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Image Search Results
Journal: Communications Biology
Article Title: TRIM21 promotes K63-linked ubiquitination of ALKBH5 and suppresses cuproptosis via down-regulation of LIAS in esophageal squamous cell carcinoma
doi: 10.1038/s42003-025-09201-6
Figure Lengend Snippet: A Heat map illustrating genes downregulated upon ALKBH5 overexpression detected by RNA sequencing. B KEGG pathway analysis of differentially expressed genes (logFC > 1). C GSEA analysis confirmed significant correlations between RNA degradation pathways and ALKBH5 expression. D RNA Immunoprecipitation (RIP) of ALKBH5 followed by qRT-PCR ( n = 3 independent experiments). E RNA Immunoprecipitation (RIP) of ALKBH5 followed by PCR. F qRT-PCR assays for RNA stability showed that knocking down TRIM21 increased LIAS mRNA stability ( n = 3 independent experiments). G qRT-PCR assays for RNA stability showed that knocking down ALKBH5 increased LIAS mRNA stability ( n = 3 independent experiments). H Measurement of m6A modification levels on LIAS through m6A-IP after knocking down or overexpression of TRIM21 ( n = 3 independent experiments). I Measurement of m6A modification levels on LIAS through m6A-IP after knocking down or overexpression of ALKBH5 ( n = 3 independent experiments). J RIP-qPCR for IGF2BP3 revealed binding of LIAS mRNA to IGF2BP3 ( n = 3 independent experiments). K Knocking down IGF2BP3 notably decreased both the RNA expression levels of LIAS, and this effect was partially rescued by concurrent knockdown of ALKBH5 ( n = 3 independent experiments). L Knocking down IGF2BP3 notably decreased both the protein levels of LIAS, and this effect was partially rescued by concurrent knockdown of ALKBH5 ( n = 3 independent experiments). M qRT-PCR showed LIAS mRNA stability was reduced after IGF2BP3 knockdown ( n = 3 independent experiments). Error bars indicate standard deviations (ns: none significant; * p < 0.05; ** p < 0.01; *** p < 0.001).
Article Snippet: After dewaxing and hydration, the sections were incubated overnight with Abs against human TRIM21 (12108-1-AP; Proteintech; concentration: 1:500),
Techniques: Over Expression, RNA Sequencing, Expressing, RNA Immunoprecipitation, Quantitative RT-PCR, Modification, Binding Assay, RNA Expression, Knockdown
Journal: Communications Biology
Article Title: TRIM21 promotes K63-linked ubiquitination of ALKBH5 and suppresses cuproptosis via down-regulation of LIAS in esophageal squamous cell carcinoma
doi: 10.1038/s42003-025-09201-6
Figure Lengend Snippet: A Western blot showing knockdown of TRIM21 significantly increased LIAS expression without affecting ALKBH5 expression. B Nuclear and cytoplasmic fractionation assays followed by Western Blot analysis showed decreased ALKBH5 nuclear localization upon TRIM21 knockdown. C Immunofluorescence staining (IF) demonstrating that knockdown of TRIM21 supresses the nucleocytoplasmic trafficking of ALKBH5. D Apoptosis experiments illustrated that ESCC cells knockdown of TRIM21 or ALKBH5 both increased the sensitivity of cells to cuproptosis, while simultaneous knockout of LIAS attenuated or even counteracted this effect. E CCK8 assays showing that knockdown of TRIM21 inhibited the viability of tumor cells under elesclomol-Cu 2+ stimulation, and this effect could be reversed by LIAS knockdown ( n = 3 independent experiments). F CCK8 assays showing that ESCC cells became more susceptible to elesclomol-Cu 2+ -induced cuproptosis after mutation on ubiquitination site K147 (K147R) compared to Wild Type (WT) ( n = 3 independent experiments). Error bars indicate standard deviations (ns: none significant; * p < 0.05; ** p < 0.01; *** p < 0.001).
Article Snippet: After dewaxing and hydration, the sections were incubated overnight with Abs against human TRIM21 (12108-1-AP; Proteintech; concentration: 1:500),
Techniques: Western Blot, Knockdown, Expressing, Fractionation, Immunofluorescence, Staining, Knock-Out, Mutagenesis, Ubiquitin Proteomics
Journal: Communications Biology
Article Title: TRIM21 promotes K63-linked ubiquitination of ALKBH5 and suppresses cuproptosis via down-regulation of LIAS in esophageal squamous cell carcinoma
doi: 10.1038/s42003-025-09201-6
Figure Lengend Snippet: A Subcutaneous xenograft tumor model in nude mice using the esophageal squamous cell carcinoma cell line ECA109, mice were injected with elesclomol in both control (Ctrl) and TRIM21 knockdown (shTRIM21) groups. B Tumor sizes and weights are depicted in the figure ( n = 4 independent experiments). C Proteins from the tumor tissues were extracted for Western Blot analysis, which revealed TRIM21, LIAS protein expression levels. D RNA from the tumor tissues was extracted for qRT-PCR analysis, which revealed TRIM21, LIAS, ALKBH5 mRNA expression levels ( n = 3 independent experiments). E Immunostaining for TRIM21, Ki-67, and TUNEL was performed across the groups. F Quantification of ( E ) ( n = 3 independent experiments). Error bars indicate standard deviations (ns: none significant; * p < 0.05; ** p < 0.01; *** p < 0.001).
Article Snippet: After dewaxing and hydration, the sections were incubated overnight with Abs against human TRIM21 (12108-1-AP; Proteintech; concentration: 1:500),
Techniques: Injection, Control, Knockdown, Western Blot, Expressing, Quantitative RT-PCR, Immunostaining, TUNEL Assay
Journal: Communications Biology
Article Title: TRIM21 promotes K63-linked ubiquitination of ALKBH5 and suppresses cuproptosis via down-regulation of LIAS in esophageal squamous cell carcinoma
doi: 10.1038/s42003-025-09201-6
Figure Lengend Snippet: A Co-immunoprecipitation assays revealing that OGT and ALKBH5 can interact with each other. B Myc-OGT plasmid, along with HA-UB and Flag-ALKBH5, was transfected into HEK-293T cells, western blot showed overexpression of myc-OGT promoted the ubiquitination of ALKBH5. C Western blot showing co-transfection of TRIM21 with OGT augmented ALKBH5 ubiquitination. D Co-IP followed by western blot showing overexpression of OGT led to an increase in O-glycosylation of ALKBH5. E Co-IP followed by western blot showing knockdown of OGT led to the decrease in the binding of ALKBH5 and TRIM21, also induced upregulation of LIAS. F Co-IP followed by western blot analysis showing reduced ALKBH5 O-glycosylation and interaction with TRIM21 upon introducing the OGT inhibitor OSMI-1 in different concentrations. G A significant negative correlation in protein expression between the co-expression of OGT and TRIM21 with LIAS, Lipoylated-DLAT (Lip-DLAT), and Lipoylated-DLST (Lip-DLST) expression was observed by western blot, upon OSMI-1 treatment, the expressions of Lip-DLAT, Lip-DLST, and LIAS were restored. H Protein expression showing negative correlation between OGT and TRIM21 with LIAS, Lipoylated-DLAT (Lip-DLAT), and Lipoylated-DLST (Lip-DLST) after OGT or TRIM21 knockdown. I Following treatment with a gradient of OSMI-1 concentrations, nuclear-cytoplasmic fractionation experiments showed that OSMI-1 inhibited ALKBH5's accumulation in the nucleus.
Article Snippet: After dewaxing and hydration, the sections were incubated overnight with Abs against human TRIM21 (12108-1-AP; Proteintech; concentration: 1:500),
Techniques: Immunoprecipitation, Plasmid Preparation, Transfection, Western Blot, Over Expression, Ubiquitin Proteomics, Cotransfection, Co-Immunoprecipitation Assay, Glycoproteomics, Knockdown, Binding Assay, Expressing, Fractionation
Journal: Journal of the American Society of Echocardiography : official publication of the American Society of Echocardiography
Article Title: Therapeutic Ultrasound Increases Myocardial Blood Flow in Ischemic Myocardium and Cardiac Endothelial Cells: Results of In-vivo and In-Vitro Experiments
doi: 10.1016/j.echo.2019.05.012
Figure Lengend Snippet: MCE images from a control dog. Panels A to C depict LAD perfusion bed size, risk area, and ROI’s placed over the myocardium at baseline MCE image (stage A) from where time versus acoustic intensity plots were derived. Panels D and E depict the actual plots derived from the risk area and border zone during coronary occlusion (stage B) and 45 min after treatment period (stage D). Videos 1 and 2 depict the MCE aligned end-systolic images at different PI’s from where the plots were derived at stages B and D, respectively. See text for details.
Article Snippet: Similarly, US resulted in maintenance of transmural MBF in the border zone compared to control. table ft1 table-wrap mode="anchored" t5 Table 4. caption a7 Variables Stage A Stage B Stage C Stage D Stage E Myocardial Blood Volume (A)-Control 68±26 62±12 50±25 32±21 64±26 Myocardial Blood Volume (A)-US 82±13 61±24 61±15 58±26 64±19 MBF Velocity (β)-Control 0.44±0.19 0.27±0.20 0.22±0.12 0.29±0.19 0.30±0.14 MBF Velocity (β)-US 0.47±0.18 0.28±0.13 0.32±0.15 0.29±0.18 0.32±0.20 Total MBF (A·β)-Control 30±20 16±13 10±8 9±6 18±8 Total MBF (A·β)-US 37±12 17±10 20±10 * 15±8 19±13 Open in a separate window Stage A=baseline Stage B=LAD occlusion prior to treatment Stage C=LAD occlusion with or without
Techniques: Derivative Assay
Journal: Journal of the American Society of Echocardiography : official publication of the American Society of Echocardiography
Article Title: Therapeutic Ultrasound Increases Myocardial Blood Flow in Ischemic Myocardium and Cardiac Endothelial Cells: Results of In-vivo and In-Vitro Experiments
doi: 10.1016/j.echo.2019.05.012
Figure Lengend Snippet: MCE images from a dog undergoing US treatment. Panels A to C depict LAD perfusion bed size, risk area, and ROI’s placed over the myocardium at baseline MCE image (stage A) from where time versus acoustic intensity plots were derived. Panels D and E depict the actual plots derived from the risk area and border zone during coronary occlusion (stage B) and 45 min after treatment period (stage D). Videos 3 and 4 depict the MCE aligned end-systolic images at different PI’s from where the plots were derived at stages B and D, respectively. See text for details.
Article Snippet: Similarly, US resulted in maintenance of transmural MBF in the border zone compared to control. table ft1 table-wrap mode="anchored" t5 Table 4. caption a7 Variables Stage A Stage B Stage C Stage D Stage E Myocardial Blood Volume (A)-Control 68±26 62±12 50±25 32±21 64±26 Myocardial Blood Volume (A)-US 82±13 61±24 61±15 58±26 64±19 MBF Velocity (β)-Control 0.44±0.19 0.27±0.20 0.22±0.12 0.29±0.19 0.30±0.14 MBF Velocity (β)-US 0.47±0.18 0.28±0.13 0.32±0.15 0.29±0.18 0.32±0.20 Total MBF (A·β)-Control 30±20 16±13 10±8 9±6 18±8 Total MBF (A·β)-US 37±12 17±10 20±10 * 15±8 19±13 Open in a separate window Stage A=baseline Stage B=LAD occlusion prior to treatment Stage C=LAD occlusion with or without
Techniques: Derivative Assay
Journal: Journal of the American Society of Echocardiography : official publication of the American Society of Echocardiography
Article Title: Therapeutic Ultrasound Increases Myocardial Blood Flow in Ischemic Myocardium and Cardiac Endothelial Cells: Results of In-vivo and In-Vitro Experiments
doi: 10.1016/j.echo.2019.05.012
Figure Lengend Snippet: Hemodynamic Results (mean±1SD)
Article Snippet: Similarly, US resulted in maintenance of transmural MBF in the border zone compared to control. table ft1 table-wrap mode="anchored" t5 Table 4. caption a7 Variables Stage A Stage B Stage C Stage D Stage E Myocardial Blood Volume (A)-Control 68±26 62±12 50±25 32±21 64±26 Myocardial Blood Volume (A)-US 82±13 61±24 61±15 58±26 64±19 MBF Velocity (β)-Control 0.44±0.19 0.27±0.20 0.22±0.12 0.29±0.19 0.30±0.14 MBF Velocity (β)-US 0.47±0.18 0.28±0.13 0.32±0.15 0.29±0.18 0.32±0.20 Total MBF (A·β)-Control 30±20 16±13 10±8 9±6 18±8 Total MBF (A·β)-US 37±12 17±10 20±10 * 15±8 19±13 Open in a separate window Stage A=baseline Stage B=LAD occlusion prior to treatment Stage C=LAD occlusion with or without
Techniques:
Journal: Journal of the American Society of Echocardiography : official publication of the American Society of Echocardiography
Article Title: Therapeutic Ultrasound Increases Myocardial Blood Flow in Ischemic Myocardium and Cardiac Endothelial Cells: Results of In-vivo and In-Vitro Experiments
doi: 10.1016/j.echo.2019.05.012
Figure Lengend Snippet: MCE Results (mean±1SD) from the LAD Risk Area
Article Snippet: Similarly, US resulted in maintenance of transmural MBF in the border zone compared to control. table ft1 table-wrap mode="anchored" t5 Table 4. caption a7 Variables Stage A Stage B Stage C Stage D Stage E Myocardial Blood Volume (A)-Control 68±26 62±12 50±25 32±21 64±26 Myocardial Blood Volume (A)-US 82±13 61±24 61±15 58±26 64±19 MBF Velocity (β)-Control 0.44±0.19 0.27±0.20 0.22±0.12 0.29±0.19 0.30±0.14 MBF Velocity (β)-US 0.47±0.18 0.28±0.13 0.32±0.15 0.29±0.18 0.32±0.20 Total MBF (A·β)-Control 30±20 16±13 10±8 9±6 18±8 Total MBF (A·β)-US 37±12 17±10 20±10 * 15±8 19±13 Open in a separate window Stage A=baseline Stage B=LAD occlusion prior to treatment Stage C=LAD occlusion with or without
Techniques:
Journal: Journal of the American Society of Echocardiography : official publication of the American Society of Echocardiography
Article Title: Therapeutic Ultrasound Increases Myocardial Blood Flow in Ischemic Myocardium and Cardiac Endothelial Cells: Results of In-vivo and In-Vitro Experiments
doi: 10.1016/j.echo.2019.05.012
Figure Lengend Snippet: MCE Results (mean±1SD) from the LAD Border Zone
Article Snippet: Similarly, US resulted in maintenance of transmural MBF in the border zone compared to control. table ft1 table-wrap mode="anchored" t5 Table 4. caption a7 Variables Stage A Stage B Stage C Stage D Stage E Myocardial Blood Volume (A)-Control 68±26 62±12 50±25 32±21 64±26 Myocardial Blood Volume (A)-US 82±13 61±24 61±15 58±26 64±19 MBF Velocity (β)-Control 0.44±0.19 0.27±0.20 0.22±0.12 0.29±0.19 0.30±0.14 MBF Velocity (β)-US 0.47±0.18 0.28±0.13 0.32±0.15 0.29±0.18 0.32±0.20 Total MBF (A·β)-Control 30±20 16±13 10±8 9±6 18±8 Total MBF (A·β)-US 37±12 17±10 20±10 * 15±8 19±13 Open in a separate window Stage A=baseline Stage B=LAD occlusion prior to treatment Stage C=LAD occlusion with or without
Techniques:
Journal: Journal of the American Society of Echocardiography : official publication of the American Society of Echocardiography
Article Title: Therapeutic Ultrasound Increases Myocardial Blood Flow in Ischemic Myocardium and Cardiac Endothelial Cells: Results of In-vivo and In-Vitro Experiments
doi: 10.1016/j.echo.2019.05.012
Figure Lengend Snippet: Regional Wall Thickening Results (mean±1SD)
Article Snippet: Similarly, US resulted in maintenance of transmural MBF in the border zone compared to control. table ft1 table-wrap mode="anchored" t5 Table 4. caption a7 Variables Stage A Stage B Stage C Stage D Stage E Myocardial Blood Volume (A)-Control 68±26 62±12 50±25 32±21 64±26 Myocardial Blood Volume (A)-US 82±13 61±24 61±15 58±26 64±19 MBF Velocity (β)-Control 0.44±0.19 0.27±0.20 0.22±0.12 0.29±0.19 0.30±0.14 MBF Velocity (β)-US 0.47±0.18 0.28±0.13 0.32±0.15 0.29±0.18 0.32±0.20 Total MBF (A·β)-Control 30±20 16±13 10±8 9±6 18±8 Total MBF (A·β)-US 37±12 17±10 20±10 * 15±8 19±13 Open in a separate window Stage A=baseline Stage B=LAD occlusion prior to treatment Stage C=LAD occlusion with or without
Techniques:
Journal: Nutrients
Article Title: Lipoic Acid Exacerbates Oxidative Stress and Lipid Accumulation in the Liver of Wistar Rats Fed a Hypercaloric Choline-Deficient Diet
doi: 10.3390/nu13061999
Figure Lengend Snippet: Effects of α-lipoic acid (LA) supplementation on body weight and nutritional profile.
Article Snippet: Animals were divided into three groups ( n = 8 in each): control pair-feeding group of rats fed a control diet (C) ( ); rats fed a hypercaloric choline-deficient diet (HCCD); rats fed a hypercaloric choline-deficient diet supplemented with
Techniques:
Journal: Nutrients
Article Title: Lipoic Acid Exacerbates Oxidative Stress and Lipid Accumulation in the Liver of Wistar Rats Fed a Hypercaloric Choline-Deficient Diet
doi: 10.3390/nu13061999
Figure Lengend Snippet: Effects of α-lipoic acid (LA) supplementation on: ( a ) liver/body weight ratio; ( b ) visceral adipose tissue (VAT)/body weight ratio. Animals were divided into three groups: control group of rats fed a control diet (C); rats fed a hypercaloric choline-deficient diet (HCCD); rats fed a hypercaloric choline-deficient diet supplemented with α-lipoic acid (HCCD+LA; consumed average daily dose of LA-61 mg/kg body weight). VAT: visceral (epididymal and retroperitoneal) adipose tissue. Values are mean ± standard error of the mean. p < 0.05 vs. * C.
Article Snippet: Animals were divided into three groups ( n = 8 in each): control pair-feeding group of rats fed a control diet (C) ( ); rats fed a hypercaloric choline-deficient diet (HCCD); rats fed a hypercaloric choline-deficient diet supplemented with
Techniques:
Journal: Nutrients
Article Title: Lipoic Acid Exacerbates Oxidative Stress and Lipid Accumulation in the Liver of Wistar Rats Fed a Hypercaloric Choline-Deficient Diet
doi: 10.3390/nu13061999
Figure Lengend Snippet: Effects of α-lipoic acid (LA) supplementation on liver lipid content.
Article Snippet: Animals were divided into three groups ( n = 8 in each): control pair-feeding group of rats fed a control diet (C) ( ); rats fed a hypercaloric choline-deficient diet (HCCD); rats fed a hypercaloric choline-deficient diet supplemented with
Techniques:
Journal: Nutrients
Article Title: Lipoic Acid Exacerbates Oxidative Stress and Lipid Accumulation in the Liver of Wistar Rats Fed a Hypercaloric Choline-Deficient Diet
doi: 10.3390/nu13061999
Figure Lengend Snippet: Effects of α-lipoic acid (LA) supplementation on plasma levels of ( a ) glucose, ( b ) triglycerides (TG), ( c ) free fatty acids (FFA), ( d ) total cholesterol (T-Chol), ( e ) high-density lipoprotein cholesterol (HDL-Chol), ( f ) low-density lipoprotein cholesterol (LDL-Chol). Animals were divided into three groups: control group of rats fed a control diet (C); rats fed a hypercaloric choline-deficient diet (HCCD); rats fed a hypercaloric choline-deficient diet supplemented with α-lipoic acid (HCCD+LA; consumed average daily dose of LA-61 mg/kg body weight). Values are mean ± standard error of the mean. p < 0.05 vs. * C; # HCCD+LA vs. HCCD.
Article Snippet: Animals were divided into three groups ( n = 8 in each): control pair-feeding group of rats fed a control diet (C) ( ); rats fed a hypercaloric choline-deficient diet (HCCD); rats fed a hypercaloric choline-deficient diet supplemented with
Techniques:
Journal: Nutrients
Article Title: Lipoic Acid Exacerbates Oxidative Stress and Lipid Accumulation in the Liver of Wistar Rats Fed a Hypercaloric Choline-Deficient Diet
doi: 10.3390/nu13061999
Figure Lengend Snippet: Effects of α-lipoic acid (LA) supplementation on ( a ) alanine aminotransferase (ALT) activity in plasma; ( b ) aspartate aminotransferase (AST) activity in plasma; ( c ) reduced glutathione (GSH) level in the liver; ( d ) reduced/oxidized glutathione ratio (GSH/GSSG) in the liver; ( e ) total antioxidant (AOA) activity in plasma; ( f ) total antioxidant (AOA) activity in the liver; ( g ) cytochrome P450 2E1 (CYP2E1) activity in the liver. Animals were divided into three groups: control group of rats fed a control diet (C); rats fed a hypercaloric choline-deficient diet (HCCD); rats fed a hypercaloric choline-deficient diet supplemented with α-lipoic acid (HCCD+LA; consumed average daily dose of LA-61 mg/kg body weight). Values are mean ± standard error of the mean. p < 0.05 vs. * C; # HCCD+LA vs. HCCD.
Article Snippet: Animals were divided into three groups ( n = 8 in each): control pair-feeding group of rats fed a control diet (C) ( ); rats fed a hypercaloric choline-deficient diet (HCCD); rats fed a hypercaloric choline-deficient diet supplemented with
Techniques: Activity Assay
Journal: Nutrients
Article Title: Lipoic Acid Exacerbates Oxidative Stress and Lipid Accumulation in the Liver of Wistar Rats Fed a Hypercaloric Choline-Deficient Diet
doi: 10.3390/nu13061999
Figure Lengend Snippet: Effects of α-lipoic acid (LA) supplementation on ( a ) catalase (CAT) activity in the liver; ( b ) glutathione peroxidase (GPx) activity in the liver; ( c ) superoxide dismutase (SOD) activity in the liver; ( d ) paraoxonase-1 (PON-1) activity in plasma; ( e ) paraoxonase-1 (PON-1) activity in the liver. Animals were divided into three groups: control group of rats fed a control diet (C); rats fed a hypercaloric choline-deficient diet (HCCD); rats fed a hypercaloric choline-deficient diet supplemented with α-lipoic acid (HCCD+LA; consumed average daily dose of LA-61 mg/kg body weight). Values are mean ± standard error of the mean. p < 0.05 vs. * C; # HCCD+LA vs. HCCD.
Article Snippet: Animals were divided into three groups ( n = 8 in each): control pair-feeding group of rats fed a control diet (C) ( ); rats fed a hypercaloric choline-deficient diet (HCCD); rats fed a hypercaloric choline-deficient diet supplemented with
Techniques: Activity Assay
Journal: Nutrients
Article Title: Lipoic Acid Exacerbates Oxidative Stress and Lipid Accumulation in the Liver of Wistar Rats Fed a Hypercaloric Choline-Deficient Diet
doi: 10.3390/nu13061999
Figure Lengend Snippet: Effects of α-lipoic acid (LA) supplementation on histological features of the liver (portal area, ×100): ( a ) control group, hematoxylin-eosin stain; ( b ) control group, van Gieson stain; ( c ) hypercaloric choline-deficient diet group, hematoxylin-eosin stain; ( d ) hypercaloric choline-deficient diet group, van Gieson stain; ( e ) hypercaloric choline-deficient diet supplemented with α-lipoic acid (consumed average daily dose of LA-61 mg/kg body weight), hematoxylin-eosin stain; ( f ) hypercaloric choline-deficient diet supplemented with α-lipoic acid (consumed average daily dose of LA-61 mg/kg body weight), van Gieson stain. Large-sized lipid droplets are indicated by the blue arrow, foci of lobular inflammation by the black arrow, and hepatocellular ballooning by the red arrow. Scale bar = 500 μm.
Article Snippet: Animals were divided into three groups ( n = 8 in each): control pair-feeding group of rats fed a control diet (C) ( ); rats fed a hypercaloric choline-deficient diet (HCCD); rats fed a hypercaloric choline-deficient diet supplemented with
Techniques: Staining