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Image Search Results
Journal: American Journal of Cancer Research
Article Title: Phospholipase C-ε regulates bladder cancer cells via ATM/EXO1
doi:
Figure Lengend Snippet: Gene expression profile in PLCε-silenced T24 cells and verification of selected DEGs. (A) RNA-seq mRNA expression data from Sanchez-Carbayo bladder dataset was used to compare PLCε expression between in BCa tumors (BCa) and normal bladder tissue (Bladder). (B) KEGG pathway enrichment analysis for the DEGs (> two-fold change and P < 0.05), the vertical axis was the pathway category, and the horizontal axis was the enrichment of pathways. (C) The significant GO category for indicated genes of mismatch repair between Ad-shPLCε and Ad-NC groups, the vertical axis was the GO terms, and the horizontal axis was the enrichment of GO, P value < 0.01 was used as a threshold to select significant GO categories. (D) Hierarchical clustering analysis of DEGs involved in DNA damage repair pathways. High expression levels are shown in green and low levels in red. (E, F) Detection gene levels of 4 selected DEGs by q-PCR in T24 and BIU-87 cells. The q-PCR data were normalized to the expression of β-actin (G) RNA-seq mRNA expression data from the TCGA to compare EXO1 expression between in BCa tumors (T) and their non-tumor counterparts (N). *P ≤ 0.05, **P ≤ 0.01, AND ***P < 0.001.
Article Snippet: EXO1 human tagged ORF clone vector (RC200547), pCMV6-Entry vevtor (PS10001),
Techniques: Expressing, RNA Sequencing Assay
Journal: American Journal of Cancer Research
Article Title: Phospholipase C-ε regulates bladder cancer cells via ATM/EXO1
doi:
Figure Lengend Snippet: High expression levels of PLCε and EXO1 in BCa tissues. (A, B) Disease free survival curves of BCa patients according to EXO1 and ATM mRNA levels in TCGA. (C) Representative haematoxyl in and eosin (H&E) staining and IHC staining in 72 BCa tissue samples and 24 corresponding adjacent non-neoplastic (BN) samples. Magnification × 200. Bars = 150 μm. H&E staining of bladder tissues were showed (a and i). Representative IHC staining of different staining intensities used as criteria in staining scoring: none staining was observed in BN (b-d), positive staining in BCa (j-l). PLCε localized in cytoplasm. EXO1 and ATM protein localized in nucleus. Images in the frame of (a-d and i-l) were enlarged to (e-h and m-p). (D-F) Average staining scores for PLCε, EXO1, and ATM expression in bladder tissues. (G, H) The correlation with PLCε and EXO1 expression and EXO1 and ATM expression in bladder tissues samples was analyzed by Pearson analysis. *P ≤ 0.05, **P ≤ 0.01, and ***P < 0.001.
Article Snippet: EXO1 human tagged ORF clone vector (RC200547), pCMV6-Entry vevtor (PS10001),
Techniques: Expressing, Staining, Immunohistochemistry
Journal: American Journal of Cancer Research
Article Title: Phospholipase C-ε regulates bladder cancer cells via ATM/EXO1
doi:
Figure Lengend Snippet: Correlation between PLCε, EXO1 and ATM expressions and the corresponding clinicopathological parameter in BCa patients
Article Snippet: EXO1 human tagged ORF clone vector (RC200547), pCMV6-Entry vevtor (PS10001),
Techniques:
Journal: American Journal of Cancer Research
Article Title: Phospholipase C-ε regulates bladder cancer cells via ATM/EXO1
doi:
Figure Lengend Snippet: A association between PLCε and EXO1 expression in BCa patients. A. PLCε and EXO1 protein expression in 24 BCa tissue samples (T) and 24 BN samples (N) were assayed by western blotting analysis. B, C. PLCε and EXO1 protein expression in tissues were quantified as mean optical density by Image J software. D, E. PLCε and EXO1 protein expression in tissues were assayed by Statistical analysis. F. Correlation curve of PLCε protein versus corresponding EXO1 by Statistical analysis. G. Western blotting analysis detected the expression of PLCε and EXO1 in two human BCa cell lines and SV-HUC-1 cells. H, I. Detection of PLCε and EXO1 by qPCR. *P ≤ 0.05, **P ≤ 0.01, and ***P < 0.001.
Article Snippet: EXO1 human tagged ORF clone vector (RC200547), pCMV6-Entry vevtor (PS10001),
Techniques: Expressing, Western Blot, Software
Journal: American Journal of Cancer Research
Article Title: Phospholipase C-ε regulates bladder cancer cells via ATM/EXO1
doi:
Figure Lengend Snippet: PLCε depletion inhibit cell proliferation, induce G1 phase cell cycle arrest, apoptosis and cisplatin sensitivity. A. The T24 and BIU-87 cells were infected with adenovirus sh-PLCε, western blotting were detected the expression of PLCε. B. Western blotting analysis detected the expression of EXO1, cyclinD1, c-Myc, PCNA, BCL2, caspase 3, caspase 9 and BAX. C, D. Representative flow cytometry analysis of cell cycle phase distribution after 48 h of culture, compared to blank group. E-K. The T24 and BIU-87 cells were infected with vector-EXO1 for 72 h. E, F. Representative flow cytometry analysis of cell apoptosis after 72 h of culture in Ad-shPLCε or/and EXO1 groups. G, H. Clone formation analysis was employed to test the cell proliferation in Ad-shPLCε or/and EXO1 groups. I. IC50 values were measured by CCK-8 to compare the susceptibility of the three cell lines to cisplatin. J, K. IC50 values of T24 and BIU were measured by CCK-8 Analysis in Ad-shPLCε or/and EXO1 groups. *P ≤ 0.05, **P ≤ 0.01, and ***P < 0.001.
Article Snippet: EXO1 human tagged ORF clone vector (RC200547), pCMV6-Entry vevtor (PS10001),
Techniques: Infection, Western Blot, Expressing, Flow Cytometry, Plasmid Preparation, CCK-8 Assay
Journal: American Journal of Cancer Research
Article Title: Phospholipase C-ε regulates bladder cancer cells via ATM/EXO1
doi:
Figure Lengend Snippet: PLCε regulates EXO1-mediated cell cycle, proliferation and apoptosis through nuclear translocation of p-ATM. A. The BCa cells were infected with vector-shEXO1, western blotting detected the expression of EXO1. B. Western blotting analysis detected the expression of EXO1, cyclinD1, c-Myc, PCNA, BCL2, caspase 3, caspase 9, and BAX in sh-NC and sh-EXO1 groups. C. The BCa cells were infected with vector-EXO1, western blotting detected the expression of EXO1. D. Western blotting analysis detected the expression of PLCε, EXO1, cyclinD1, c-Myc, PCNA, BCL2, caspase 3, caspase 9 and BAX in sh-EXO1 groups or/and Ad-shPLCε groups. E. Detection of p-ATM expression in nuclear and cytoplasm by western blot. F. Western blotting analysis showing that Ad-shPLCε reduced EXO1 level with 13 nM KU-55933 for 48 h. G. Immunofluorescence staining analysis demonstrating that Ad-shPLCε disrupted p-ATM nuclear translocation stimulated by cisplatin. Magnification: 400×. Bars = 100 μm. *P ≤ 0.05, **P ≤ 0.01, and ***P < 0.001.
Article Snippet: EXO1 human tagged ORF clone vector (RC200547), pCMV6-Entry vevtor (PS10001),
Techniques: Translocation Assay, Infection, Plasmid Preparation, Western Blot, Expressing, Immunofluorescence, Staining
Journal: American Journal of Cancer Research
Article Title: Phospholipase C-ε regulates bladder cancer cells via ATM/EXO1
doi:
Figure Lengend Snippet: PLCε depletion enhanced the inhibitory effect of cisplatin on the growth of BCa cells. C-I. 8 μg/mL Cisplatin was treated in BCa cells for 48 h. A, B. Western blotting analysis showing the expressions of EXO1 and γ-H2AX stimulated by cisplatin at different concentrations (for 24 h) and different treat times (with 8 μg/mL) in BCa cells. C. Morphological change of bladder cancer cells with cisplatin or (and) Ad-shPLCε treatment. Magnification: 200×. Bars = 100 μm. D, E. Representative flow cytometry analysis of cell cycle phase distribution after 48 h of culture, compared to blank group. F. Western blotting detected the expression of cell cycle and proliferation related proteins. G, H. Clone formation analysis was employed to test the cell proliferation of BCa cell lines after treatment with cisplatin. I. Western blotting detected the expression of cell apoptosis related proteins. *P ≤ 0.05, **P ≤ 0.01, and ***P < 0.001.
Article Snippet: EXO1 human tagged ORF clone vector (RC200547), pCMV6-Entry vevtor (PS10001),
Techniques: Western Blot, Flow Cytometry, Expressing
Journal: American Journal of Cancer Research
Article Title: Phospholipase C-ε regulates bladder cancer cells via ATM/EXO1
doi:
Figure Lengend Snippet: Decreased levels of serum miR-145 in BCa patients and PLCε was a direct target of miR-145 in BCa cells. A. Comparison of miR-145 levels in three cell lines by qPCR. vs SV-HUC-1. B. Expression levels of miR-145 in T24 and BIU cells transfected with miR-145 mimics and NC. C, D. PLCε mRNA and protein expression levels in the BCa cell lines detected by qRT-PCR and western blotting after transfection with miR-145 mimics. E. Schematic representation of the predicted miR-145 binding sites in 3’UTR of PLCε. F. Wild-type or mutant 3’UTR of PLCε gene reporter plasmid was co-transfected with miR-145mimics or NC into T24, followed by luciferase reporter assays. vs miR-NC. G. Changes of PLCε expression analysised by qPCR in BCa cells after treating with cisplatin or (and) miR-145. H, I. 8 μg/mL Cisplatin was treated in BCa cells for 48 h. H. Viability of BCa cells with cisplatin or (and) miR-145 mimics treatment detected by CCK-8. I. Western blotting analysis showing the expression of PLCε, EXO1, and γH2AX after cisplatin or (and) miR-145 mimics treatment for 48 h. J. The serum miR-145 expression in 40 patients with BCa, 19 patients with urinary benign diseases (BBD) and 21 healthy controls (Normal) were obtained by qPCR. Expression levels of miR-145 were normalized to U6. *P ≤ 0.05, **P ≤ 0.01, and ***P < 0.001.
Article Snippet: EXO1 human tagged ORF clone vector (RC200547), pCMV6-Entry vevtor (PS10001),
Techniques: Expressing, Transfection, Quantitative RT-PCR, Western Blot, Binding Assay, Mutagenesis, Plasmid Preparation, Luciferase, CCK-8 Assay
Journal: American Journal of Cancer Research
Article Title: Phospholipase C-ε regulates bladder cancer cells via ATM/EXO1
doi:
Figure Lengend Snippet: A mechanism for PLCε depletion-mediated cisplatin sensitivity of BCa. Schematic diagram describing the functional significance of PLCε in BCa cells. PLCε regulate EXO1 medicated-cell cycle, proliferation, apoptosis and cisplatin sensitivity through nuclear translocation of p-ATM and can be regulated by miR-145.
Article Snippet: EXO1 human tagged ORF clone vector (RC200547), pCMV6-Entry vevtor (PS10001),
Techniques: Functional Assay, Translocation Assay
Journal: American Journal of Cancer Research
Article Title: Phospholipase C-ε regulates bladder cancer cells via ATM/EXO1
doi:
Figure Lengend Snippet: PLCε regulates EXO1-mediated cell cycle, proliferation and apoptosis through nuclear translocation of p-ATM. A. The BCa cells were infected with vector-shEXO1, western blotting detected the expression of EXO1. B. Western blotting analysis detected the expression of EXO1, cyclinD1, c-Myc, PCNA, BCL2, caspase 3, caspase 9, and BAX in sh-NC and sh-EXO1 groups. C. The BCa cells were infected with vector-EXO1, western blotting detected the expression of EXO1. D. Western blotting analysis detected the expression of PLCε, EXO1, cyclinD1, c-Myc, PCNA, BCL2, caspase 3, caspase 9 and BAX in sh-EXO1 groups or/and Ad-shPLCε groups. E. Detection of p-ATM expression in nuclear and cytoplasm by western blot. F. Western blotting analysis showing that Ad-shPLCε reduced EXO1 level with 13 nM KU-55933 for 48 h. G. Immunofluorescence staining analysis demonstrating that Ad-shPLCε disrupted p-ATM nuclear translocation stimulated by cisplatin. Magnification: 400×. Bars = 100 μm. *P ≤ 0.05, **P ≤ 0.01, and ***P < 0.001.
Article Snippet: EXO1 human tagged ORF clone vector (RC200547), pCMV6-Entry vevtor (PS10001), vector-sh-EXO1#1 (TR304725) and
Techniques: Translocation Assay, Infection, Plasmid Preparation, Western Blot, Expressing, Immunofluorescence, Staining