Journal: Neoplasia (New York, N.Y.)

Article Title: A Preclinical Study Combining the DNA Repair Inhibitor Dbait with Radiotherapy for the Treatment of Melanoma 1

doi: 10.1016/j.neo.2014.08.008

Figure Lengend Snippet: Effect of Dbait on H2AX phosphorylation. (A) SK28 and 501mel melanoma cells were transfected with an inactive control oligonucleotide or Dbait ± NU7026 (DNA-PK inhibitor). Immunofluorescence of γ-H2AX (red) and chromatin (DAPI; blue) was visualized. Dbait treatment led to non-localized pan-nuclear H2AX phosphorylation evidencing Dbait activity. This activity was dependent on DNA-PK activation. Bar, 50 μm. (B) SK28 melanoma cells were transfected with an inactive control oligonucleotide or Dbait. Immunofluorescence of γ-H2AX (red) and chromatin (DAPI; blue) was visualized immediately after irradiation and/or Dbait treatment. Irradiation alone resulted in localized γ-H2AX foci representing radio-induced DNA DSBs; Dbait treatment with or without irradiation led to non-localized pan-nuclear H2AX phosphorylation evidencing Dbait activity. Bar, 30 μm. (C) SK28 cells were transduced with lentiviruses that express either control, non-targeting shRNA, or shRNA targeting DNA-PKcs. After Dbait transfection, cells were immunostained with mouse monoclonal anti–DNA-PKcs or anti–γ-H2AX. Dbait activity was not detected in cells transduced with shRNA targeting DNA-PKcs. Bar, 50 μm.

Article Snippet: Subconfluent SK28 cells were transduced with lentiviruses that expressed either the control, non-targeting shRNA (shCTL; sc-108080; Santa Cruz Biotechnology, (Dallas, Texas, USA)), or shRNA targeting DNA-PKcs (shDNA-PK; sc-35200-V; Santa Cruz Biotechnology) at a multiplicity of infection of 3 using polybrene (5 μg/ml).

Techniques: Phospho-proteomics, Transfection, Control, Immunofluorescence, Activity Assay, Activation Assay, Irradiation, Transduction, shRNA

Journal: International Journal of Biological Sciences

Article Title: GATA Binding Protein 4 Regulates Tooth Root Dentin Development via FBP1

doi: 10.7150/ijbs.36567

Figure Lengend Snippet: Effect of GATA4 on odontoblasts polarization, cell proliferation and secretion of root dentin matrix. ( A ) H&E-stained sections of the mandibular first molars showed that the odontoblasts have shorter height and flattened morphology in Wnt1-Cre;GATA4 fl/fl mice at P14 and P21 (Bar: 50 μm). ( B-E ) Immunohistochemistry staining images showing expression levels of DSPP (B), COL-1 (C), DCN (D), and PCNA (E) in root of Wnt1-Cre;GATA4 fl/fl mice at P14. ( F ) The height of odontoblasts was measured. Quantitative assessment of the molar root odontoblasts height from (A) at P14 and P21. ( G-J ) Percentages of DSPP (G), COL-1 (H), DCN (I), and PCNA-positive (J) cells in the control and mutant groups were calculated. ( K ) Double-labeled fluorescent immunostaining of DAPI-stained cell nuclei (blue), GFP (green), and merged images in tooth root at P17 after the injetion in vivo (Bar: 50 μm). ( L ) H&E-stained sections of the mandibular first molars showed that root dentin thickness was increased in GATA4 OE group mice at P17 (Bar: 50 μm). ( M ) Quantitative assessment of the molar root dentin thickness at P17. ( N ) Expression of GATA4 after lentivirus injected at P17 (Bar: 100 μm). ( O ) Percentages of GATA4-positive cells in the two groups were calculated. ( P ) Immunohistochemistry staining images showing expression levels of DSPP, COL-1, and DCN in root of mice at P17. ( Q ) Percentages of DSPP, COL-1, and DCN-positive cells in the two groups were calculated. Data expressed as the mean ± standard deviation, n = 3. * P < 0.05, ** P < 0.01.

Article Snippet: Recombinant lentivirus of shRNA target GATA4 (shGATA4; 5′-GAATAAATCTAAGACACCA-3′), control lentivirus (shCTRL; 5′-TTCTCCGAACGTGTCACGT-3′), lentivirus to overexpress GATA4 (pcDNA-GATA4) and blank lentivirus were purchased from GenePharma (Shanghai, China).

Techniques: Staining, Immunohistochemistry, Expressing, Control, Mutagenesis, Labeling, Immunostaining, In Vivo, Injection, Standard Deviation

Journal: International Journal of Biological Sciences

Article Title: GATA Binding Protein 4 Regulates Tooth Root Dentin Development via FBP1

doi: 10.7150/ijbs.36567

Figure Lengend Snippet: Characterization of DPSCs and expression of GATA4 in DPSCs. ( A ) Flow chart explaining cells isolation, culture and collection for FCM analyses. ( B, C ) Flow cytometry demonstrated that DPSCs expressed mesenchymal markers (CD44 and CD90) at a high level and generated the hematopoietic makers (CD14 and CD45) at a low level. ( D ) After mineralization for 3, 7, and 14 days, GATA4 protein expression was assessed at the indicated time points by western blotting. ( E ) DPSCs infected with lentivirus as assessed by fluorescence microscopy (Bar: 50 μm). ( F ) Efficiency of GATA4 knockdown after infection with lentivirus was analysed by western blotting. ( G ) Quantitative analysis of western blotting bands from (D) is shown as the ratio of GATA4 to GAPDH. ( H ) Quantitative analysis of western blotting bands from (F) is shown as the ratio of GATA4 to GAPDH. Data expressed as the mean ± standard deviation, n = 3. ** P < 0.01.

Article Snippet: Recombinant lentivirus of shRNA target GATA4 (shGATA4; 5′-GAATAAATCTAAGACACCA-3′), control lentivirus (shCTRL; 5′-TTCTCCGAACGTGTCACGT-3′), lentivirus to overexpress GATA4 (pcDNA-GATA4) and blank lentivirus were purchased from GenePharma (Shanghai, China).

Techniques: Expressing, Isolation, Flow Cytometry, Generated, Western Blot, Infection, Fluorescence, Microscopy, Knockdown, Standard Deviation

Journal: International Journal of Biological Sciences

Article Title: GATA Binding Protein 4 Regulates Tooth Root Dentin Development via FBP1

doi: 10.7150/ijbs.36567

Figure Lengend Snippet: Effect of GATA4 on migration, proliferation and odonto/osteogenic differentiation of DPSCs. ( A ) Effect of GATA4 knockdown on cell migration was assessed by wound scratch assays (Bar: 100 μm). ( B ) Effect of GATA4 knockdown on cell migration was assessed by transwell assay (Bar: 100 μm). ( C ) ALP staining observed after 7 days of mineralization (Bar: 100 μm). ( D ) After mineralization for 14 days, alizarin red staining was performed and observed with an image scanner (upper) and under a microscope (lower) (Bar: 100 μm). ( E ) The CCK8 assay was used to analyse the proliferation of DPSCs after infection with GATA4 lentivirus. ( F ) Quantitative assessment of ALP-positive areas. ( G ) Semi-quantitative estimation of calcium. ( H ) Expression levels of odonto/osteogenic-related genes (DSPP, BMP4, RUNX2, OSX, OPN, and OCN) were assessed by western blotting. ( I ) Quantitative analysis of western blotting bands from (H). ( J ) Expressions of odonto/osteogenic markers (Dspp, Dmp1, Col1a1, Bmp4, Runx2, Osx, Ocn, and Alp) were assessed by qRT-PCR. (Bar: 100 μm). Data expressed as the mean ± standard deviation; n = 3. * P < 0.05, ** P < 0.01.

Article Snippet: Recombinant lentivirus of shRNA target GATA4 (shGATA4; 5′-GAATAAATCTAAGACACCA-3′), control lentivirus (shCTRL; 5′-TTCTCCGAACGTGTCACGT-3′), lentivirus to overexpress GATA4 (pcDNA-GATA4) and blank lentivirus were purchased from GenePharma (Shanghai, China).

Techniques: Migration, Knockdown, Transwell Assay, Staining, Microscopy, CCK-8 Assay, Infection, Expressing, Western Blot, Quantitative RT-PCR, Standard Deviation

Journal: International Journal of Biological Sciences

Article Title: GATA Binding Protein 4 Regulates Tooth Root Dentin Development via FBP1

doi: 10.7150/ijbs.36567

Figure Lengend Snippet: Overexpression of GATA4 in DPSCs increased the odonto/osteogenic ability. ( A ) DPSCs infected with lentivirus control and pcDNA-GATA4 were observed under a fluorescence microscope (Bar: 50 μm). ( B ) Protein expression of GATA4 in the DPSCs was tested by western blotting after overexpression of GATA4. ( C ) Quantitative analysis of western blotting bands from (B). ( D ) ALP staining was observed after 7 days of mineralization. ( E ) ARS staining was performed 14 days after mineralization (Bar: 100 μm). ( F ) Quantitative assessment of ALP-positive areas after 7 days of osteogenic induction. ( G ) Semi-quantitative estimation of calcium. Data expressed as the mean ± standard deviation; n = 3. ** P < 0.01.

Article Snippet: Recombinant lentivirus of shRNA target GATA4 (shGATA4; 5′-GAATAAATCTAAGACACCA-3′), control lentivirus (shCTRL; 5′-TTCTCCGAACGTGTCACGT-3′), lentivirus to overexpress GATA4 (pcDNA-GATA4) and blank lentivirus were purchased from GenePharma (Shanghai, China).

Techniques: Over Expression, Infection, Control, Fluorescence, Microscopy, Expressing, Western Blot, Staining, Standard Deviation

Journal: International Journal of Biological Sciences

Article Title: GATA Binding Protein 4 Regulates Tooth Root Dentin Development via FBP1

doi: 10.7150/ijbs.36567

Figure Lengend Snippet: GATA4 enhanced glycolysis by negatively regulating FBP1 in DPSCs. ( A ) Co-immunoprecipitated proteins were then separated using SDS-PAGE and stained. ( B ) Mass spectrometry followed by peptide sequencing identified the two proteins as fructose-1,6-bisphosphatase 1 (FBP1) and isoform CRA_d. ( C ) Immunofluorescence staining revealed that GATA4 co-localizes with FBP1 in the nucleus in DPSCs (Bar: 100 μm). ( D ) Expression pattern of GATA4 during tooth development at embryonic day 13.5 (E13.5), E14.5, E15.5, P1, and P14 (Bar: 50 μm). ( E ) FBP1 expression was tested by western blotting after infection with GATA4 lentivirus in DPSCs. ( F ) Quantitative analysis of western blotting bands from (E). ( G ) FBP1 expression was tested by western blotting after GATA4 overexpression in DPSCs. ( H ) Quantitative analysis of western blotting bands from (G). ( I, J ) knockdown of GATA4 resulted in decreased glucose consumption and lactate production. ( K, L ) Overexpression of GATA4 resulted in increased glucose consumption and lactate production. Data expressed as the mean ± standard deviation; n = 3. ** P < 0.01.

Article Snippet: Recombinant lentivirus of shRNA target GATA4 (shGATA4; 5′-GAATAAATCTAAGACACCA-3′), control lentivirus (shCTRL; 5′-TTCTCCGAACGTGTCACGT-3′), lentivirus to overexpress GATA4 (pcDNA-GATA4) and blank lentivirus were purchased from GenePharma (Shanghai, China).

Techniques: Immunoprecipitation, SDS Page, Staining, Mass Spectrometry, Sequencing, Immunofluorescence, Expressing, Western Blot, Infection, Over Expression, Knockdown, Standard Deviation

Journal: Oncogene

Article Title: Glucose deprivation increases monocarboxylate transporter 1 (MCT1) expression and MCT1-dependent tumor cell migration.

doi: 10.1038/onc.2013.454

Figure Lengend Snippet: Figure 6. Targeting MCT1 inhibits tumor cell migration towards serum and glucose. (a–g) TC migration was studied in overnight transwell assays and quantified by counting migrated cells. (a) SiHa (left, n ¼ 5–6) and HeLa (right, n ¼ 9-14) cells infected with a control shRNA (shCTR) or 2 different specific shRNAs against MCT1 (shMCT1-1 and shMCT1-2) migrated towards serum. Migrated cell count is expressed as % of shCTR (*Po0.05, **Po0.01 compared to shCTR). (b) The migration of SiHa cells infected with shCTR or shMCT1-1 was assayed with the indicated glucose supplementation to upper and lower wells. Migrated cell count is expressed as % of basal migration (ns, not significant; ***Po0.005; n ¼ 9–11). (c) As in (b) but using HeLa cells transfected with shCTR, shMCT1-1 or shMCT1-2 (ns, not significant; **Po0.01; n ¼ 4-6). (d) SiHa cell migration was assayed with the indicated supplementations to upper and lower wells. Migrated cell count is expressed as % of basal migration (i.e., when glucose was present in both wells) (ns, not significant, **Po0.01, ***Po0.005 compared to basal migration; ##Po0.01 compared to migration from the glucose-starved to the glucose-containing wells; n ¼ 6-13). (e) SiHa (left, n ¼ 6) and HeLa (right, n ¼ 4) cell migration was assayed with glucose or without glucose in the lower well and with N-acetyl-L-cysteine (NAC) in the upper well where indicated (ns, not significant, **Po0.01 compared to basal migration; #Po0.01, ###Po0.005 compared to migration from the glucose-starved to the glucose-containing wells). (f) SiHa cells were sham transfected (control) or transfected with a plasmid encoding SLC16A1/MCT1 (MCT1 þ ) or CD147 (CD147 þ ). Cell migration was assayed in the presence of glucose in both wells, with and without NAC in the upper well where indicated (ns, not significant, *Po0.05, ***Po0.005 compared to migration of control cells without NAC in the upper wells; n ¼ 4-11). (g) as in (e) but with the MCT1 inhibitor a-cyano-4-hydroxycinnamate (CHC) in the upper well instead of NAC where indicated (ns, not significant, *Po0.05, ***Po0.005 compared to basal migration; ##Po0.01, ###Po0.005 compared to migration from the glucose-starved to the glucose- containing wells; n ¼ 6 all).

Article Snippet: Control shRNA (shCTR) was Addgene plasmid 1864 (Cambridge, MA, USA).

Techniques: Migration, Infection, Control, shRNA, Cell Counting, Transfection, Plasmid Preparation

Journal: PLoS Pathogens

Article Title: The herpesvirus accessory protein γ 1 34.5 facilitates viral replication by disabling mitochondrial translocation of RIG-I

doi: 10.1371/journal.ppat.1009446

Figure Lengend Snippet: (A) Validation of RIG-I knockdown in HEL cells. Cell lysates from HELs expressing control shRNA (shCtrl) or RIG-I target shRNA (shRIG-I) were subjected to western blot analysis with anti-RIG-I and β-actin antibodies. (B) Effects of γ 1 34.5 on antiviral gene expression in control or RIG-I knockdown HEL cells. Cells infected with wild type HSV-1 or Δγ 1 34.5 (5 pfu/cell) for 8 h were analyzed for transcript levels of IFN-β, Ifit1, Ifit2, and Ccl5 by quantitative PCR analysis. The data were statistically analyzed by one-way ANOVA (**, P < 0.01) with SD (n = 3). (C) Effects of γ 1 34.5 on IRF3 phosphorylation in shCtrl-transfected HEL or RIG-I knockdown HEL. Cells were infected as described in panel B and processed for Western blot analysis with antibodies against p-IRF3, IRF3, ICP27, γ 1 34.5 and β-actin. The experimental data are representative of results from three independent experiments.

Article Snippet: HEL stably expressed Non-Target shRNA (shCtrl) or RIG-I target shRNA (shRIG-I) were selected with puromycin (sc-205821, Santa Cruz Biotechnology) at the concentration 3μg/ml.

Techniques: Biomarker Discovery, Knockdown, Expressing, Control, shRNA, Western Blot, Gene Expression, Infection, Real-time Polymerase Chain Reaction, Phospho-proteomics, Transfection

Journal: PLoS Pathogens

Article Title: The herpesvirus accessory protein γ 1 34.5 facilitates viral replication by disabling mitochondrial translocation of RIG-I

doi: 10.1371/journal.ppat.1009446

Figure Lengend Snippet: (A) Viral replication in Rig-I +/+ or Rig-I -/- MEFs. Cells were infected with wild-type HSV-1 or the γ 1 34.5 deletion virus (Δγ 1 34.5) at a MOI 0.01. At 48 h postinfection, virus yields were determined on Vero cells by plaque assay. (B) Kinetics of viral growth in Rig-I +/+ or Rig-I -/- MEFs. Viral infection was performed as described for panel (A) and viral yields were measured at the indicated time points. (C) Viral replication in control and RIG-I knockdown human lung fibroblasts cells. shCtrl (control) or shRIG-I (RIG-I knockdown) HEL cells were infected with wild type HSV-1 or Δγ 1 34.5 (0.01 pfu/cell). At 48 h postinfection, virus yields were determined by plaque assay. (D) Kinetics of viral growth in control and RIG-I knockdown cells. Viral infection was performed as described in panel (C) and viral yields were measured at the indicated time points. The data are representative of results from three experiments with triplicate samples. Differences between the selected groups were statistically assessed by one-way ANOVA (A and C) or a two-tailed Student’s t test (B and D) (**, P < 0.01).

Article Snippet: HEL stably expressed Non-Target shRNA (shCtrl) or RIG-I target shRNA (shRIG-I) were selected with puromycin (sc-205821, Santa Cruz Biotechnology) at the concentration 3μg/ml.

Techniques: Infection, Virus, Plaque Assay, Control, Knockdown, Two Tailed Test

Journal: Oncology Letters

Article Title: Inhibition of autophagy enhances apoptosis induced by bortezomib in AML cells

doi: 10.3892/ol.2020.12370

Figure Lengend Snippet: Downregulation of Beclin-1 enhances apoptosis and reduces cell viability induced by bortezomib in NB4 cells. Cells were infected with lentiviruses expressing shRNAs (non-targeting control or Beclin-1). Puromycin-resistant cells were pooled after each infection. (A) Cells transfected with the control shRNA and shBeclin-1 were treated with or without bortezomib (20 nM) for 24 h, and the expression levels of cleaved caspase-3, cleaved PARP, Bcl-2, p62 and Beclin-1, and LC3-I to LC3-II conversion were determined by western blotting. (B) Ratio of Bcl-2 and β-actin expression levels. Data are presented as the mean ± standard deviation of three independent repeats. *P<0.05 and **P<0.01. (C) Ratio of LC3-II and β-actin expression levels. Data are presented as the mean ± standard deviation of three independent repeats. **P<0.01. (D) Cells transfected with the control shRNA and shBeclin-1 were treated with bortezomib (20 nM) for 0 and 24 h, and cell viability was assessed using a water-soluble tetrazolium salts-8 assay. Data are presented as the mean ± standard deviation of three independent repeats. ***P<0.001. shRNA/sh, short hairpin RNA; CTRL, control; PARP, poly(ADP-ribose) polymerase.

Article Snippet: Lentiviral particles containing short hairpin RNA (shRNA/sh) Beclin-1 (cat. no. 131209BZ; 5′-CCGACTTGTTCCTTACGGAAA-3′) and shRNA negative control (shCTRL; cat. no. 131127CZ; 5′-TTCTCCGAACGTGTCACGTTTC-3′) expression vectors were obtained from Shanghai GenePharma Co., Ltd., and were then cloned into pGLV3/H1/GFP-Puro vector (Shanghai GenePharma Co., Ltd.).

Techniques: Infection, Expressing, Transfection, shRNA, Western Blot, Standard Deviation