ctl bio spot analyser Search Results


confocal laser scan microscope  (Bio-Rad)
93
Bio-Rad confocal laser scan microscope
Confocal Laser Scan Microscope, supplied by Bio-Rad, used in various techniques. Bioz Stars score: 93/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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bio rad chemidoc imaging system  (Bio-Rad)
99
Bio-Rad bio rad chemidoc imaging system
Fig. 1. Characterization of stable SDHB and SDHD silenced cell lines. (A) Representative blots of the expression of mitochondrial SDHA, B and D subunits. (B) Densitometric analysis of western blot bands, performed by <t>Bio-Rad</t> imaging and analysis software (Quantity One), showed significant differences in the SDHB and SDHD subunit expression levels in SDHB (light grey) and in SDHD silenced cells (dark grey) respectively, compared to Wt (black). Bars are the means of three independent preparations ± SD, ***p < 0.001. (C) Representative traces of SDH enzymatic activity measured in cell homogenates. The silenced SDHB and SDHD cells (dotted and continuous lines, respectively) showed a similar decrease of the SDH activity, significantly different compared with Wt (dashed line). (D) Histogram represents the SDH activity expressed as the percentages. SDHB and SDHD silenced cells (light and dark grey, respectively) showed a significantly decreased of SDH activity compared to Wt (black). Bars are the means of three independent experiments (each of them conducted in duplicate samples) ± SD, ***p < 0.01. (E) The bar graph represents the means of intracellular succinate/fumarate ratio ± SD, measured by GC/MS, in three independent experiments with two replicates. SDHB silenced cells (light grey) showed a significant increase of the metabolites ratio compared with both Wt (black) and to SDHD silenced cells (dark grey), *p < 0.05, **p < 0.01. (F) Representative immunoblot of HIF1α expression in Wt, SDHB and SDHD silenced cells. (G) Optical density analysis of western blot bands. Actin im munoblots was used as loading control. For all the analyses One-way ANOVA post-test Bonferroni was used.
Bio Rad Chemidoc Imaging System, supplied by Bio-Rad, used in various techniques. Bioz Stars score: 99/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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quantity one software version 4 6 9  (Bio-Rad)
95
Bio-Rad quantity one software version 4 6 9
Fig. 1. Characterization of stable SDHB and SDHD silenced cell lines. (A) Representative blots of the expression of mitochondrial SDHA, B and D subunits. (B) Densitometric analysis of western blot bands, performed by <t>Bio-Rad</t> imaging and analysis software (Quantity One), showed significant differences in the SDHB and SDHD subunit expression levels in SDHB (light grey) and in SDHD silenced cells (dark grey) respectively, compared to Wt (black). Bars are the means of three independent preparations ± SD, ***p < 0.001. (C) Representative traces of SDH enzymatic activity measured in cell homogenates. The silenced SDHB and SDHD cells (dotted and continuous lines, respectively) showed a similar decrease of the SDH activity, significantly different compared with Wt (dashed line). (D) Histogram represents the SDH activity expressed as the percentages. SDHB and SDHD silenced cells (light and dark grey, respectively) showed a significantly decreased of SDH activity compared to Wt (black). Bars are the means of three independent experiments (each of them conducted in duplicate samples) ± SD, ***p < 0.01. (E) The bar graph represents the means of intracellular succinate/fumarate ratio ± SD, measured by GC/MS, in three independent experiments with two replicates. SDHB silenced cells (light grey) showed a significant increase of the metabolites ratio compared with both Wt (black) and to SDHD silenced cells (dark grey), *p < 0.05, **p < 0.01. (F) Representative immunoblot of HIF1α expression in Wt, SDHB and SDHD silenced cells. (G) Optical density analysis of western blot bands. Actin im munoblots was used as loading control. For all the analyses One-way ANOVA post-test Bonferroni was used.
Quantity One Software Version 4 6 9, supplied by Bio-Rad, used in various techniques. Bioz Stars score: 95/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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molecular analyst fingerprinting plus software package  (Bio-Rad)
93
Bio-Rad molecular analyst fingerprinting plus software package
Fig. 1. Characterization of stable SDHB and SDHD silenced cell lines. (A) Representative blots of the expression of mitochondrial SDHA, B and D subunits. (B) Densitometric analysis of western blot bands, performed by <t>Bio-Rad</t> imaging and analysis software (Quantity One), showed significant differences in the SDHB and SDHD subunit expression levels in SDHB (light grey) and in SDHD silenced cells (dark grey) respectively, compared to Wt (black). Bars are the means of three independent preparations ± SD, ***p < 0.001. (C) Representative traces of SDH enzymatic activity measured in cell homogenates. The silenced SDHB and SDHD cells (dotted and continuous lines, respectively) showed a similar decrease of the SDH activity, significantly different compared with Wt (dashed line). (D) Histogram represents the SDH activity expressed as the percentages. SDHB and SDHD silenced cells (light and dark grey, respectively) showed a significantly decreased of SDH activity compared to Wt (black). Bars are the means of three independent experiments (each of them conducted in duplicate samples) ± SD, ***p < 0.01. (E) The bar graph represents the means of intracellular succinate/fumarate ratio ± SD, measured by GC/MS, in three independent experiments with two replicates. SDHB silenced cells (light grey) showed a significant increase of the metabolites ratio compared with both Wt (black) and to SDHD silenced cells (dark grey), *p < 0.05, **p < 0.01. (F) Representative immunoblot of HIF1α expression in Wt, SDHB and SDHD silenced cells. (G) Optical density analysis of western blot bands. Actin im munoblots was used as loading control. For all the analyses One-way ANOVA post-test Bonferroni was used.
Molecular Analyst Fingerprinting Plus Software Package, supplied by Bio-Rad, used in various techniques. Bioz Stars score: 93/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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safire microplate reader  (Bio-Rad)
95
Bio-Rad safire microplate reader
Fig. 1. Characterization of stable SDHB and SDHD silenced cell lines. (A) Representative blots of the expression of mitochondrial SDHA, B and D subunits. (B) Densitometric analysis of western blot bands, performed by <t>Bio-Rad</t> imaging and analysis software (Quantity One), showed significant differences in the SDHB and SDHD subunit expression levels in SDHB (light grey) and in SDHD silenced cells (dark grey) respectively, compared to Wt (black). Bars are the means of three independent preparations ± SD, ***p < 0.001. (C) Representative traces of SDH enzymatic activity measured in cell homogenates. The silenced SDHB and SDHD cells (dotted and continuous lines, respectively) showed a similar decrease of the SDH activity, significantly different compared with Wt (dashed line). (D) Histogram represents the SDH activity expressed as the percentages. SDHB and SDHD silenced cells (light and dark grey, respectively) showed a significantly decreased of SDH activity compared to Wt (black). Bars are the means of three independent experiments (each of them conducted in duplicate samples) ± SD, ***p < 0.01. (E) The bar graph represents the means of intracellular succinate/fumarate ratio ± SD, measured by GC/MS, in three independent experiments with two replicates. SDHB silenced cells (light grey) showed a significant increase of the metabolites ratio compared with both Wt (black) and to SDHD silenced cells (dark grey), *p < 0.05, **p < 0.01. (F) Representative immunoblot of HIF1α expression in Wt, SDHB and SDHD silenced cells. (G) Optical density analysis of western blot bands. Actin im munoblots was used as loading control. For all the analyses One-way ANOVA post-test Bonferroni was used.
Safire Microplate Reader, supplied by Bio-Rad, used in various techniques. Bioz Stars score: 95/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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automated immunoassay analyzer  (Bio-Rad)
90
Bio-Rad automated immunoassay analyzer
Fig. 1. Characterization of stable SDHB and SDHD silenced cell lines. (A) Representative blots of the expression of mitochondrial SDHA, B and D subunits. (B) Densitometric analysis of western blot bands, performed by <t>Bio-Rad</t> imaging and analysis software (Quantity One), showed significant differences in the SDHB and SDHD subunit expression levels in SDHB (light grey) and in SDHD silenced cells (dark grey) respectively, compared to Wt (black). Bars are the means of three independent preparations ± SD, ***p < 0.001. (C) Representative traces of SDH enzymatic activity measured in cell homogenates. The silenced SDHB and SDHD cells (dotted and continuous lines, respectively) showed a similar decrease of the SDH activity, significantly different compared with Wt (dashed line). (D) Histogram represents the SDH activity expressed as the percentages. SDHB and SDHD silenced cells (light and dark grey, respectively) showed a significantly decreased of SDH activity compared to Wt (black). Bars are the means of three independent experiments (each of them conducted in duplicate samples) ± SD, ***p < 0.01. (E) The bar graph represents the means of intracellular succinate/fumarate ratio ± SD, measured by GC/MS, in three independent experiments with two replicates. SDHB silenced cells (light grey) showed a significant increase of the metabolites ratio compared with both Wt (black) and to SDHD silenced cells (dark grey), *p < 0.05, **p < 0.01. (F) Representative immunoblot of HIF1α expression in Wt, SDHB and SDHD silenced cells. (G) Optical density analysis of western blot bands. Actin im munoblots was used as loading control. For all the analyses One-way ANOVA post-test Bonferroni was used.
Automated Immunoassay Analyzer, supplied by Bio-Rad, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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quantity one software version 4 5 2  (Bio-Rad)
93
Bio-Rad quantity one software version 4 5 2
Fig. 1. Characterization of stable SDHB and SDHD silenced cell lines. (A) Representative blots of the expression of mitochondrial SDHA, B and D subunits. (B) Densitometric analysis of western blot bands, performed by <t>Bio-Rad</t> imaging and analysis software (Quantity One), showed significant differences in the SDHB and SDHD subunit expression levels in SDHB (light grey) and in SDHD silenced cells (dark grey) respectively, compared to Wt (black). Bars are the means of three independent preparations ± SD, ***p < 0.001. (C) Representative traces of SDH enzymatic activity measured in cell homogenates. The silenced SDHB and SDHD cells (dotted and continuous lines, respectively) showed a similar decrease of the SDH activity, significantly different compared with Wt (dashed line). (D) Histogram represents the SDH activity expressed as the percentages. SDHB and SDHD silenced cells (light and dark grey, respectively) showed a significantly decreased of SDH activity compared to Wt (black). Bars are the means of three independent experiments (each of them conducted in duplicate samples) ± SD, ***p < 0.01. (E) The bar graph represents the means of intracellular succinate/fumarate ratio ± SD, measured by GC/MS, in three independent experiments with two replicates. SDHB silenced cells (light grey) showed a significant increase of the metabolites ratio compared with both Wt (black) and to SDHD silenced cells (dark grey), *p < 0.05, **p < 0.01. (F) Representative immunoblot of HIF1α expression in Wt, SDHB and SDHD silenced cells. (G) Optical density analysis of western blot bands. Actin im munoblots was used as loading control. For all the analyses One-way ANOVA post-test Bonferroni was used.
Quantity One Software Version 4 5 2, supplied by Bio-Rad, used in various techniques. Bioz Stars score: 93/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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mrc  (Bio-Rad)
88
Bio-Rad mrc
Fig. 1. Characterization of stable SDHB and SDHD silenced cell lines. (A) Representative blots of the expression of mitochondrial SDHA, B and D subunits. (B) Densitometric analysis of western blot bands, performed by <t>Bio-Rad</t> imaging and analysis software (Quantity One), showed significant differences in the SDHB and SDHD subunit expression levels in SDHB (light grey) and in SDHD silenced cells (dark grey) respectively, compared to Wt (black). Bars are the means of three independent preparations ± SD, ***p < 0.001. (C) Representative traces of SDH enzymatic activity measured in cell homogenates. The silenced SDHB and SDHD cells (dotted and continuous lines, respectively) showed a similar decrease of the SDH activity, significantly different compared with Wt (dashed line). (D) Histogram represents the SDH activity expressed as the percentages. SDHB and SDHD silenced cells (light and dark grey, respectively) showed a significantly decreased of SDH activity compared to Wt (black). Bars are the means of three independent experiments (each of them conducted in duplicate samples) ± SD, ***p < 0.01. (E) The bar graph represents the means of intracellular succinate/fumarate ratio ± SD, measured by GC/MS, in three independent experiments with two replicates. SDHB silenced cells (light grey) showed a significant increase of the metabolites ratio compared with both Wt (black) and to SDHD silenced cells (dark grey), *p < 0.05, **p < 0.01. (F) Representative immunoblot of HIF1α expression in Wt, SDHB and SDHD silenced cells. (G) Optical density analysis of western blot bands. Actin im munoblots was used as loading control. For all the analyses One-way ANOVA post-test Bonferroni was used.
Mrc, supplied by Bio-Rad, used in various techniques. Bioz Stars score: 88/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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quantity one software  (Bio-Rad)
96
Bio-Rad quantity one software
Fig. 1. Characterization of stable SDHB and SDHD silenced cell lines. (A) Representative blots of the expression of mitochondrial SDHA, B and D subunits. (B) Densitometric analysis of western blot bands, performed by <t>Bio-Rad</t> imaging and analysis software (Quantity One), showed significant differences in the SDHB and SDHD subunit expression levels in SDHB (light grey) and in SDHD silenced cells (dark grey) respectively, compared to Wt (black). Bars are the means of three independent preparations ± SD, ***p < 0.001. (C) Representative traces of SDH enzymatic activity measured in cell homogenates. The silenced SDHB and SDHD cells (dotted and continuous lines, respectively) showed a similar decrease of the SDH activity, significantly different compared with Wt (dashed line). (D) Histogram represents the SDH activity expressed as the percentages. SDHB and SDHD silenced cells (light and dark grey, respectively) showed a significantly decreased of SDH activity compared to Wt (black). Bars are the means of three independent experiments (each of them conducted in duplicate samples) ± SD, ***p < 0.01. (E) The bar graph represents the means of intracellular succinate/fumarate ratio ± SD, measured by GC/MS, in three independent experiments with two replicates. SDHB silenced cells (light grey) showed a significant increase of the metabolites ratio compared with both Wt (black) and to SDHD silenced cells (dark grey), *p < 0.05, **p < 0.01. (F) Representative immunoblot of HIF1α expression in Wt, SDHB and SDHD silenced cells. (G) Optical density analysis of western blot bands. Actin im munoblots was used as loading control. For all the analyses One-way ANOVA post-test Bonferroni was used.
Quantity One Software, supplied by Bio-Rad, used in various techniques. Bioz Stars score: 96/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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imagej 1 49 software  (Bio-Rad)
93
Bio-Rad imagej 1 49 software
Fig. 1. Characterization of stable SDHB and SDHD silenced cell lines. (A) Representative blots of the expression of mitochondrial SDHA, B and D subunits. (B) Densitometric analysis of western blot bands, performed by <t>Bio-Rad</t> imaging and analysis software (Quantity One), showed significant differences in the SDHB and SDHD subunit expression levels in SDHB (light grey) and in SDHD silenced cells (dark grey) respectively, compared to Wt (black). Bars are the means of three independent preparations ± SD, ***p < 0.001. (C) Representative traces of SDH enzymatic activity measured in cell homogenates. The silenced SDHB and SDHD cells (dotted and continuous lines, respectively) showed a similar decrease of the SDH activity, significantly different compared with Wt (dashed line). (D) Histogram represents the SDH activity expressed as the percentages. SDHB and SDHD silenced cells (light and dark grey, respectively) showed a significantly decreased of SDH activity compared to Wt (black). Bars are the means of three independent experiments (each of them conducted in duplicate samples) ± SD, ***p < 0.01. (E) The bar graph represents the means of intracellular succinate/fumarate ratio ± SD, measured by GC/MS, in three independent experiments with two replicates. SDHB silenced cells (light grey) showed a significant increase of the metabolites ratio compared with both Wt (black) and to SDHD silenced cells (dark grey), *p < 0.05, **p < 0.01. (F) Representative immunoblot of HIF1α expression in Wt, SDHB and SDHD silenced cells. (G) Optical density analysis of western blot bands. Actin im munoblots was used as loading control. For all the analyses One-way ANOVA post-test Bonferroni was used.
Imagej 1 49 Software, supplied by Bio-Rad, used in various techniques. Bioz Stars score: 93/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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mouse pdl1 elisa kit  (Boster Bio)
93
Boster Bio mouse pdl1 elisa kit
Figure 1: <t>PDL1</t> expression in clinical brain tumor samples, glioma cell lines and CSF samples from the immunocompetent glioma mice model. A) Graph (left) represents PDL1 mRNA expression in brain tumors and melanomas (cBioPortal (http://www.cbioportal.org)). Note that the average PDL1 mRNA level in GBM is similar to the average PDL1 mRNA level in melanomas. The PDL1 values in GBM and low-grade gliomas which exceed the average PDL1 mRNA level in melanomas are highlighted in the red box. Kaplan-Meier plot (right) illustrates survival rates of glioma patients with high and low PDL1 expression levels; 9% versus 24% of 2 year survival for high and low PDL1 expression; the difference is significant, P=0.02 (data has been obtained from the Human Pathology Atlas). B) Immunohistochemical detection of PDL1 in the tissue microarray of normal and brain tumor samples. The images were taken at 40x magnification. C) Western blot illustrates PDL1 and Actin protein levels in control and brain tumor clinical samples. Graph represents PDL1 to Actin ratios for corresponding protein samples; 0.87 ± 0.32 (n=7) versus 0.19 ± 0.1 (n=7) for tumor and normal samples, respectively, the difference is significant, P=0.003. Two samples (marked by light grey color) of patients with hemorrhage have been excluded from the average. D) Western blots illustrate PDL1 protein levels in established and PDGx glioma cell lines (left) and in the extracellular media collected from these cell lines (right). The protein content of the collected media was concentrated six folds before an analysis (see method). The graph (right) provides PDL1 concentrations in CSF samples from control and tumor-bearing mice (see method). The immunocompetent glioma mice model with GL261 cells was utilized for this experiment. E) Images illustrate interactions of tumor neuro spheres from XD456 (a) and from two parental U251-IDH1-R132H cell lines with different PDL1 expression levels (b) with primary T-cells. Note that tumor neuro spheres with high PDL1 levels keep their integrity after 48 hours of interaction with primary T-cells (illustrated in the insert). The graph represents the average percent of neuro spheres after 48 hours of interaction with T-cells, 89 ± 7% (n=4) and 14 ± 5% (n=4) for cell lines with high and low PDL1 levels, respectively. The difference is significant, P=0.0002. Primary T-cells were loaded with calcein, AM (green) before experiments for visualization.
Mouse Pdl1 Elisa Kit, supplied by Boster Bio, used in various techniques. Bioz Stars score: 93/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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quantity one analysis software version 4 6 9  (Bio-Rad)
96
Bio-Rad quantity one analysis software version 4 6 9
Figure 1: <t>PDL1</t> expression in clinical brain tumor samples, glioma cell lines and CSF samples from the immunocompetent glioma mice model. A) Graph (left) represents PDL1 mRNA expression in brain tumors and melanomas (cBioPortal (http://www.cbioportal.org)). Note that the average PDL1 mRNA level in GBM is similar to the average PDL1 mRNA level in melanomas. The PDL1 values in GBM and low-grade gliomas which exceed the average PDL1 mRNA level in melanomas are highlighted in the red box. Kaplan-Meier plot (right) illustrates survival rates of glioma patients with high and low PDL1 expression levels; 9% versus 24% of 2 year survival for high and low PDL1 expression; the difference is significant, P=0.02 (data has been obtained from the Human Pathology Atlas). B) Immunohistochemical detection of PDL1 in the tissue microarray of normal and brain tumor samples. The images were taken at 40x magnification. C) Western blot illustrates PDL1 and Actin protein levels in control and brain tumor clinical samples. Graph represents PDL1 to Actin ratios for corresponding protein samples; 0.87 ± 0.32 (n=7) versus 0.19 ± 0.1 (n=7) for tumor and normal samples, respectively, the difference is significant, P=0.003. Two samples (marked by light grey color) of patients with hemorrhage have been excluded from the average. D) Western blots illustrate PDL1 protein levels in established and PDGx glioma cell lines (left) and in the extracellular media collected from these cell lines (right). The protein content of the collected media was concentrated six folds before an analysis (see method). The graph (right) provides PDL1 concentrations in CSF samples from control and tumor-bearing mice (see method). The immunocompetent glioma mice model with GL261 cells was utilized for this experiment. E) Images illustrate interactions of tumor neuro spheres from XD456 (a) and from two parental U251-IDH1-R132H cell lines with different PDL1 expression levels (b) with primary T-cells. Note that tumor neuro spheres with high PDL1 levels keep their integrity after 48 hours of interaction with primary T-cells (illustrated in the insert). The graph represents the average percent of neuro spheres after 48 hours of interaction with T-cells, 89 ± 7% (n=4) and 14 ± 5% (n=4) for cell lines with high and low PDL1 levels, respectively. The difference is significant, P=0.0002. Primary T-cells were loaded with calcein, AM (green) before experiments for visualization.
Quantity One Analysis Software Version 4 6 9, supplied by Bio-Rad, used in various techniques. Bioz Stars score: 96/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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Image Search Results


Fig. 1. Characterization of stable SDHB and SDHD silenced cell lines. (A) Representative blots of the expression of mitochondrial SDHA, B and D subunits. (B) Densitometric analysis of western blot bands, performed by Bio-Rad imaging and analysis software (Quantity One), showed significant differences in the SDHB and SDHD subunit expression levels in SDHB (light grey) and in SDHD silenced cells (dark grey) respectively, compared to Wt (black). Bars are the means of three independent preparations ± SD, ***p < 0.001. (C) Representative traces of SDH enzymatic activity measured in cell homogenates. The silenced SDHB and SDHD cells (dotted and continuous lines, respectively) showed a similar decrease of the SDH activity, significantly different compared with Wt (dashed line). (D) Histogram represents the SDH activity expressed as the percentages. SDHB and SDHD silenced cells (light and dark grey, respectively) showed a significantly decreased of SDH activity compared to Wt (black). Bars are the means of three independent experiments (each of them conducted in duplicate samples) ± SD, ***p < 0.01. (E) The bar graph represents the means of intracellular succinate/fumarate ratio ± SD, measured by GC/MS, in three independent experiments with two replicates. SDHB silenced cells (light grey) showed a significant increase of the metabolites ratio compared with both Wt (black) and to SDHD silenced cells (dark grey), *p < 0.05, **p < 0.01. (F) Representative immunoblot of HIF1α expression in Wt, SDHB and SDHD silenced cells. (G) Optical density analysis of western blot bands. Actin im munoblots was used as loading control. For all the analyses One-way ANOVA post-test Bonferroni was used.

Journal: Molecular and cellular endocrinology

Article Title: SDHB and SDHD silenced pheochromocytoma spheroids respond differently to tumour microenvironment and their aggressiveness is inhibited by impairing stroma metabolism.

doi: 10.1016/j.mce.2022.111594

Figure Lengend Snippet: Fig. 1. Characterization of stable SDHB and SDHD silenced cell lines. (A) Representative blots of the expression of mitochondrial SDHA, B and D subunits. (B) Densitometric analysis of western blot bands, performed by Bio-Rad imaging and analysis software (Quantity One), showed significant differences in the SDHB and SDHD subunit expression levels in SDHB (light grey) and in SDHD silenced cells (dark grey) respectively, compared to Wt (black). Bars are the means of three independent preparations ± SD, ***p < 0.001. (C) Representative traces of SDH enzymatic activity measured in cell homogenates. The silenced SDHB and SDHD cells (dotted and continuous lines, respectively) showed a similar decrease of the SDH activity, significantly different compared with Wt (dashed line). (D) Histogram represents the SDH activity expressed as the percentages. SDHB and SDHD silenced cells (light and dark grey, respectively) showed a significantly decreased of SDH activity compared to Wt (black). Bars are the means of three independent experiments (each of them conducted in duplicate samples) ± SD, ***p < 0.01. (E) The bar graph represents the means of intracellular succinate/fumarate ratio ± SD, measured by GC/MS, in three independent experiments with two replicates. SDHB silenced cells (light grey) showed a significant increase of the metabolites ratio compared with both Wt (black) and to SDHD silenced cells (dark grey), *p < 0.05, **p < 0.01. (F) Representative immunoblot of HIF1α expression in Wt, SDHB and SDHD silenced cells. (G) Optical density analysis of western blot bands. Actin im munoblots was used as loading control. For all the analyses One-way ANOVA post-test Bonferroni was used.

Article Snippet: Bound antibodies were detected using ECL reagents (Immobilon) and analysed with a Bio-Rad ChemiDoc Imaging System (Quantity One) for dedicated chemiluminescent image acquisition.

Techniques: Expressing, Western Blot, Imaging, Software, Activity Assay, Gas Chromatography-Mass Spectrometry, Control

Figure 1: PDL1 expression in clinical brain tumor samples, glioma cell lines and CSF samples from the immunocompetent glioma mice model. A) Graph (left) represents PDL1 mRNA expression in brain tumors and melanomas (cBioPortal (http://www.cbioportal.org)). Note that the average PDL1 mRNA level in GBM is similar to the average PDL1 mRNA level in melanomas. The PDL1 values in GBM and low-grade gliomas which exceed the average PDL1 mRNA level in melanomas are highlighted in the red box. Kaplan-Meier plot (right) illustrates survival rates of glioma patients with high and low PDL1 expression levels; 9% versus 24% of 2 year survival for high and low PDL1 expression; the difference is significant, P=0.02 (data has been obtained from the Human Pathology Atlas). B) Immunohistochemical detection of PDL1 in the tissue microarray of normal and brain tumor samples. The images were taken at 40x magnification. C) Western blot illustrates PDL1 and Actin protein levels in control and brain tumor clinical samples. Graph represents PDL1 to Actin ratios for corresponding protein samples; 0.87 ± 0.32 (n=7) versus 0.19 ± 0.1 (n=7) for tumor and normal samples, respectively, the difference is significant, P=0.003. Two samples (marked by light grey color) of patients with hemorrhage have been excluded from the average. D) Western blots illustrate PDL1 protein levels in established and PDGx glioma cell lines (left) and in the extracellular media collected from these cell lines (right). The protein content of the collected media was concentrated six folds before an analysis (see method). The graph (right) provides PDL1 concentrations in CSF samples from control and tumor-bearing mice (see method). The immunocompetent glioma mice model with GL261 cells was utilized for this experiment. E) Images illustrate interactions of tumor neuro spheres from XD456 (a) and from two parental U251-IDH1-R132H cell lines with different PDL1 expression levels (b) with primary T-cells. Note that tumor neuro spheres with high PDL1 levels keep their integrity after 48 hours of interaction with primary T-cells (illustrated in the insert). The graph represents the average percent of neuro spheres after 48 hours of interaction with T-cells, 89 ± 7% (n=4) and 14 ± 5% (n=4) for cell lines with high and low PDL1 levels, respectively. The difference is significant, P=0.0002. Primary T-cells were loaded with calcein, AM (green) before experiments for visualization.

Journal: Journal of cancer science & therapy

Article Title: Blocking PD1/PDL1 Interactions Together with MLN4924 Therapy is a Potential Strategy for Glioma Treatment.

doi: 10.4172/1948-5956.1000543

Figure Lengend Snippet: Figure 1: PDL1 expression in clinical brain tumor samples, glioma cell lines and CSF samples from the immunocompetent glioma mice model. A) Graph (left) represents PDL1 mRNA expression in brain tumors and melanomas (cBioPortal (http://www.cbioportal.org)). Note that the average PDL1 mRNA level in GBM is similar to the average PDL1 mRNA level in melanomas. The PDL1 values in GBM and low-grade gliomas which exceed the average PDL1 mRNA level in melanomas are highlighted in the red box. Kaplan-Meier plot (right) illustrates survival rates of glioma patients with high and low PDL1 expression levels; 9% versus 24% of 2 year survival for high and low PDL1 expression; the difference is significant, P=0.02 (data has been obtained from the Human Pathology Atlas). B) Immunohistochemical detection of PDL1 in the tissue microarray of normal and brain tumor samples. The images were taken at 40x magnification. C) Western blot illustrates PDL1 and Actin protein levels in control and brain tumor clinical samples. Graph represents PDL1 to Actin ratios for corresponding protein samples; 0.87 ± 0.32 (n=7) versus 0.19 ± 0.1 (n=7) for tumor and normal samples, respectively, the difference is significant, P=0.003. Two samples (marked by light grey color) of patients with hemorrhage have been excluded from the average. D) Western blots illustrate PDL1 protein levels in established and PDGx glioma cell lines (left) and in the extracellular media collected from these cell lines (right). The protein content of the collected media was concentrated six folds before an analysis (see method). The graph (right) provides PDL1 concentrations in CSF samples from control and tumor-bearing mice (see method). The immunocompetent glioma mice model with GL261 cells was utilized for this experiment. E) Images illustrate interactions of tumor neuro spheres from XD456 (a) and from two parental U251-IDH1-R132H cell lines with different PDL1 expression levels (b) with primary T-cells. Note that tumor neuro spheres with high PDL1 levels keep their integrity after 48 hours of interaction with primary T-cells (illustrated in the insert). The graph represents the average percent of neuro spheres after 48 hours of interaction with T-cells, 89 ± 7% (n=4) and 14 ± 5% (n=4) for cell lines with high and low PDL1 levels, respectively. The difference is significant, P=0.0002. Primary T-cells were loaded with calcein, AM (green) before experiments for visualization.

Article Snippet: The PDL1 level in CSF samples was analyzed by using the Mouse PDL1 ELISA Kit (Boster, Pleasanton, CA, USA).

Techniques: Expressing, Immunohistochemical staining, Microarray, Western Blot, Control

Figure 2: HIF1A accumulation evokes PDL1 up-regulation in glioma cell lines. A) HIF1A accumulations induced by CoCl2 treatment of U251 and U87 cell lines evoke PDL1 up-regulation in protein and mRNA levels. Western blot illustrates HIF1A and PDL1 levels in nuclear and cytoplasmic fractions, respectively, in control and after treatment with CoCl2 (85uM). Lamin A/C and alpha Tubulin were utilized to verify nuclear and cytoplasmic fractions, respectively. Graphs illustrate normalized PDL1/ GAPDH mRNA ratios after cell treatment with CoCl2 (85uM) at different time points. In each experiment, data has been normalized to the corresponding ratios in untreated cells, results are presented as mean ± S.D. B) Transcription initiation complexes encoded by pAC154-dual-dCas9VP160 plasmids, guided by sgRNAs to the HIF1A binding domains in the first intron of the PDL1 gene, evoke PDL1 overexpression. Western blot illustrates PDL1 and Actin protein levels in U251 cells after transfection with plasmids encoding control (scrambled sequence) sgRNA or HIF1A sgRNAs. Note that transcription initiation complexes guided by sgRNAs to the HIF1A binding domains (A), (B), and (A) with (B) simultaneously increased PDL1 expression by 1.5, 3.9 and 1.8 folds, respectively, compared to the control (PDL1 expression in the presence of transcription initiation complexes guided by scrambled sgRNA). In each experiment, PDL1 expression was normalized to the Actin expression.

Journal: Journal of cancer science & therapy

Article Title: Blocking PD1/PDL1 Interactions Together with MLN4924 Therapy is a Potential Strategy for Glioma Treatment.

doi: 10.4172/1948-5956.1000543

Figure Lengend Snippet: Figure 2: HIF1A accumulation evokes PDL1 up-regulation in glioma cell lines. A) HIF1A accumulations induced by CoCl2 treatment of U251 and U87 cell lines evoke PDL1 up-regulation in protein and mRNA levels. Western blot illustrates HIF1A and PDL1 levels in nuclear and cytoplasmic fractions, respectively, in control and after treatment with CoCl2 (85uM). Lamin A/C and alpha Tubulin were utilized to verify nuclear and cytoplasmic fractions, respectively. Graphs illustrate normalized PDL1/ GAPDH mRNA ratios after cell treatment with CoCl2 (85uM) at different time points. In each experiment, data has been normalized to the corresponding ratios in untreated cells, results are presented as mean ± S.D. B) Transcription initiation complexes encoded by pAC154-dual-dCas9VP160 plasmids, guided by sgRNAs to the HIF1A binding domains in the first intron of the PDL1 gene, evoke PDL1 overexpression. Western blot illustrates PDL1 and Actin protein levels in U251 cells after transfection with plasmids encoding control (scrambled sequence) sgRNA or HIF1A sgRNAs. Note that transcription initiation complexes guided by sgRNAs to the HIF1A binding domains (A), (B), and (A) with (B) simultaneously increased PDL1 expression by 1.5, 3.9 and 1.8 folds, respectively, compared to the control (PDL1 expression in the presence of transcription initiation complexes guided by scrambled sgRNA). In each experiment, PDL1 expression was normalized to the Actin expression.

Article Snippet: The PDL1 level in CSF samples was analyzed by using the Mouse PDL1 ELISA Kit (Boster, Pleasanton, CA, USA).

Techniques: Western Blot, Control, Binding Assay, Over Expression, Transfection, Sequencing, Expressing

Figure 3: MLN4924 treatment induces up-regulation of HIF1A and PDL1 in glioma cell lines. A) The inhibitory dose- response curves for MLN4924 in established, PDGx and PDGX-stem glioma cell lines. The IC50s are 0.3 ± 0.2 uM (n=4), 2.7 ± 1 uM (n=6), 3 ± 2 uM (n=3), 3 ± 1 uM (n=4), 2.9 ± 0.5 uM (n=4), 0.8 ± 0.2 uM (n =4), 0.2 ± 0.1uM (n=4) for LN221, U251, U87, XD456, JX10, XD456-stem, X14P-stem cell lines, respectively, after treatment with MLN4924 for 5 days. B) Western blots illustrate HIF1A and PDL1 protein levels in nuclear and cytoplasmic fractions in the control and after treatment with MLN4924 (1 uM, 5 days). LaminA/C and alpha Tubulin were utilized to verify nuclear and cytoplasmic fractions, respectively. C) The graph illustrates normalized PDL1/18S mRNA ratios after treatment with MLN4924 (1uM, 5 days) for different cell lines. Note the significant enhancement of the PDL1/18 mRNA ratio for all cell lines after MLN4924 treatment: 8 ± 3, 25 ± 5, 5 ± 1, 8 ± 3, 4.5 ± fold increase compared to the corresponding control values for U251, Ln229, U87, XD456, JX6 cell lines, respectively, P<0.05, n=3.

Journal: Journal of cancer science & therapy

Article Title: Blocking PD1/PDL1 Interactions Together with MLN4924 Therapy is a Potential Strategy for Glioma Treatment.

doi: 10.4172/1948-5956.1000543

Figure Lengend Snippet: Figure 3: MLN4924 treatment induces up-regulation of HIF1A and PDL1 in glioma cell lines. A) The inhibitory dose- response curves for MLN4924 in established, PDGx and PDGX-stem glioma cell lines. The IC50s are 0.3 ± 0.2 uM (n=4), 2.7 ± 1 uM (n=6), 3 ± 2 uM (n=3), 3 ± 1 uM (n=4), 2.9 ± 0.5 uM (n=4), 0.8 ± 0.2 uM (n =4), 0.2 ± 0.1uM (n=4) for LN221, U251, U87, XD456, JX10, XD456-stem, X14P-stem cell lines, respectively, after treatment with MLN4924 for 5 days. B) Western blots illustrate HIF1A and PDL1 protein levels in nuclear and cytoplasmic fractions in the control and after treatment with MLN4924 (1 uM, 5 days). LaminA/C and alpha Tubulin were utilized to verify nuclear and cytoplasmic fractions, respectively. C) The graph illustrates normalized PDL1/18S mRNA ratios after treatment with MLN4924 (1uM, 5 days) for different cell lines. Note the significant enhancement of the PDL1/18 mRNA ratio for all cell lines after MLN4924 treatment: 8 ± 3, 25 ± 5, 5 ± 1, 8 ± 3, 4.5 ± fold increase compared to the corresponding control values for U251, Ln229, U87, XD456, JX6 cell lines, respectively, P<0.05, n=3.

Article Snippet: The PDL1 level in CSF samples was analyzed by using the Mouse PDL1 ELISA Kit (Boster, Pleasanton, CA, USA).

Techniques: Western Blot, Control

Figure 4: Glioma cells treated with MLN4924 decrease T-cell proliferation via utilization of PD1/PDL1 signaling pathway. A) The graph illustrates an inhibition of T-cell proliferation after T-cell encounter with U251 cells (1); with U251 cells in the presence of an inhibitor of PD1/PDL1 interaction (2); with U251 cells treated with MLN4924 (1uM, for 4 days) (3); with U251 cells treated with MLN4924 (1uM, for 4 days) and in the presence of an inhibitor of PD1/PDL1 interaction (4). After MLN4924 treatment, glioma cells were washed and placed in the media with/and without an inhibitor of PD1/PDL1 interaction (4 uM). Note, that glioma cells treated with MLN4924 induce a stronger decrease of T-cell proliferation compared to untreated cells (55 ± 8% (n=4) versus 30 ± 8% (n=4), respectively, the difference is significant with P=0.0005). The reduction of T-cell proliferation induced by glioma cells treated with MLN4924 is inhibited in the presence of an inhibitor of PD1/PDL1 interaction (P=0.0009, n=4). B) The graph illustrates an inhibition of T-cell proliferation after T-cell encounter with XD456 cells (1); with UXD456 cells in the presence of an inhibitor of PD1/PDL1 interaction (2); with XD456 cells treated with MLN4924 (1uM, for 4 days) (3); with XD456 cells treated with MLN4924 (1uM, for 4 days) and in the presence of an inhibitor of PD1/PDL1 interaction (4). After MLN4924 treatment, glioma cells were washed and placed in media with/and without an inhibitor of PD1/PDL1 interaction. Note, that glioma cells treated with MLN4924 induce a stronger decrease of T-cell proliferation compared to untreated cells (74 ± 8% (n=4) versus 41 ± 7% (n=4), respectively, the difference is significant with P=0.0003). The reduction of T-cell proliferation induced by glioma cells treated with MLN4924 is inhibited in the presence of an inhibitor of PD1/PDL1 interaction (P=0.007, n=4).

Journal: Journal of cancer science & therapy

Article Title: Blocking PD1/PDL1 Interactions Together with MLN4924 Therapy is a Potential Strategy for Glioma Treatment.

doi: 10.4172/1948-5956.1000543

Figure Lengend Snippet: Figure 4: Glioma cells treated with MLN4924 decrease T-cell proliferation via utilization of PD1/PDL1 signaling pathway. A) The graph illustrates an inhibition of T-cell proliferation after T-cell encounter with U251 cells (1); with U251 cells in the presence of an inhibitor of PD1/PDL1 interaction (2); with U251 cells treated with MLN4924 (1uM, for 4 days) (3); with U251 cells treated with MLN4924 (1uM, for 4 days) and in the presence of an inhibitor of PD1/PDL1 interaction (4). After MLN4924 treatment, glioma cells were washed and placed in the media with/and without an inhibitor of PD1/PDL1 interaction (4 uM). Note, that glioma cells treated with MLN4924 induce a stronger decrease of T-cell proliferation compared to untreated cells (55 ± 8% (n=4) versus 30 ± 8% (n=4), respectively, the difference is significant with P=0.0005). The reduction of T-cell proliferation induced by glioma cells treated with MLN4924 is inhibited in the presence of an inhibitor of PD1/PDL1 interaction (P=0.0009, n=4). B) The graph illustrates an inhibition of T-cell proliferation after T-cell encounter with XD456 cells (1); with UXD456 cells in the presence of an inhibitor of PD1/PDL1 interaction (2); with XD456 cells treated with MLN4924 (1uM, for 4 days) (3); with XD456 cells treated with MLN4924 (1uM, for 4 days) and in the presence of an inhibitor of PD1/PDL1 interaction (4). After MLN4924 treatment, glioma cells were washed and placed in media with/and without an inhibitor of PD1/PDL1 interaction. Note, that glioma cells treated with MLN4924 induce a stronger decrease of T-cell proliferation compared to untreated cells (74 ± 8% (n=4) versus 41 ± 7% (n=4), respectively, the difference is significant with P=0.0003). The reduction of T-cell proliferation induced by glioma cells treated with MLN4924 is inhibited in the presence of an inhibitor of PD1/PDL1 interaction (P=0.007, n=4).

Article Snippet: The PDL1 level in CSF samples was analyzed by using the Mouse PDL1 ELISA Kit (Boster, Pleasanton, CA, USA).

Techniques: Inhibition