signaling pathway can significantly suppressed the induction of SGC7901 cells proliferation induced by CXCR4 overexpress.In conclusion,immunochemokine CXCR4 regulates gastric cancer cell apoptosis and inflammatory cytokines secretion through IL-6/STAT3 signaling pathway.
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[Objective]To investigate the mechanism of Compound Fuling Granule(CFG)in inhibiting the glucose metabolism and metastasis of ovarian cancer cells.[Methods]Ovarian cancer cell HEY-T30 were cultured in vitro and incubated with different concentration(0.25,0.5,1,1.5,2 mg·mL-1)of CFG for 24 h.Cell counting kit-8(CCK-8)assay was performed to detect the effect of CFG on the cell proliferation,Transwell assay was used to investigate cell migration ability,lactic acid detection kit and glucose detection kit were used to detect lactic acid production and glucose consumption,the expressions of dynamin-related protein 1(DRP1),some key glycolysis-related proteins and metastasis-related proteins were detected by Western blot,Mito-Tracker Red was used to label mitochondria to observe mitochondria morphology.Lentivirus transfection technique was used to achieve the stable DRP1 knockdown HEY-T30 cells.Real-time quantitative polymerase chain reaction(Real-time qPCR)was used to detect the expression of DRP1 mRNA,the effect of CFG on lactic acid production and glucose consumption of HEY-T30 after DRP1 knockdown was detected by lactic acid detection kit and glucose detection kit,Transwell assay was used to investigate the migration ability of HEY-T30 with DRP1 knockdown after treated with CFG,the effect of CFG on the expression of glycolysis-related proteins and metastasis-related proteins in HEY-T30 with DRP1 knockdown was detected by Western blot.[Results]Compared with control group,the cell survival rate in 0.5,1,1.5,2 mg·mL-1 CFG groups reduced significantly(P<0.01).The average length of mitochondria in 0.5,1 mg·mL-1 group was markedly increased(P<0.01),the protein expression of DRP1 was significantly reduced(P<0.05,P<0.01),and the lactate production and glucose consumption in 0.5 and 1 mg·mL-1 groups were significantly decrease(P<0.01).The number of migration cell was significantly reduced in 0.25,0.5 and 1 mg·mL-1 concentration groups(P<0.05,P<0.01).After knockdown of DRP1,the glycolysis level and migration of HEY-T30 were decreased(P<0.05,P<0.01),and the expressions of glycolysis-related proteins and metastasis-related proteins were decreased(P<0.05,P<0.01).The inhibitory effect of CFG on glycolysis and metastasis of ovarian cancer cells was also weakened.[Conclusion]By targeting DRP1 to regulate glucose metabolism reprogramming,CFG could inhibit the metastasis of ovarian cancer.
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Introduction@#Breast cancer is the most common cancer among women in the Philippines and about 3 in every 100 Filipina will be diagnosed with breast cancer in their lifetime. There is a need to discover safe, yet inexpensive herbal extracts with potential cytotoxic properties as potential treatment modalities to treat breast cancer. @*Objectives@#This study seeks to explore the cytotoxic and apoptotic properties of the ethyl acetate fraction of the defatted crude methanol leaf extract of Syzygium samarangense in MCF-7 breast cancer cell lines. @*Methods@#Screening for flavonoids of the extracts was performed using TLC, total flavonoids, total phenols, FTIR and LC-MS spectroscopy. The hydrogen peroxide and ferric reducing anti-oxidant power were used as substrates to assess in vitro anti-oxidative properties of the extracts. The MTT dye viability assay was used to assess the cytotoxic properties of the extracts against MCF-7 cells. Apoptotic properties of the extracts in MCF-7 cells were determined by caspase-3 activation assay, DNA fragmentation patterns and fluorescence microscopy after annexin-V and propidium iodide staining. @*Results@#The abundance of flavonoids in the ethyl acetate fraction of the crude methanol leaf extract was established by TLC, FTIR, LC-MS/MS, total flavonoid and total phenol analyses. The in vitro anti-oxidative properties of this extract was comparable to ascorbic acid. The median inhibitory concentration (IC50) of this extract in MCF-7 breast cancer cell lines was 7.2 mcg/mL while doxorubicin registered an IC50 of 1.2 mcg/mL. At this concentration, the extract was not cytotoxic to normally-dividing breast epithelial cells. Cytotoxicity of the extract was mediated via apoptosis as demonstrated by DNA fragmentation, caspase-3 activation and fluorescence microscopic analyses. @*Conclusion@#The study shows that the flavonoid-rich ethyl acetate fraction of the crude methanol leaf extract of S. samarangense possesses potent apoptotic and cytotoxic properties against MCF-7 breast cancer cell lines at low concentrations.
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Células MCF-7 , SyzygiumRESUMO
Radiotherapy is an effective anti-tumor therapy for different types of solid tumors. Over 50% of cancer patients are treated with radiotherapy at different stages in the course of the disease. According to traditional radiobiology, radiation therapy mainly kills tumor cells by causing proliferative death of tumor cells through DNA damage. However, clinical data showed that many patients still experienced tumor recurrence and metastasis after receiving radiation therapy. Current studies have found that the biological behavior of tumor cells, such as invasion and migration, were changed after radiation through epithelial-mesenchymal transition, circadian rhythm disruption, senescence, and increased stemness of cancer cells, thereby leading to tumor recurrence and metastasis. In this article, the changes and mechanisms of biological behavior in tumor cells after radiation were reviewed, providing evidence for the prevention and treatment of tumor recurrence and metastasis.
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Brucellosis, a neglected tropical disease of zoonotic nature, is caused by the genus Brucella, specifically by Brucella abortus and B. melitensis in cattle and humans, respectively. Arjunolic acid (AA) is a triterpenoid, isolated from Terminalia arjuna (Roxb.) Wight & Arn., a medicinally important plant used to treat various diseases in the Indian system of medicine. Here, we tried to evaluate AA for its antibacterial activity on Brucella and the in vitro cytotoxicity assay on human lung adenocarcinomic alveolar basal epithelial cell line (A549). Also, we assessed the synergistic effect of arjunolic acid and Tarenna asiatica (L.) Kuntze ex K.Schum. on B. melitensis. AA displayed a considerable antibacterial activity [zone of inhibition (9 mm) with a minimum inhibitory concentration of 30 ?g/mL] against B. melitensis. The rate of cell death for the cancer cells were at 100 ?g/mL concentration of AA was 82% which indicates that AA shows significant membrane disruption to cancer cells. The estimated IC50 of AA against the A549 cell line was 139.90 ?g/mL. The highest synergistic activity was exhibited forming a zone of inhibition measuring 10mm when arjunolic acid and AqE of T. asiatica was added in the concentration of 1:1, respectively.
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N 6-methyladenosine (m6A) modification is critical for mRNA splicing, nuclear export, stability and translation. Fat mass and obesity-associated protein (FTO), the first identified m6A demethylase, is critical for cancer progression. Herein, we developed small-molecule inhibitors of FTO by virtual screening, structural optimization, and bioassay. As a result, two FTO inhibitors namely 18077 and 18097 were identified, which can selectively inhibit demethylase activity of FTO. Specifically, 18097 bound to the active site of FTO and then inhibited cell cycle process and migration of cancer cells. In addition, 18097 reprogrammed the epi-transcriptome of breast cancer cells, particularly for genes related to P53 pathway. 18097 increased the abundance of m6A modification of suppressor of cytokine signaling 1 (SOCS1) mRNA, which recruited IGF2BP1 to increase mRNA stability of SOCS1 and subsequently activated the P53 signaling pathway. Further, 18097 suppressed cellular lipogenesis via downregulation of peroxisome proliferator-activated receptor gamma (PPARγ), CCAAT/enhancer-binding protein alpha (C/EBPα), and C/EBPβ. Animal studies confirmed that 18097 can significantly suppress in vivo growth and lung colonization of breast cancer cells. Collectively, we identified that FTO can work as a potential drug target and the small-molecule inhibitor 18097 can serve as a potential agent against breast cancer.
RESUMO
In the development of chemo-immunotherapy, many efforts have been focusing on designing suitable carriers to realize the co-delivery of chemotherapeutic and immunotherapeutic with different physicochemical properties and mechanisms of action. Besides, rapid drug release at the tumor site with minimal drug degradation is also essential to facilitate the antitumor effect in a short time. Here, we reported a cancer cell membrane-coated pH-responsive nanogel (NG@M) to co-deliver chemotherapeutic paclitaxel (PTX) and immunotherapeutic agent interleukin-2 (IL-2) under mild conditions for combinational treatment of triple-negative breast cancer. In the designed nanogels, the synthetic copolymer PDEA-co-HP-β-cyclodextrin-co-Pluronic F127 and charge reversible polymer dimethylmaleic anhydride-modified polyethyleneimine endowed nanogels with excellent drug-loading capacity and rapid responsive drug-releasing behavior under acidic tumor microenvironment. Benefited from tumor homologous targeting capacity, NG@M exhibited 4.59-fold higher accumulation at the homologous tumor site than heterologous cancer cell membrane-coated NG. Rapidly released PTX and IL-2 enhanced the maturation of dendritic cells and quickly activated the antitumor immune response in situ, followed by prompted infiltration of immune effector cells. By the combined chemo-immunotherapy, enhanced antitumor effect and efficient pulmonary metastasis inhibition were achieved with a prolonged median survival rate (39 days).