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mouse anti e2f1 antibody  (Santa Cruz Biotechnology)


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    Santa Cruz Biotechnology mouse anti e2f1 antibody
    DDX5 enhances over-expressed <t>E2F1</t> activity in Hela cells. ( A ) Doxycyclin-inducible 3xFLAG-E2F1 HeLa cell lines were established by stably introducing T-REx-HeLa cells with pcDNA4/TO-3xFLAG-E2F1-puro. Puromycin-resistant clones were screened for transactivation ability by reporter assay using an ARF promoter-driven luciferase reporter. Fold activations by addition of Doxycyclin of three representative clones are shown. As a positive control, T-REx HeLa cells were transiently transfected with pcDNA4/TO-3xFLAG-E2F1-puro (T-REx + E2F1). ( B ) Expression of 3xFLAG-E2F1 in the three representative clones with or without Doxycyclin treatment was examined by western blot analysis using anti-E2F1 antibody. ( C ) Ten mg of nuclear extracts from T-REx-HeLa-3xFLAG-E2F1 with or without Doxycyclin treatment were immunoprecipitated with anti-FLAG antibody-conjugated agarose beads. Eluates were resolved by SDS-PAGE followed by silver staining. ( D ) DDX5 enhanced over-expressed E2F1 activity in HeLa cells. HeLa cells were transfected with ARF or TAp73 reporter plasmids and E2F1 expression plasmid along with increasing amounts (0, 20, 100, 500 ng) of DDX5 expression vector. Fold activations by E2F1 are shown. ***: p < 0.01.
    Mouse Anti E2f1 Antibody, supplied by Santa Cruz Biotechnology, used in various techniques. Bioz Stars score: 96/100, based on 1656 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/mouse anti e2f1 antibody/product/Santa Cruz Biotechnology
    Average 96 stars, based on 1656 article reviews
    mouse anti e2f1 antibody - by Bioz Stars, 2026-03
    96/100 stars

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    1) Product Images from "DEAD/H Box 5 (DDX5) Augments E2F1-Induced Cell Death Independent of the Tumor Suppressor p53"

    Article Title: DEAD/H Box 5 (DDX5) Augments E2F1-Induced Cell Death Independent of the Tumor Suppressor p53

    Journal: International Journal of Molecular Sciences

    doi: 10.3390/ijms252413251

    DDX5 enhances over-expressed E2F1 activity in Hela cells. ( A ) Doxycyclin-inducible 3xFLAG-E2F1 HeLa cell lines were established by stably introducing T-REx-HeLa cells with pcDNA4/TO-3xFLAG-E2F1-puro. Puromycin-resistant clones were screened for transactivation ability by reporter assay using an ARF promoter-driven luciferase reporter. Fold activations by addition of Doxycyclin of three representative clones are shown. As a positive control, T-REx HeLa cells were transiently transfected with pcDNA4/TO-3xFLAG-E2F1-puro (T-REx + E2F1). ( B ) Expression of 3xFLAG-E2F1 in the three representative clones with or without Doxycyclin treatment was examined by western blot analysis using anti-E2F1 antibody. ( C ) Ten mg of nuclear extracts from T-REx-HeLa-3xFLAG-E2F1 with or without Doxycyclin treatment were immunoprecipitated with anti-FLAG antibody-conjugated agarose beads. Eluates were resolved by SDS-PAGE followed by silver staining. ( D ) DDX5 enhanced over-expressed E2F1 activity in HeLa cells. HeLa cells were transfected with ARF or TAp73 reporter plasmids and E2F1 expression plasmid along with increasing amounts (0, 20, 100, 500 ng) of DDX5 expression vector. Fold activations by E2F1 are shown. ***: p < 0.01.
    Figure Legend Snippet: DDX5 enhances over-expressed E2F1 activity in Hela cells. ( A ) Doxycyclin-inducible 3xFLAG-E2F1 HeLa cell lines were established by stably introducing T-REx-HeLa cells with pcDNA4/TO-3xFLAG-E2F1-puro. Puromycin-resistant clones were screened for transactivation ability by reporter assay using an ARF promoter-driven luciferase reporter. Fold activations by addition of Doxycyclin of three representative clones are shown. As a positive control, T-REx HeLa cells were transiently transfected with pcDNA4/TO-3xFLAG-E2F1-puro (T-REx + E2F1). ( B ) Expression of 3xFLAG-E2F1 in the three representative clones with or without Doxycyclin treatment was examined by western blot analysis using anti-E2F1 antibody. ( C ) Ten mg of nuclear extracts from T-REx-HeLa-3xFLAG-E2F1 with or without Doxycyclin treatment were immunoprecipitated with anti-FLAG antibody-conjugated agarose beads. Eluates were resolved by SDS-PAGE followed by silver staining. ( D ) DDX5 enhanced over-expressed E2F1 activity in HeLa cells. HeLa cells were transfected with ARF or TAp73 reporter plasmids and E2F1 expression plasmid along with increasing amounts (0, 20, 100, 500 ng) of DDX5 expression vector. Fold activations by E2F1 are shown. ***: p < 0.01.

    Techniques Used: Activity Assay, Stable Transfection, Clone Assay, Reporter Assay, Luciferase, Positive Control, Transfection, Expressing, Western Blot, Immunoprecipitation, SDS Page, Silver Staining, Plasmid Preparation

    E2F1-interacting protein candidates identified by MS analysis.
    Figure Legend Snippet: E2F1-interacting protein candidates identified by MS analysis.

    Techniques Used: Binding Assay, RNA Binding Assay

    DDX5 enhances E2F1 induction of endogenous target gene expression and cell death in normal cells. ( A ) DDX5 enhances over-expressed E2F1 activity in human normal fibroblasts (HFF). HFFs were transfected with the ARF or TAp73 reporter plasmid and E2F1 expression plasmid with increasing amounts (0, 125, 250, 500 ng) of DDX5 expression vector. Fold activations by E2F1 are shown. ***: p < 0.01. ( B ) DDX5 enhances endogenous deregulated E2F activity in normal cells. HFFs were transfected with the ARF reporter plasmid with E1a and DDX5 expression vectors. ***: p < 0.01. ( C ) Enhancement by DDX5 is through deregulated E2F1 activity. HFFs were transfected with a reporter plasmid possessing 3 tandem repeats of the ARF promoter E2F-responsive element (EREA (WT)), or its E2F binding site mutant (EREA (mt)), upstream of an SV40 core promoter (pGL3-Promoter), along with E2F1 and DDX5 expression vectors. pGL3-Promoter was used as a negative control. Fold induction by E2F1 is shown. ***: p < 0.01. ( D ) Enhancement of over-expressed E2F1 activity by DDX5 does not depend on helicase activity. Effects of helicase mutant DDX5(K144R) on E2F1 activation of the ARF (left panels) and TAp73 (right panels) promoters were examined at 500 ng of expression vector in as in ( A ). **: p < 0.05, ***: p < 0.01. ( E ) DDX5 enhances E2F1 induction of endogenous gene expression. HFFs were infected with Ad-FLAG-E2F1 (multiplicity of infection (MOI): 20) along with or without Ad-DDX5 or Ad-DDX5(K144R) (MOI: 50). The cells were further cultured for 48 h in the absence of serum and harvested. mRNA levels of ARF, BIM, and Aspp1 genes were examined by qRT-PCR. **: p < 0.05, ***: p < 0.01. ( F ) DDX5 enhances E2F1 induction of cell death. HFFs were infected with Ad-FLAG-E2F1 (MOI: 20) along with or without Ad-DDX5 or Ad-DDX5(K144R) (MOI: 50). The cells were cultured for 3 days and harvested. The percentage of dead cells was determined by FACS analysis as those with subG1 DNA content. ***: p < 0.01. ( G ) Expression of E2F1 and DDX5 protein levels were determined by western blot analysis under the same condition as in ( E ). β -actin was used as an internal control. ( H ) Expression levels of FLAG-E2F1 and DDX5 together with ARF, p53, and TAp73 were examined by western blot analysis under the same conditions as above. β -actin was used as an internal control. ***: p < 0.01. ( I ) DDX5 enhances endogenous deregulated E2F activity. HFFs were infected with Ad-12SE1a(∆2–11) (MOI: 200) along with or without Ad-DDX5 (MOI: 50). The cells were further cultured for 48 h in the absence of serum and harvested. mRNA levels of ARF, BIM, and Aspp1 genes were examined by qRT-PCR. **: p < 0.05, ***: p < 0.01. ( J ) Expression levels of E1a and DDX5 together with E2F1 were examined by western blot analysis.
    Figure Legend Snippet: DDX5 enhances E2F1 induction of endogenous target gene expression and cell death in normal cells. ( A ) DDX5 enhances over-expressed E2F1 activity in human normal fibroblasts (HFF). HFFs were transfected with the ARF or TAp73 reporter plasmid and E2F1 expression plasmid with increasing amounts (0, 125, 250, 500 ng) of DDX5 expression vector. Fold activations by E2F1 are shown. ***: p < 0.01. ( B ) DDX5 enhances endogenous deregulated E2F activity in normal cells. HFFs were transfected with the ARF reporter plasmid with E1a and DDX5 expression vectors. ***: p < 0.01. ( C ) Enhancement by DDX5 is through deregulated E2F1 activity. HFFs were transfected with a reporter plasmid possessing 3 tandem repeats of the ARF promoter E2F-responsive element (EREA (WT)), or its E2F binding site mutant (EREA (mt)), upstream of an SV40 core promoter (pGL3-Promoter), along with E2F1 and DDX5 expression vectors. pGL3-Promoter was used as a negative control. Fold induction by E2F1 is shown. ***: p < 0.01. ( D ) Enhancement of over-expressed E2F1 activity by DDX5 does not depend on helicase activity. Effects of helicase mutant DDX5(K144R) on E2F1 activation of the ARF (left panels) and TAp73 (right panels) promoters were examined at 500 ng of expression vector in as in ( A ). **: p < 0.05, ***: p < 0.01. ( E ) DDX5 enhances E2F1 induction of endogenous gene expression. HFFs were infected with Ad-FLAG-E2F1 (multiplicity of infection (MOI): 20) along with or without Ad-DDX5 or Ad-DDX5(K144R) (MOI: 50). The cells were further cultured for 48 h in the absence of serum and harvested. mRNA levels of ARF, BIM, and Aspp1 genes were examined by qRT-PCR. **: p < 0.05, ***: p < 0.01. ( F ) DDX5 enhances E2F1 induction of cell death. HFFs were infected with Ad-FLAG-E2F1 (MOI: 20) along with or without Ad-DDX5 or Ad-DDX5(K144R) (MOI: 50). The cells were cultured for 3 days and harvested. The percentage of dead cells was determined by FACS analysis as those with subG1 DNA content. ***: p < 0.01. ( G ) Expression of E2F1 and DDX5 protein levels were determined by western blot analysis under the same condition as in ( E ). β -actin was used as an internal control. ( H ) Expression levels of FLAG-E2F1 and DDX5 together with ARF, p53, and TAp73 were examined by western blot analysis under the same conditions as above. β -actin was used as an internal control. ***: p < 0.01. ( I ) DDX5 enhances endogenous deregulated E2F activity. HFFs were infected with Ad-12SE1a(∆2–11) (MOI: 200) along with or without Ad-DDX5 (MOI: 50). The cells were further cultured for 48 h in the absence of serum and harvested. mRNA levels of ARF, BIM, and Aspp1 genes were examined by qRT-PCR. **: p < 0.05, ***: p < 0.01. ( J ) Expression levels of E1a and DDX5 together with E2F1 were examined by western blot analysis.

    Techniques Used: Targeted Gene Expression, Activity Assay, Transfection, Plasmid Preparation, Expressing, Binding Assay, Mutagenesis, Negative Control, Activation Assay, Gene Expression, Infection, Cell Culture, Quantitative RT-PCR, Western Blot, Control

    Knockdown of DDX5 expression reduces E2F1-induction of tumor suppressor gene expression and cell death in normal cells. ( A ) Knockdown effects of shRNA against DDX5 (shDDX5) in HFFs. HFFs were infected with Ad-shDDX5-1, Ad-shDDX5-2, or control virus (MOI: 20), and cultured for 72 h. The cells were then infected with Ad-FLAG-E2F1 or control virus (MOI: 20), further cultured for 24 h, and harvested. Expression of DDX5 and FLAG-E2F1 protein levels were determined by western blotting. β -actin was used as an internal control. **: p < 0.05, ***: p < 0.01. ( B ) Knockdown of DDX5 reduced E2F1 induction of ARF, BIM, and Aspp1 gene expression in HFFs. The cells were infected with Ad-shDDX5-1 or -2 and FLAG-E2F1 in the same way as above. mRNA levels of the ARF, BIM, and Aspp1 genes were examined by qRT-PCR. Knockdown of DDX5 was confirmed at mRNA levels by qRT-PCR. **: p < 0.05, ***: p < 0.01. ( C ) Knockdown of DDX5 decreased E2F1 induction of cell death in HFFs. HFFs were infected with shDDX5-1 or -2 and FLAG-E2F1 in the same way as above, cultured for 3 days and harvested. The percentage of dead cells was determined by FACS analysis as those with subG1 DNA content. ***: p < 0.01.
    Figure Legend Snippet: Knockdown of DDX5 expression reduces E2F1-induction of tumor suppressor gene expression and cell death in normal cells. ( A ) Knockdown effects of shRNA against DDX5 (shDDX5) in HFFs. HFFs were infected with Ad-shDDX5-1, Ad-shDDX5-2, or control virus (MOI: 20), and cultured for 72 h. The cells were then infected with Ad-FLAG-E2F1 or control virus (MOI: 20), further cultured for 24 h, and harvested. Expression of DDX5 and FLAG-E2F1 protein levels were determined by western blotting. β -actin was used as an internal control. **: p < 0.05, ***: p < 0.01. ( B ) Knockdown of DDX5 reduced E2F1 induction of ARF, BIM, and Aspp1 gene expression in HFFs. The cells were infected with Ad-shDDX5-1 or -2 and FLAG-E2F1 in the same way as above. mRNA levels of the ARF, BIM, and Aspp1 genes were examined by qRT-PCR. Knockdown of DDX5 was confirmed at mRNA levels by qRT-PCR. **: p < 0.05, ***: p < 0.01. ( C ) Knockdown of DDX5 decreased E2F1 induction of cell death in HFFs. HFFs were infected with shDDX5-1 or -2 and FLAG-E2F1 in the same way as above, cultured for 3 days and harvested. The percentage of dead cells was determined by FACS analysis as those with subG1 DNA content. ***: p < 0.01.

    Techniques Used: Knockdown, Expressing, Gene Expression, shRNA, Infection, Control, Virus, Cell Culture, Western Blot, Quantitative RT-PCR

    Deregulated E2F1 recruits DDX5 to target genes. ( A ) DDX5 and E2F1 are co-localized in the nucleus. HFFs were infected with Ad-12SE1a(∆2–11) ( upper panel) or Ad-FLAG-E2F1 ( lower panel), and further cultured for 48 h in the absence of serum. Localization of DDX5 and E2F1 was examined by confocal laser microscopy. Yellow color in (E2F1+DDX5 merge) indicates that both proteins fluorophores are in close proximity, suggesting colocalization. ( B ) DDX5 was recruited to E2F1 target genes in HFFs. HFFs were starved of serum, restimulated with serum, or deregulated E2F1 activity was generated by over-expression of E2F1 or expression of E1a by adenovirus-mediated gene transfer. ChIP assay was performed using E2F1 and DDX5-specific antibodies. Anti-hemagglutinin (HA) antibody and the glyceraldehyde 3-phosphate dehydrogenase (GAPDH) gene served as negative controls. Intensities of bands were measured by ImageJ and presented as relative intensities.
    Figure Legend Snippet: Deregulated E2F1 recruits DDX5 to target genes. ( A ) DDX5 and E2F1 are co-localized in the nucleus. HFFs were infected with Ad-12SE1a(∆2–11) ( upper panel) or Ad-FLAG-E2F1 ( lower panel), and further cultured for 48 h in the absence of serum. Localization of DDX5 and E2F1 was examined by confocal laser microscopy. Yellow color in (E2F1+DDX5 merge) indicates that both proteins fluorophores are in close proximity, suggesting colocalization. ( B ) DDX5 was recruited to E2F1 target genes in HFFs. HFFs were starved of serum, restimulated with serum, or deregulated E2F1 activity was generated by over-expression of E2F1 or expression of E1a by adenovirus-mediated gene transfer. ChIP assay was performed using E2F1 and DDX5-specific antibodies. Anti-hemagglutinin (HA) antibody and the glyceraldehyde 3-phosphate dehydrogenase (GAPDH) gene served as negative controls. Intensities of bands were measured by ImageJ and presented as relative intensities.

    Techniques Used: Infection, Cell Culture, Microscopy, Activity Assay, Generated, Over Expression, Expressing

    DDX5 enhances E2F1 induction of tumor suppressor gene expression and cell death in normal cells transduced with dominant negative mutants of p53. ( A ) HFFs were stably transduced with DNp53s. HFFs were immortalized by stably introducing hTERT and subsequently infected with either of two DNp53s, R175H or R273H, using retroviral vectors. Expression of endogenous p53 protein levels in the cells was examined by western blot analysis. β-actin was used as an internal control. ( B ) Dominant negative effects of DNp53s. The cells were infected with Ad-p53 (MOI: 50), cultured for 24 h and harvested. The levels of p53AIP1 gene expression were examined by qRT-PCR. ***: p < 0.01. hTEPT immortalized HFFs were used as control cells. ( C ) DDX5 enhanced E2F1 induction of tumor suppressor genes in DNp53-introduced HFFs. The cells were infected with Ad-FLAG-E2F1 and Ad-DDX5, cultured for 48 h and harvested. The levels of BIM and Aspp1 genes expression were examined by qRT-PCR. **: p < 0.05, ***: p < 0.01. ( D ) DDX5 enhanced E2F1 induction of cell death in DNp53-transduced HFFs. The cells were infected with Ad-FLAG-E2F1 and Ad-DDX5, cultured for 72 h and harvested. Percentage of dead cells was examined by FACS analysis as those with subG1 DNA content. ***: p < 0.01. ( E ) Knockdown of BIM by shRNA decreased E2F1-induced cell death in DNp53-introduced HFFs. The cells were infected with Ad-shBIM-1 or -2 (MOI: 2) and Ad-FLAG-E2F1 (MOI: 50), cultured for 3 days and harvested. The percentage of dead cells was determined by FACS analysis as those with subG1 DNA content. ***: p < 0.01. ( F ) Knockdown effects of shBIMs examined by qRT-PCR under the same condition as above. **: p < 0.05, ***: p < 0.01.
    Figure Legend Snippet: DDX5 enhances E2F1 induction of tumor suppressor gene expression and cell death in normal cells transduced with dominant negative mutants of p53. ( A ) HFFs were stably transduced with DNp53s. HFFs were immortalized by stably introducing hTERT and subsequently infected with either of two DNp53s, R175H or R273H, using retroviral vectors. Expression of endogenous p53 protein levels in the cells was examined by western blot analysis. β-actin was used as an internal control. ( B ) Dominant negative effects of DNp53s. The cells were infected with Ad-p53 (MOI: 50), cultured for 24 h and harvested. The levels of p53AIP1 gene expression were examined by qRT-PCR. ***: p < 0.01. hTEPT immortalized HFFs were used as control cells. ( C ) DDX5 enhanced E2F1 induction of tumor suppressor genes in DNp53-introduced HFFs. The cells were infected with Ad-FLAG-E2F1 and Ad-DDX5, cultured for 48 h and harvested. The levels of BIM and Aspp1 genes expression were examined by qRT-PCR. **: p < 0.05, ***: p < 0.01. ( D ) DDX5 enhanced E2F1 induction of cell death in DNp53-transduced HFFs. The cells were infected with Ad-FLAG-E2F1 and Ad-DDX5, cultured for 72 h and harvested. Percentage of dead cells was examined by FACS analysis as those with subG1 DNA content. ***: p < 0.01. ( E ) Knockdown of BIM by shRNA decreased E2F1-induced cell death in DNp53-introduced HFFs. The cells were infected with Ad-shBIM-1 or -2 (MOI: 2) and Ad-FLAG-E2F1 (MOI: 50), cultured for 3 days and harvested. The percentage of dead cells was determined by FACS analysis as those with subG1 DNA content. ***: p < 0.01. ( F ) Knockdown effects of shBIMs examined by qRT-PCR under the same condition as above. **: p < 0.05, ***: p < 0.01.

    Techniques Used: Gene Expression, Transduction, Dominant Negative Mutation, Stable Transfection, Infection, Retroviral, Expressing, Western Blot, Control, Cell Culture, Quantitative RT-PCR, Knockdown, shRNA

    DDX5 enhances E2F1-mediated p53-independent cell death in cancer cells. ( A , B ) DDX5 enhances E2F1 induction of tumor suppressor genes expression in p53 null cancer cells. H1299 ( A ) and Saos-2 ( B ) cells were infected with Ad-FLAG-E2F1 (MOI: 2) along with or without Ad-DDX5 (MOI: 5). The cells were further cultured for 24 h and harvested. mRNA levels of BIM and Aspp1 genes were examined by qRT-PCT. **: p < 0.05, ***: p < 0.01. ( C ) DDX5 enhances E2F1-induced cell death in Saos-2 cells. Saos-2 cells were infected in the same way as above, further cultured for 2 days and harvested. Percentage of dead cells was determined by FACS analysis as those with subG1 DNA content. ***: p < 0.01. ( D ) Knockdown of DDX5 decreases E2F1 induction of tumor suppressor gene expression in Saos-2 cells. Cells were infected with Ad-shDDX5-1 (MOI: 1) or -2 (MOI: 2), and cultured for 72 h. The cells were then infected with Ad-FLAG-E2F1 (MOI: 2) further cultured for 24 h and harvested. The levels of BIM and Aspp1 gene expression, and knockdown of DDX5 gene expression were examined by qRT-PCR. **: p < 0.05, ***: p < 0.01. ( E ) Knockdown of DDX5 decreases E2F1-induced cell death in Saos-2 cells. The cells were infected in the same way as above, cultured for 3 days and harvested. The percentage of dead cells was examined as above. ***: p < 0.01. ( F , G ) Over-expression of E2F1 induces cell death in p53-disabled cancer cells. H1299 ( F ) and Saos-2 ( G ) cells were infected with Ad-shBIM-1 (MOI: 1) or -2 (MOI: 2) and Ad-FLAG-E2F1 (MOI: 2), further cultured for 3 days and harvested. Percentage of dead cells was examined as above (left panels). Knockdown of BIM by shRNA was confirmed by qRT-PCR (right panels). **: p < 0.05, ***: p < 0.01.
    Figure Legend Snippet: DDX5 enhances E2F1-mediated p53-independent cell death in cancer cells. ( A , B ) DDX5 enhances E2F1 induction of tumor suppressor genes expression in p53 null cancer cells. H1299 ( A ) and Saos-2 ( B ) cells were infected with Ad-FLAG-E2F1 (MOI: 2) along with or without Ad-DDX5 (MOI: 5). The cells were further cultured for 24 h and harvested. mRNA levels of BIM and Aspp1 genes were examined by qRT-PCT. **: p < 0.05, ***: p < 0.01. ( C ) DDX5 enhances E2F1-induced cell death in Saos-2 cells. Saos-2 cells were infected in the same way as above, further cultured for 2 days and harvested. Percentage of dead cells was determined by FACS analysis as those with subG1 DNA content. ***: p < 0.01. ( D ) Knockdown of DDX5 decreases E2F1 induction of tumor suppressor gene expression in Saos-2 cells. Cells were infected with Ad-shDDX5-1 (MOI: 1) or -2 (MOI: 2), and cultured for 72 h. The cells were then infected with Ad-FLAG-E2F1 (MOI: 2) further cultured for 24 h and harvested. The levels of BIM and Aspp1 gene expression, and knockdown of DDX5 gene expression were examined by qRT-PCR. **: p < 0.05, ***: p < 0.01. ( E ) Knockdown of DDX5 decreases E2F1-induced cell death in Saos-2 cells. The cells were infected in the same way as above, cultured for 3 days and harvested. The percentage of dead cells was examined as above. ***: p < 0.01. ( F , G ) Over-expression of E2F1 induces cell death in p53-disabled cancer cells. H1299 ( F ) and Saos-2 ( G ) cells were infected with Ad-shBIM-1 (MOI: 1) or -2 (MOI: 2) and Ad-FLAG-E2F1 (MOI: 2), further cultured for 3 days and harvested. Percentage of dead cells was examined as above (left panels). Knockdown of BIM by shRNA was confirmed by qRT-PCR (right panels). **: p < 0.05, ***: p < 0.01.

    Techniques Used: Expressing, Infection, Cell Culture, Knockdown, Gene Expression, Quantitative RT-PCR, Over Expression, shRNA

    A model for the role of DDX5 in E2F1-mediated tumor suppressor gene expression and cell death. DDX5 enhances E2F1 induction of tumor suppressor gene expression, thereby enhancing E2F1-mediated cell death, independent of p53.
    Figure Legend Snippet: A model for the role of DDX5 in E2F1-mediated tumor suppressor gene expression and cell death. DDX5 enhances E2F1 induction of tumor suppressor gene expression, thereby enhancing E2F1-mediated cell death, independent of p53.

    Techniques Used: Gene Expression



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    Santa Cruz Biotechnology mouse monoclonal anti e2f1

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    mouse anti-e2f1 a300-766a  (Santa Cruz Biotechnology)
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    Santa Cruz Biotechnology mouse anti-e2f1 a300-766a

    Mouse Anti E2f1 A300 766a, supplied by Santa Cruz Biotechnology, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/mouse anti-e2f1 a300-766a/product/Santa Cruz Biotechnology
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    DDX5 enhances over-expressed E2F1 activity in Hela cells. ( A ) Doxycyclin-inducible 3xFLAG-E2F1 HeLa cell lines were established by stably introducing T-REx-HeLa cells with pcDNA4/TO-3xFLAG-E2F1-puro. Puromycin-resistant clones were screened for transactivation ability by reporter assay using an ARF promoter-driven luciferase reporter. Fold activations by addition of Doxycyclin of three representative clones are shown. As a positive control, T-REx HeLa cells were transiently transfected with pcDNA4/TO-3xFLAG-E2F1-puro (T-REx + E2F1). ( B ) Expression of 3xFLAG-E2F1 in the three representative clones with or without Doxycyclin treatment was examined by western blot analysis using anti-E2F1 antibody. ( C ) Ten mg of nuclear extracts from T-REx-HeLa-3xFLAG-E2F1 with or without Doxycyclin treatment were immunoprecipitated with anti-FLAG antibody-conjugated agarose beads. Eluates were resolved by SDS-PAGE followed by silver staining. ( D ) DDX5 enhanced over-expressed E2F1 activity in HeLa cells. HeLa cells were transfected with ARF or TAp73 reporter plasmids and E2F1 expression plasmid along with increasing amounts (0, 20, 100, 500 ng) of DDX5 expression vector. Fold activations by E2F1 are shown. ***: p < 0.01.

    Journal: International Journal of Molecular Sciences

    Article Title: DEAD/H Box 5 (DDX5) Augments E2F1-Induced Cell Death Independent of the Tumor Suppressor p53

    doi: 10.3390/ijms252413251

    Figure Lengend Snippet: DDX5 enhances over-expressed E2F1 activity in Hela cells. ( A ) Doxycyclin-inducible 3xFLAG-E2F1 HeLa cell lines were established by stably introducing T-REx-HeLa cells with pcDNA4/TO-3xFLAG-E2F1-puro. Puromycin-resistant clones were screened for transactivation ability by reporter assay using an ARF promoter-driven luciferase reporter. Fold activations by addition of Doxycyclin of three representative clones are shown. As a positive control, T-REx HeLa cells were transiently transfected with pcDNA4/TO-3xFLAG-E2F1-puro (T-REx + E2F1). ( B ) Expression of 3xFLAG-E2F1 in the three representative clones with or without Doxycyclin treatment was examined by western blot analysis using anti-E2F1 antibody. ( C ) Ten mg of nuclear extracts from T-REx-HeLa-3xFLAG-E2F1 with or without Doxycyclin treatment were immunoprecipitated with anti-FLAG antibody-conjugated agarose beads. Eluates were resolved by SDS-PAGE followed by silver staining. ( D ) DDX5 enhanced over-expressed E2F1 activity in HeLa cells. HeLa cells were transfected with ARF or TAp73 reporter plasmids and E2F1 expression plasmid along with increasing amounts (0, 20, 100, 500 ng) of DDX5 expression vector. Fold activations by E2F1 are shown. ***: p < 0.01.

    Article Snippet: The cells were infected with Ad-FLAG-Con or Ad-FLAG-E2F1 (MOI 20), and cultured for 48 h. For the endogenous E2F1 experiment, the cells infected with Ad-12SE1a(∆2–11) or Ad-Con (MOI 200), and cultured for 48 h. The cells were fixed and stained by mouse anti-E2F1 antibody (sc-251, Santa Cruz Biotechnology, 1:250) or rabbit anti-DDX5 antibody (ab126730, Abcam, Cambridge, UK, 1:250) and, as second antibodies, Goat anti-Mouse IgG (H + L) Cross-Absorbed Alexa Fluor 546 (A11018, Invitrogen, 1:1000) or Goat anti-Rabbit IgG H&L Alexa Fluor 488 (ab150077, abcam, 1:1000).

    Techniques: Activity Assay, Stable Transfection, Clone Assay, Reporter Assay, Luciferase, Positive Control, Transfection, Expressing, Western Blot, Immunoprecipitation, SDS Page, Silver Staining, Plasmid Preparation

    E2F1-interacting protein candidates identified by MS analysis.

    Journal: International Journal of Molecular Sciences

    Article Title: DEAD/H Box 5 (DDX5) Augments E2F1-Induced Cell Death Independent of the Tumor Suppressor p53

    doi: 10.3390/ijms252413251

    Figure Lengend Snippet: E2F1-interacting protein candidates identified by MS analysis.

    Article Snippet: The cells were infected with Ad-FLAG-Con or Ad-FLAG-E2F1 (MOI 20), and cultured for 48 h. For the endogenous E2F1 experiment, the cells infected with Ad-12SE1a(∆2–11) or Ad-Con (MOI 200), and cultured for 48 h. The cells were fixed and stained by mouse anti-E2F1 antibody (sc-251, Santa Cruz Biotechnology, 1:250) or rabbit anti-DDX5 antibody (ab126730, Abcam, Cambridge, UK, 1:250) and, as second antibodies, Goat anti-Mouse IgG (H + L) Cross-Absorbed Alexa Fluor 546 (A11018, Invitrogen, 1:1000) or Goat anti-Rabbit IgG H&L Alexa Fluor 488 (ab150077, abcam, 1:1000).

    Techniques: Binding Assay, RNA Binding Assay

    DDX5 enhances E2F1 induction of endogenous target gene expression and cell death in normal cells. ( A ) DDX5 enhances over-expressed E2F1 activity in human normal fibroblasts (HFF). HFFs were transfected with the ARF or TAp73 reporter plasmid and E2F1 expression plasmid with increasing amounts (0, 125, 250, 500 ng) of DDX5 expression vector. Fold activations by E2F1 are shown. ***: p < 0.01. ( B ) DDX5 enhances endogenous deregulated E2F activity in normal cells. HFFs were transfected with the ARF reporter plasmid with E1a and DDX5 expression vectors. ***: p < 0.01. ( C ) Enhancement by DDX5 is through deregulated E2F1 activity. HFFs were transfected with a reporter plasmid possessing 3 tandem repeats of the ARF promoter E2F-responsive element (EREA (WT)), or its E2F binding site mutant (EREA (mt)), upstream of an SV40 core promoter (pGL3-Promoter), along with E2F1 and DDX5 expression vectors. pGL3-Promoter was used as a negative control. Fold induction by E2F1 is shown. ***: p < 0.01. ( D ) Enhancement of over-expressed E2F1 activity by DDX5 does not depend on helicase activity. Effects of helicase mutant DDX5(K144R) on E2F1 activation of the ARF (left panels) and TAp73 (right panels) promoters were examined at 500 ng of expression vector in as in ( A ). **: p < 0.05, ***: p < 0.01. ( E ) DDX5 enhances E2F1 induction of endogenous gene expression. HFFs were infected with Ad-FLAG-E2F1 (multiplicity of infection (MOI): 20) along with or without Ad-DDX5 or Ad-DDX5(K144R) (MOI: 50). The cells were further cultured for 48 h in the absence of serum and harvested. mRNA levels of ARF, BIM, and Aspp1 genes were examined by qRT-PCR. **: p < 0.05, ***: p < 0.01. ( F ) DDX5 enhances E2F1 induction of cell death. HFFs were infected with Ad-FLAG-E2F1 (MOI: 20) along with or without Ad-DDX5 or Ad-DDX5(K144R) (MOI: 50). The cells were cultured for 3 days and harvested. The percentage of dead cells was determined by FACS analysis as those with subG1 DNA content. ***: p < 0.01. ( G ) Expression of E2F1 and DDX5 protein levels were determined by western blot analysis under the same condition as in ( E ). β -actin was used as an internal control. ( H ) Expression levels of FLAG-E2F1 and DDX5 together with ARF, p53, and TAp73 were examined by western blot analysis under the same conditions as above. β -actin was used as an internal control. ***: p < 0.01. ( I ) DDX5 enhances endogenous deregulated E2F activity. HFFs were infected with Ad-12SE1a(∆2–11) (MOI: 200) along with or without Ad-DDX5 (MOI: 50). The cells were further cultured for 48 h in the absence of serum and harvested. mRNA levels of ARF, BIM, and Aspp1 genes were examined by qRT-PCR. **: p < 0.05, ***: p < 0.01. ( J ) Expression levels of E1a and DDX5 together with E2F1 were examined by western blot analysis.

    Journal: International Journal of Molecular Sciences

    Article Title: DEAD/H Box 5 (DDX5) Augments E2F1-Induced Cell Death Independent of the Tumor Suppressor p53

    doi: 10.3390/ijms252413251

    Figure Lengend Snippet: DDX5 enhances E2F1 induction of endogenous target gene expression and cell death in normal cells. ( A ) DDX5 enhances over-expressed E2F1 activity in human normal fibroblasts (HFF). HFFs were transfected with the ARF or TAp73 reporter plasmid and E2F1 expression plasmid with increasing amounts (0, 125, 250, 500 ng) of DDX5 expression vector. Fold activations by E2F1 are shown. ***: p < 0.01. ( B ) DDX5 enhances endogenous deregulated E2F activity in normal cells. HFFs were transfected with the ARF reporter plasmid with E1a and DDX5 expression vectors. ***: p < 0.01. ( C ) Enhancement by DDX5 is through deregulated E2F1 activity. HFFs were transfected with a reporter plasmid possessing 3 tandem repeats of the ARF promoter E2F-responsive element (EREA (WT)), or its E2F binding site mutant (EREA (mt)), upstream of an SV40 core promoter (pGL3-Promoter), along with E2F1 and DDX5 expression vectors. pGL3-Promoter was used as a negative control. Fold induction by E2F1 is shown. ***: p < 0.01. ( D ) Enhancement of over-expressed E2F1 activity by DDX5 does not depend on helicase activity. Effects of helicase mutant DDX5(K144R) on E2F1 activation of the ARF (left panels) and TAp73 (right panels) promoters were examined at 500 ng of expression vector in as in ( A ). **: p < 0.05, ***: p < 0.01. ( E ) DDX5 enhances E2F1 induction of endogenous gene expression. HFFs were infected with Ad-FLAG-E2F1 (multiplicity of infection (MOI): 20) along with or without Ad-DDX5 or Ad-DDX5(K144R) (MOI: 50). The cells were further cultured for 48 h in the absence of serum and harvested. mRNA levels of ARF, BIM, and Aspp1 genes were examined by qRT-PCR. **: p < 0.05, ***: p < 0.01. ( F ) DDX5 enhances E2F1 induction of cell death. HFFs were infected with Ad-FLAG-E2F1 (MOI: 20) along with or without Ad-DDX5 or Ad-DDX5(K144R) (MOI: 50). The cells were cultured for 3 days and harvested. The percentage of dead cells was determined by FACS analysis as those with subG1 DNA content. ***: p < 0.01. ( G ) Expression of E2F1 and DDX5 protein levels were determined by western blot analysis under the same condition as in ( E ). β -actin was used as an internal control. ( H ) Expression levels of FLAG-E2F1 and DDX5 together with ARF, p53, and TAp73 were examined by western blot analysis under the same conditions as above. β -actin was used as an internal control. ***: p < 0.01. ( I ) DDX5 enhances endogenous deregulated E2F activity. HFFs were infected with Ad-12SE1a(∆2–11) (MOI: 200) along with or without Ad-DDX5 (MOI: 50). The cells were further cultured for 48 h in the absence of serum and harvested. mRNA levels of ARF, BIM, and Aspp1 genes were examined by qRT-PCR. **: p < 0.05, ***: p < 0.01. ( J ) Expression levels of E1a and DDX5 together with E2F1 were examined by western blot analysis.

    Article Snippet: The cells were infected with Ad-FLAG-Con or Ad-FLAG-E2F1 (MOI 20), and cultured for 48 h. For the endogenous E2F1 experiment, the cells infected with Ad-12SE1a(∆2–11) or Ad-Con (MOI 200), and cultured for 48 h. The cells were fixed and stained by mouse anti-E2F1 antibody (sc-251, Santa Cruz Biotechnology, 1:250) or rabbit anti-DDX5 antibody (ab126730, Abcam, Cambridge, UK, 1:250) and, as second antibodies, Goat anti-Mouse IgG (H + L) Cross-Absorbed Alexa Fluor 546 (A11018, Invitrogen, 1:1000) or Goat anti-Rabbit IgG H&L Alexa Fluor 488 (ab150077, abcam, 1:1000).

    Techniques: Targeted Gene Expression, Activity Assay, Transfection, Plasmid Preparation, Expressing, Binding Assay, Mutagenesis, Negative Control, Activation Assay, Gene Expression, Infection, Cell Culture, Quantitative RT-PCR, Western Blot, Control

    Knockdown of DDX5 expression reduces E2F1-induction of tumor suppressor gene expression and cell death in normal cells. ( A ) Knockdown effects of shRNA against DDX5 (shDDX5) in HFFs. HFFs were infected with Ad-shDDX5-1, Ad-shDDX5-2, or control virus (MOI: 20), and cultured for 72 h. The cells were then infected with Ad-FLAG-E2F1 or control virus (MOI: 20), further cultured for 24 h, and harvested. Expression of DDX5 and FLAG-E2F1 protein levels were determined by western blotting. β -actin was used as an internal control. **: p < 0.05, ***: p < 0.01. ( B ) Knockdown of DDX5 reduced E2F1 induction of ARF, BIM, and Aspp1 gene expression in HFFs. The cells were infected with Ad-shDDX5-1 or -2 and FLAG-E2F1 in the same way as above. mRNA levels of the ARF, BIM, and Aspp1 genes were examined by qRT-PCR. Knockdown of DDX5 was confirmed at mRNA levels by qRT-PCR. **: p < 0.05, ***: p < 0.01. ( C ) Knockdown of DDX5 decreased E2F1 induction of cell death in HFFs. HFFs were infected with shDDX5-1 or -2 and FLAG-E2F1 in the same way as above, cultured for 3 days and harvested. The percentage of dead cells was determined by FACS analysis as those with subG1 DNA content. ***: p < 0.01.

    Journal: International Journal of Molecular Sciences

    Article Title: DEAD/H Box 5 (DDX5) Augments E2F1-Induced Cell Death Independent of the Tumor Suppressor p53

    doi: 10.3390/ijms252413251

    Figure Lengend Snippet: Knockdown of DDX5 expression reduces E2F1-induction of tumor suppressor gene expression and cell death in normal cells. ( A ) Knockdown effects of shRNA against DDX5 (shDDX5) in HFFs. HFFs were infected with Ad-shDDX5-1, Ad-shDDX5-2, or control virus (MOI: 20), and cultured for 72 h. The cells were then infected with Ad-FLAG-E2F1 or control virus (MOI: 20), further cultured for 24 h, and harvested. Expression of DDX5 and FLAG-E2F1 protein levels were determined by western blotting. β -actin was used as an internal control. **: p < 0.05, ***: p < 0.01. ( B ) Knockdown of DDX5 reduced E2F1 induction of ARF, BIM, and Aspp1 gene expression in HFFs. The cells were infected with Ad-shDDX5-1 or -2 and FLAG-E2F1 in the same way as above. mRNA levels of the ARF, BIM, and Aspp1 genes were examined by qRT-PCR. Knockdown of DDX5 was confirmed at mRNA levels by qRT-PCR. **: p < 0.05, ***: p < 0.01. ( C ) Knockdown of DDX5 decreased E2F1 induction of cell death in HFFs. HFFs were infected with shDDX5-1 or -2 and FLAG-E2F1 in the same way as above, cultured for 3 days and harvested. The percentage of dead cells was determined by FACS analysis as those with subG1 DNA content. ***: p < 0.01.

    Article Snippet: The cells were infected with Ad-FLAG-Con or Ad-FLAG-E2F1 (MOI 20), and cultured for 48 h. For the endogenous E2F1 experiment, the cells infected with Ad-12SE1a(∆2–11) or Ad-Con (MOI 200), and cultured for 48 h. The cells were fixed and stained by mouse anti-E2F1 antibody (sc-251, Santa Cruz Biotechnology, 1:250) or rabbit anti-DDX5 antibody (ab126730, Abcam, Cambridge, UK, 1:250) and, as second antibodies, Goat anti-Mouse IgG (H + L) Cross-Absorbed Alexa Fluor 546 (A11018, Invitrogen, 1:1000) or Goat anti-Rabbit IgG H&L Alexa Fluor 488 (ab150077, abcam, 1:1000).

    Techniques: Knockdown, Expressing, Gene Expression, shRNA, Infection, Control, Virus, Cell Culture, Western Blot, Quantitative RT-PCR

    Deregulated E2F1 recruits DDX5 to target genes. ( A ) DDX5 and E2F1 are co-localized in the nucleus. HFFs were infected with Ad-12SE1a(∆2–11) ( upper panel) or Ad-FLAG-E2F1 ( lower panel), and further cultured for 48 h in the absence of serum. Localization of DDX5 and E2F1 was examined by confocal laser microscopy. Yellow color in (E2F1+DDX5 merge) indicates that both proteins fluorophores are in close proximity, suggesting colocalization. ( B ) DDX5 was recruited to E2F1 target genes in HFFs. HFFs were starved of serum, restimulated with serum, or deregulated E2F1 activity was generated by over-expression of E2F1 or expression of E1a by adenovirus-mediated gene transfer. ChIP assay was performed using E2F1 and DDX5-specific antibodies. Anti-hemagglutinin (HA) antibody and the glyceraldehyde 3-phosphate dehydrogenase (GAPDH) gene served as negative controls. Intensities of bands were measured by ImageJ and presented as relative intensities.

    Journal: International Journal of Molecular Sciences

    Article Title: DEAD/H Box 5 (DDX5) Augments E2F1-Induced Cell Death Independent of the Tumor Suppressor p53

    doi: 10.3390/ijms252413251

    Figure Lengend Snippet: Deregulated E2F1 recruits DDX5 to target genes. ( A ) DDX5 and E2F1 are co-localized in the nucleus. HFFs were infected with Ad-12SE1a(∆2–11) ( upper panel) or Ad-FLAG-E2F1 ( lower panel), and further cultured for 48 h in the absence of serum. Localization of DDX5 and E2F1 was examined by confocal laser microscopy. Yellow color in (E2F1+DDX5 merge) indicates that both proteins fluorophores are in close proximity, suggesting colocalization. ( B ) DDX5 was recruited to E2F1 target genes in HFFs. HFFs were starved of serum, restimulated with serum, or deregulated E2F1 activity was generated by over-expression of E2F1 or expression of E1a by adenovirus-mediated gene transfer. ChIP assay was performed using E2F1 and DDX5-specific antibodies. Anti-hemagglutinin (HA) antibody and the glyceraldehyde 3-phosphate dehydrogenase (GAPDH) gene served as negative controls. Intensities of bands were measured by ImageJ and presented as relative intensities.

    Article Snippet: The cells were infected with Ad-FLAG-Con or Ad-FLAG-E2F1 (MOI 20), and cultured for 48 h. For the endogenous E2F1 experiment, the cells infected with Ad-12SE1a(∆2–11) or Ad-Con (MOI 200), and cultured for 48 h. The cells were fixed and stained by mouse anti-E2F1 antibody (sc-251, Santa Cruz Biotechnology, 1:250) or rabbit anti-DDX5 antibody (ab126730, Abcam, Cambridge, UK, 1:250) and, as second antibodies, Goat anti-Mouse IgG (H + L) Cross-Absorbed Alexa Fluor 546 (A11018, Invitrogen, 1:1000) or Goat anti-Rabbit IgG H&L Alexa Fluor 488 (ab150077, abcam, 1:1000).

    Techniques: Infection, Cell Culture, Microscopy, Activity Assay, Generated, Over Expression, Expressing

    DDX5 enhances E2F1 induction of tumor suppressor gene expression and cell death in normal cells transduced with dominant negative mutants of p53. ( A ) HFFs were stably transduced with DNp53s. HFFs were immortalized by stably introducing hTERT and subsequently infected with either of two DNp53s, R175H or R273H, using retroviral vectors. Expression of endogenous p53 protein levels in the cells was examined by western blot analysis. β-actin was used as an internal control. ( B ) Dominant negative effects of DNp53s. The cells were infected with Ad-p53 (MOI: 50), cultured for 24 h and harvested. The levels of p53AIP1 gene expression were examined by qRT-PCR. ***: p < 0.01. hTEPT immortalized HFFs were used as control cells. ( C ) DDX5 enhanced E2F1 induction of tumor suppressor genes in DNp53-introduced HFFs. The cells were infected with Ad-FLAG-E2F1 and Ad-DDX5, cultured for 48 h and harvested. The levels of BIM and Aspp1 genes expression were examined by qRT-PCR. **: p < 0.05, ***: p < 0.01. ( D ) DDX5 enhanced E2F1 induction of cell death in DNp53-transduced HFFs. The cells were infected with Ad-FLAG-E2F1 and Ad-DDX5, cultured for 72 h and harvested. Percentage of dead cells was examined by FACS analysis as those with subG1 DNA content. ***: p < 0.01. ( E ) Knockdown of BIM by shRNA decreased E2F1-induced cell death in DNp53-introduced HFFs. The cells were infected with Ad-shBIM-1 or -2 (MOI: 2) and Ad-FLAG-E2F1 (MOI: 50), cultured for 3 days and harvested. The percentage of dead cells was determined by FACS analysis as those with subG1 DNA content. ***: p < 0.01. ( F ) Knockdown effects of shBIMs examined by qRT-PCR under the same condition as above. **: p < 0.05, ***: p < 0.01.

    Journal: International Journal of Molecular Sciences

    Article Title: DEAD/H Box 5 (DDX5) Augments E2F1-Induced Cell Death Independent of the Tumor Suppressor p53

    doi: 10.3390/ijms252413251

    Figure Lengend Snippet: DDX5 enhances E2F1 induction of tumor suppressor gene expression and cell death in normal cells transduced with dominant negative mutants of p53. ( A ) HFFs were stably transduced with DNp53s. HFFs were immortalized by stably introducing hTERT and subsequently infected with either of two DNp53s, R175H or R273H, using retroviral vectors. Expression of endogenous p53 protein levels in the cells was examined by western blot analysis. β-actin was used as an internal control. ( B ) Dominant negative effects of DNp53s. The cells were infected with Ad-p53 (MOI: 50), cultured for 24 h and harvested. The levels of p53AIP1 gene expression were examined by qRT-PCR. ***: p < 0.01. hTEPT immortalized HFFs were used as control cells. ( C ) DDX5 enhanced E2F1 induction of tumor suppressor genes in DNp53-introduced HFFs. The cells were infected with Ad-FLAG-E2F1 and Ad-DDX5, cultured for 48 h and harvested. The levels of BIM and Aspp1 genes expression were examined by qRT-PCR. **: p < 0.05, ***: p < 0.01. ( D ) DDX5 enhanced E2F1 induction of cell death in DNp53-transduced HFFs. The cells were infected with Ad-FLAG-E2F1 and Ad-DDX5, cultured for 72 h and harvested. Percentage of dead cells was examined by FACS analysis as those with subG1 DNA content. ***: p < 0.01. ( E ) Knockdown of BIM by shRNA decreased E2F1-induced cell death in DNp53-introduced HFFs. The cells were infected with Ad-shBIM-1 or -2 (MOI: 2) and Ad-FLAG-E2F1 (MOI: 50), cultured for 3 days and harvested. The percentage of dead cells was determined by FACS analysis as those with subG1 DNA content. ***: p < 0.01. ( F ) Knockdown effects of shBIMs examined by qRT-PCR under the same condition as above. **: p < 0.05, ***: p < 0.01.

    Article Snippet: The cells were infected with Ad-FLAG-Con or Ad-FLAG-E2F1 (MOI 20), and cultured for 48 h. For the endogenous E2F1 experiment, the cells infected with Ad-12SE1a(∆2–11) or Ad-Con (MOI 200), and cultured for 48 h. The cells were fixed and stained by mouse anti-E2F1 antibody (sc-251, Santa Cruz Biotechnology, 1:250) or rabbit anti-DDX5 antibody (ab126730, Abcam, Cambridge, UK, 1:250) and, as second antibodies, Goat anti-Mouse IgG (H + L) Cross-Absorbed Alexa Fluor 546 (A11018, Invitrogen, 1:1000) or Goat anti-Rabbit IgG H&L Alexa Fluor 488 (ab150077, abcam, 1:1000).

    Techniques: Gene Expression, Transduction, Dominant Negative Mutation, Stable Transfection, Infection, Retroviral, Expressing, Western Blot, Control, Cell Culture, Quantitative RT-PCR, Knockdown, shRNA

    DDX5 enhances E2F1-mediated p53-independent cell death in cancer cells. ( A , B ) DDX5 enhances E2F1 induction of tumor suppressor genes expression in p53 null cancer cells. H1299 ( A ) and Saos-2 ( B ) cells were infected with Ad-FLAG-E2F1 (MOI: 2) along with or without Ad-DDX5 (MOI: 5). The cells were further cultured for 24 h and harvested. mRNA levels of BIM and Aspp1 genes were examined by qRT-PCT. **: p < 0.05, ***: p < 0.01. ( C ) DDX5 enhances E2F1-induced cell death in Saos-2 cells. Saos-2 cells were infected in the same way as above, further cultured for 2 days and harvested. Percentage of dead cells was determined by FACS analysis as those with subG1 DNA content. ***: p < 0.01. ( D ) Knockdown of DDX5 decreases E2F1 induction of tumor suppressor gene expression in Saos-2 cells. Cells were infected with Ad-shDDX5-1 (MOI: 1) or -2 (MOI: 2), and cultured for 72 h. The cells were then infected with Ad-FLAG-E2F1 (MOI: 2) further cultured for 24 h and harvested. The levels of BIM and Aspp1 gene expression, and knockdown of DDX5 gene expression were examined by qRT-PCR. **: p < 0.05, ***: p < 0.01. ( E ) Knockdown of DDX5 decreases E2F1-induced cell death in Saos-2 cells. The cells were infected in the same way as above, cultured for 3 days and harvested. The percentage of dead cells was examined as above. ***: p < 0.01. ( F , G ) Over-expression of E2F1 induces cell death in p53-disabled cancer cells. H1299 ( F ) and Saos-2 ( G ) cells were infected with Ad-shBIM-1 (MOI: 1) or -2 (MOI: 2) and Ad-FLAG-E2F1 (MOI: 2), further cultured for 3 days and harvested. Percentage of dead cells was examined as above (left panels). Knockdown of BIM by shRNA was confirmed by qRT-PCR (right panels). **: p < 0.05, ***: p < 0.01.

    Journal: International Journal of Molecular Sciences

    Article Title: DEAD/H Box 5 (DDX5) Augments E2F1-Induced Cell Death Independent of the Tumor Suppressor p53

    doi: 10.3390/ijms252413251

    Figure Lengend Snippet: DDX5 enhances E2F1-mediated p53-independent cell death in cancer cells. ( A , B ) DDX5 enhances E2F1 induction of tumor suppressor genes expression in p53 null cancer cells. H1299 ( A ) and Saos-2 ( B ) cells were infected with Ad-FLAG-E2F1 (MOI: 2) along with or without Ad-DDX5 (MOI: 5). The cells were further cultured for 24 h and harvested. mRNA levels of BIM and Aspp1 genes were examined by qRT-PCT. **: p < 0.05, ***: p < 0.01. ( C ) DDX5 enhances E2F1-induced cell death in Saos-2 cells. Saos-2 cells were infected in the same way as above, further cultured for 2 days and harvested. Percentage of dead cells was determined by FACS analysis as those with subG1 DNA content. ***: p < 0.01. ( D ) Knockdown of DDX5 decreases E2F1 induction of tumor suppressor gene expression in Saos-2 cells. Cells were infected with Ad-shDDX5-1 (MOI: 1) or -2 (MOI: 2), and cultured for 72 h. The cells were then infected with Ad-FLAG-E2F1 (MOI: 2) further cultured for 24 h and harvested. The levels of BIM and Aspp1 gene expression, and knockdown of DDX5 gene expression were examined by qRT-PCR. **: p < 0.05, ***: p < 0.01. ( E ) Knockdown of DDX5 decreases E2F1-induced cell death in Saos-2 cells. The cells were infected in the same way as above, cultured for 3 days and harvested. The percentage of dead cells was examined as above. ***: p < 0.01. ( F , G ) Over-expression of E2F1 induces cell death in p53-disabled cancer cells. H1299 ( F ) and Saos-2 ( G ) cells were infected with Ad-shBIM-1 (MOI: 1) or -2 (MOI: 2) and Ad-FLAG-E2F1 (MOI: 2), further cultured for 3 days and harvested. Percentage of dead cells was examined as above (left panels). Knockdown of BIM by shRNA was confirmed by qRT-PCR (right panels). **: p < 0.05, ***: p < 0.01.

    Article Snippet: The cells were infected with Ad-FLAG-Con or Ad-FLAG-E2F1 (MOI 20), and cultured for 48 h. For the endogenous E2F1 experiment, the cells infected with Ad-12SE1a(∆2–11) or Ad-Con (MOI 200), and cultured for 48 h. The cells were fixed and stained by mouse anti-E2F1 antibody (sc-251, Santa Cruz Biotechnology, 1:250) or rabbit anti-DDX5 antibody (ab126730, Abcam, Cambridge, UK, 1:250) and, as second antibodies, Goat anti-Mouse IgG (H + L) Cross-Absorbed Alexa Fluor 546 (A11018, Invitrogen, 1:1000) or Goat anti-Rabbit IgG H&L Alexa Fluor 488 (ab150077, abcam, 1:1000).

    Techniques: Expressing, Infection, Cell Culture, Knockdown, Gene Expression, Quantitative RT-PCR, Over Expression, shRNA

    A model for the role of DDX5 in E2F1-mediated tumor suppressor gene expression and cell death. DDX5 enhances E2F1 induction of tumor suppressor gene expression, thereby enhancing E2F1-mediated cell death, independent of p53.

    Journal: International Journal of Molecular Sciences

    Article Title: DEAD/H Box 5 (DDX5) Augments E2F1-Induced Cell Death Independent of the Tumor Suppressor p53

    doi: 10.3390/ijms252413251

    Figure Lengend Snippet: A model for the role of DDX5 in E2F1-mediated tumor suppressor gene expression and cell death. DDX5 enhances E2F1 induction of tumor suppressor gene expression, thereby enhancing E2F1-mediated cell death, independent of p53.

    Article Snippet: The cells were infected with Ad-FLAG-Con or Ad-FLAG-E2F1 (MOI 20), and cultured for 48 h. For the endogenous E2F1 experiment, the cells infected with Ad-12SE1a(∆2–11) or Ad-Con (MOI 200), and cultured for 48 h. The cells were fixed and stained by mouse anti-E2F1 antibody (sc-251, Santa Cruz Biotechnology, 1:250) or rabbit anti-DDX5 antibody (ab126730, Abcam, Cambridge, UK, 1:250) and, as second antibodies, Goat anti-Mouse IgG (H + L) Cross-Absorbed Alexa Fluor 546 (A11018, Invitrogen, 1:1000) or Goat anti-Rabbit IgG H&L Alexa Fluor 488 (ab150077, abcam, 1:1000).

    Techniques: Gene Expression

    Journal: iScience

    Article Title: P16 INK4A drives RB1 degradation by UTP14A-catalyzed K810 ubiquitination

    doi: 10.1016/j.isci.2024.110882

    Figure Lengend Snippet:

    Article Snippet: Mouse monoclonal anti-E2F1 , Santa Cruz , Cat#SC-251; RRID: AB_627476.

    Techniques: Virus, Recombinant, Lysis, SYBR Green Assay, Transfection, Protease Inhibitor, cDNA Synthesis, Immunoprecipitation, CCK-8 Assay, Cell Cycle Assay, Staining, Mass Spectrometry, Western Blot, Plasmid Preparation, Mutagenesis, Software, Microscopy