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Resistance exercise exceeds the benefits of endurance exercise in ameliorating metabolic dysfunction. Following 8 weeks of diet and exercise interventions, all mice were assessed for their metabolic function by GTT, ITT, and skeletal muscle response of Akt and <t>AS160</t> phosphorylation to injection of insulin measured by Western blot. (A–C) HOMA-IR taken after an overnight fast for baseline glucose and insulin. (D and E) GTT from 0–120 min and calculated AUC; colored * indicates significant difference from NC-SED. (F and G) ITT from 0–60 min and calculated AUC; colored * indicates significant difference from NC-SED. (H–N) pAkt stimulation, AS160 <t>S318,</t> and AS160 T642 in hindlimb muscles before and after insulin injection and the pre–post ∆ in phosphorylation. (O and P) Total and phosphorylated 4E-BP1. (Q–T) Western results for Raptor, COX4, LC3 II/I, and ubiquitin staining. Representative western blot images inset right. Data presented as mean ± standard error of the mean. Statistical analysis performed by analysis of variance between groups: * p < 0.05, ** p < 0.01, *** p < 0.001, and **** p < 0.0001. NC-SED n : 8–16 (white); HFD-SED n : 8–18 (red); HFD-R EX n : 8–16 (blue); HFD-E EX n : 8–15 (green). 4E-BP1 = Eukaryotic translation initiation factor 4E binding protein; Akt = protein kinase B; AS160 = Akt substrate 160; COX4 = cytochrome c oxidase 4; CS = citrate sythase; E EX = endurance exercise; GAPDH = glyceraldehyde 3 phosphate dehydrogenase; GTT = glucose tolerance test; HFD = high fat diet; HOMA-IR = homeostatic model assessment for insulin resistance; iAUC = integrated area under the curve; ITT = insulin tolerance test; LC3 II/I = microtubule-associated protein light chain 3; NC = normal chow; pAkt = phospho-Akt; R EX = resistance exercise; SED = sedentary; Ub = ubiquitin.
Akt Substrate 160, supplied by Cell Signaling Technology Inc, 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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Resistance exercise exceeds the benefits of endurance exercise in ameliorating metabolic dysfunction. Following 8 weeks of diet and exercise interventions, all mice were assessed for their metabolic function by GTT, ITT, and skeletal muscle response of Akt and <t>AS160</t> phosphorylation to injection of insulin measured by Western blot. (A–C) HOMA-IR taken after an overnight fast for baseline glucose and insulin. (D and E) GTT from 0–120 min and calculated AUC; colored * indicates significant difference from NC-SED. (F and G) ITT from 0–60 min and calculated AUC; colored * indicates significant difference from NC-SED. (H–N) pAkt stimulation, AS160 S318, and AS160 <t>T642</t> in hindlimb muscles before and after insulin injection and the pre–post ∆ in phosphorylation. (O and P) Total and phosphorylated 4E-BP1. (Q–T) Western results for Raptor, COX4, LC3 II/I, and ubiquitin staining. Representative western blot images inset right. Data presented as mean ± standard error of the mean. Statistical analysis performed by analysis of variance between groups: * p < 0.05, ** p < 0.01, *** p < 0.001, and **** p < 0.0001. NC-SED n : 8–16 (white); HFD-SED n : 8–18 (red); HFD-R EX n : 8–16 (blue); HFD-E EX n : 8–15 (green). 4E-BP1 = Eukaryotic translation initiation factor 4E binding protein; Akt = protein kinase B; AS160 = Akt substrate 160; COX4 = cytochrome c oxidase 4; CS = citrate sythase; E EX = endurance exercise; GAPDH = glyceraldehyde 3 phosphate dehydrogenase; GTT = glucose tolerance test; HFD = high fat diet; HOMA-IR = homeostatic model assessment for insulin resistance; iAUC = integrated area under the curve; ITT = insulin tolerance test; LC3 II/I = microtubule-associated protein light chain 3; NC = normal chow; pAkt = phospho-Akt; R EX = resistance exercise; SED = sedentary; Ub = ubiquitin.
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Resistance exercise exceeds the benefits of endurance exercise in ameliorating metabolic dysfunction. Following 8 weeks of diet and exercise interventions, all mice were assessed for their metabolic function by GTT, ITT, and skeletal muscle response of Akt and <t>AS160</t> phosphorylation to injection of insulin measured by Western blot. (A–C) HOMA-IR taken after an overnight fast for baseline glucose and insulin. (D and E) GTT from 0–120 min and calculated AUC; colored * indicates significant difference from NC-SED. (F and G) ITT from 0–60 min and calculated AUC; colored * indicates significant difference from NC-SED. (H–N) pAkt stimulation, AS160 S318, and AS160 <t>T642</t> in hindlimb muscles before and after insulin injection and the pre–post ∆ in phosphorylation. (O and P) Total and phosphorylated 4E-BP1. (Q–T) Western results for Raptor, COX4, LC3 II/I, and ubiquitin staining. Representative western blot images inset right. Data presented as mean ± standard error of the mean. Statistical analysis performed by analysis of variance between groups: * p < 0.05, ** p < 0.01, *** p < 0.001, and **** p < 0.0001. NC-SED n : 8–16 (white); HFD-SED n : 8–18 (red); HFD-R EX n : 8–16 (blue); HFD-E EX n : 8–15 (green). 4E-BP1 = Eukaryotic translation initiation factor 4E binding protein; Akt = protein kinase B; AS160 = Akt substrate 160; COX4 = cytochrome c oxidase 4; CS = citrate sythase; E EX = endurance exercise; GAPDH = glyceraldehyde 3 phosphate dehydrogenase; GTT = glucose tolerance test; HFD = high fat diet; HOMA-IR = homeostatic model assessment for insulin resistance; iAUC = integrated area under the curve; ITT = insulin tolerance test; LC3 II/I = microtubule-associated protein light chain 3; NC = normal chow; pAkt = phospho-Akt; R EX = resistance exercise; SED = sedentary; Ub = ubiquitin.
Phospho As160, supplied by Cell Signaling Technology Inc, used in various techniques. Bioz Stars score: 94/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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Resistance exercise exceeds the benefits of endurance exercise in ameliorating metabolic dysfunction. Following 8 weeks of diet and exercise interventions, all mice were assessed for their metabolic function by GTT, ITT, and skeletal muscle response of Akt and AS160 phosphorylation to injection of insulin measured by Western blot. (A–C) HOMA-IR taken after an overnight fast for baseline glucose and insulin. (D and E) GTT from 0–120 min and calculated AUC; colored * indicates significant difference from NC-SED. (F and G) ITT from 0–60 min and calculated AUC; colored * indicates significant difference from NC-SED. (H–N) pAkt stimulation, AS160 S318, and AS160 T642 in hindlimb muscles before and after insulin injection and the pre–post ∆ in phosphorylation. (O and P) Total and phosphorylated 4E-BP1. (Q–T) Western results for Raptor, COX4, LC3 II/I, and ubiquitin staining. Representative western blot images inset right. Data presented as mean ± standard error of the mean. Statistical analysis performed by analysis of variance between groups: * p < 0.05, ** p < 0.01, *** p < 0.001, and **** p < 0.0001. NC-SED n : 8–16 (white); HFD-SED n : 8–18 (red); HFD-R EX n : 8–16 (blue); HFD-E EX n : 8–15 (green). 4E-BP1 = Eukaryotic translation initiation factor 4E binding protein; Akt = protein kinase B; AS160 = Akt substrate 160; COX4 = cytochrome c oxidase 4; CS = citrate sythase; E EX = endurance exercise; GAPDH = <t>glyceraldehyde</t> <t>3</t> phosphate dehydrogenase; GTT = glucose tolerance test; HFD = high fat diet; HOMA-IR = homeostatic model assessment for insulin resistance; iAUC = integrated area under the curve; ITT = insulin tolerance test; LC3 II/I = microtubule-associated protein light chain 3; NC = normal chow; pAkt = phospho-Akt; R EX = resistance exercise; SED = sedentary; Ub = ubiquitin.
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In vivo therapeutic efficacy of advanced BAITs in a postoperative tumor model. (A) Schematic of in vivo experimental design. LLC tumors were surgically resected, and mice were re-challenged with LLC cells. Mice then received BAIT treatments. (B) Photographs of tumors and tumor weights at day 16 for each group (n = 5; ∗ is P < 0.05, ∗∗ is P < 0.01, ∗∗∗ is P < 0.001 by one-way ANOVA with Bonferroni post-hoc test). (C) Individual tumor growth curves over time (n = 5; ∗∗ is P < 0.01, ∗∗∗∗ is P < 0.0001 by two-way ANOVA with Bonferroni post-hoc test). (D) H&E-stained tumor sections. (E) TUNEL staining of tumor sections (brown, apoptotic cells). Black arrowheads mark TUNEL + areas. (F) Quantification of TUNEL + apoptotic cells (n = 5; ∗∗∗∗ is P < 0.0001 by one-way ANOVA with Bonferroni post-hoc test). (G) Representative immunofluorescence for <t>Ki67</t> (green) in tumor tissues (nuclei in blue). The Apo-BAIT group shows greatly reduced Ki67 + proliferating cells. (H) Quantification of Ki67 + cell density (n = 5; ∗ is P < 0.05, ∗∗ is P < 0.01, ∗∗∗∗ is P < 0.0001 by one-way ANOVA with Bonferroni post-hoc test). Data are presented as mean ± SD.
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TAPC interacts with VEGFR2 and modulates downstream signaling. (a) Cell viability assay of MC38 cells treated with increasing concentrations of TAPC. (b) Immunoblot analysis of VEGFR2 and key regulators of the PI3K–AKT signaling pathway (PI3K, AKT, and STAT3) in MC38 cells treated with PEG-PO or TAPC (5 and 10 μM). <t>β-Actin</t> was used as a loading control. (c) Pull-down assay of VEGFR2 from MC38 cell lysates using biotinylated TAPC, beads-only sample served as control. (d) Confocal IF imaging of MC38 cells incubated with Cy5.5-labeled TAPC and stained for VEGFR2, nuclei counterstained with DAPI. Scale bars: 20 μm. (e) BLI analysis of TAPC binding to recombinant VEGFR2 using serial concentrations (100, 66.7, 44.4, 29.6, 19.8, 13.2, and 8.8 μM). (f) Molecular dynamics simulations showing predicted protein–ligand complexes (top) and binding pocket visualizations (bottom) of VEGFR2 with TAPC, NDMPFI, MBAMF, and TPFE. (g) Binding free energy calculations of these complexes, including van der Waals, electrostatic, solvation, and total energy components. (h) Extracellular acidification rate (ECAR) of MC38 cells treated with control (0 μM), TAPC (2.5 μM), or TAPC (10 μM), with sequential addition of glucose, oligomycin, and 2-deoxyglucose (2-DG). (i) Quantification of glycolysis and glycolytic capacity in MC38 cells treated with control (0 μM), TAPC (2.5 μM), or TAPC (10 μM) (n = 8). Data are presented as mean ± SEM. Statistical significance was assessed using one-way ANOVA with Tukey's multiple comparisons test; ∗p < 0.05, ∗∗p < 0.01, ∗∗∗p < 0.001, ∗∗∗∗p < 0.0001.
β Actin 13e5 Rabbit Mab, supplied by Cell Signaling Technology Inc, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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cst 9664s  (Cell Signaling Technology Inc)
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TAPC interacts with VEGFR2 and modulates downstream signaling. (a) Cell viability assay of MC38 cells treated with increasing concentrations of TAPC. (b) Immunoblot analysis of VEGFR2 and key regulators of the PI3K–AKT signaling pathway (PI3K, AKT, and STAT3) in MC38 cells treated with PEG-PO or TAPC (5 and 10 μM). <t>β-Actin</t> was used as a loading control. (c) Pull-down assay of VEGFR2 from MC38 cell lysates using biotinylated TAPC, beads-only sample served as control. (d) Confocal IF imaging of MC38 cells incubated with Cy5.5-labeled TAPC and stained for VEGFR2, nuclei counterstained with DAPI. Scale bars: 20 μm. (e) BLI analysis of TAPC binding to recombinant VEGFR2 using serial concentrations (100, 66.7, 44.4, 29.6, 19.8, 13.2, and 8.8 μM). (f) Molecular dynamics simulations showing predicted protein–ligand complexes (top) and binding pocket visualizations (bottom) of VEGFR2 with TAPC, NDMPFI, MBAMF, and TPFE. (g) Binding free energy calculations of these complexes, including van der Waals, electrostatic, solvation, and total energy components. (h) Extracellular acidification rate (ECAR) of MC38 cells treated with control (0 μM), TAPC (2.5 μM), or TAPC (10 μM), with sequential addition of glucose, oligomycin, and 2-deoxyglucose (2-DG). (i) Quantification of glycolysis and glycolytic capacity in MC38 cells treated with control (0 μM), TAPC (2.5 μM), or TAPC (10 μM) (n = 8). Data are presented as mean ± SEM. Statistical significance was assessed using one-way ANOVA with Tukey's multiple comparisons test; ∗p < 0.05, ∗∗p < 0.01, ∗∗∗p < 0.001, ∗∗∗∗p < 0.0001.
Cst 9664s, supplied by Cell Signaling Technology Inc, 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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TAPC interacts with VEGFR2 and modulates downstream signaling. (a) Cell viability assay of MC38 cells treated with increasing concentrations of TAPC. (b) Immunoblot analysis of VEGFR2 and key regulators of the PI3K–AKT signaling pathway (PI3K, AKT, and STAT3) in MC38 cells treated with PEG-PO or TAPC (5 and 10 μM). <t>β-Actin</t> was used as a loading control. (c) Pull-down assay of VEGFR2 from MC38 cell lysates using biotinylated TAPC, beads-only sample served as control. (d) Confocal IF imaging of MC38 cells incubated with Cy5.5-labeled TAPC and stained for VEGFR2, nuclei counterstained with DAPI. Scale bars: 20 μm. (e) BLI analysis of TAPC binding to recombinant VEGFR2 using serial concentrations (100, 66.7, 44.4, 29.6, 19.8, 13.2, and 8.8 μM). (f) Molecular dynamics simulations showing predicted protein–ligand complexes (top) and binding pocket visualizations (bottom) of VEGFR2 with TAPC, NDMPFI, MBAMF, and TPFE. (g) Binding free energy calculations of these complexes, including van der Waals, electrostatic, solvation, and total energy components. (h) Extracellular acidification rate (ECAR) of MC38 cells treated with control (0 μM), TAPC (2.5 μM), or TAPC (10 μM), with sequential addition of glucose, oligomycin, and 2-deoxyglucose (2-DG). (i) Quantification of glycolysis and glycolytic capacity in MC38 cells treated with control (0 μM), TAPC (2.5 μM), or TAPC (10 μM) (n = 8). Data are presented as mean ± SEM. Statistical significance was assessed using one-way ANOVA with Tukey's multiple comparisons test; ∗p < 0.05, ∗∗p < 0.01, ∗∗∗p < 0.001, ∗∗∗∗p < 0.0001.
Anti Ki67, supplied by Cell Signaling Technology Inc, used in various techniques. Bioz Stars score: 97/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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Resistance exercise exceeds the benefits of endurance exercise in ameliorating metabolic dysfunction. Following 8 weeks of diet and exercise interventions, all mice were assessed for their metabolic function by GTT, ITT, and skeletal muscle response of Akt and AS160 phosphorylation to injection of insulin measured by Western blot. (A–C) HOMA-IR taken after an overnight fast for baseline glucose and insulin. (D and E) GTT from 0–120 min and calculated AUC; colored * indicates significant difference from NC-SED. (F and G) ITT from 0–60 min and calculated AUC; colored * indicates significant difference from NC-SED. (H–N) pAkt stimulation, AS160 S318, and AS160 T642 in hindlimb muscles before and after insulin injection and the pre–post ∆ in phosphorylation. (O and P) Total and phosphorylated 4E-BP1. (Q–T) Western results for Raptor, COX4, LC3 II/I, and ubiquitin staining. Representative western blot images inset right. Data presented as mean ± standard error of the mean. Statistical analysis performed by analysis of variance between groups: * p < 0.05, ** p < 0.01, *** p < 0.001, and **** p < 0.0001. NC-SED n : 8–16 (white); HFD-SED n : 8–18 (red); HFD-R EX n : 8–16 (blue); HFD-E EX n : 8–15 (green). 4E-BP1 = Eukaryotic translation initiation factor 4E binding protein; Akt = protein kinase B; AS160 = Akt substrate 160; COX4 = cytochrome c oxidase 4; CS = citrate sythase; E EX = endurance exercise; GAPDH = glyceraldehyde 3 phosphate dehydrogenase; GTT = glucose tolerance test; HFD = high fat diet; HOMA-IR = homeostatic model assessment for insulin resistance; iAUC = integrated area under the curve; ITT = insulin tolerance test; LC3 II/I = microtubule-associated protein light chain 3; NC = normal chow; pAkt = phospho-Akt; R EX = resistance exercise; SED = sedentary; Ub = ubiquitin.

Journal: Journal of Sport and Health Science

Article Title: Weightlifting outperforms voluntary wheel running for improving adiposity and insulin sensitivity in obese mice

doi: 10.1016/j.jshs.2025.101100

Figure Lengend Snippet: Resistance exercise exceeds the benefits of endurance exercise in ameliorating metabolic dysfunction. Following 8 weeks of diet and exercise interventions, all mice were assessed for their metabolic function by GTT, ITT, and skeletal muscle response of Akt and AS160 phosphorylation to injection of insulin measured by Western blot. (A–C) HOMA-IR taken after an overnight fast for baseline glucose and insulin. (D and E) GTT from 0–120 min and calculated AUC; colored * indicates significant difference from NC-SED. (F and G) ITT from 0–60 min and calculated AUC; colored * indicates significant difference from NC-SED. (H–N) pAkt stimulation, AS160 S318, and AS160 T642 in hindlimb muscles before and after insulin injection and the pre–post ∆ in phosphorylation. (O and P) Total and phosphorylated 4E-BP1. (Q–T) Western results for Raptor, COX4, LC3 II/I, and ubiquitin staining. Representative western blot images inset right. Data presented as mean ± standard error of the mean. Statistical analysis performed by analysis of variance between groups: * p < 0.05, ** p < 0.01, *** p < 0.001, and **** p < 0.0001. NC-SED n : 8–16 (white); HFD-SED n : 8–18 (red); HFD-R EX n : 8–16 (blue); HFD-E EX n : 8–15 (green). 4E-BP1 = Eukaryotic translation initiation factor 4E binding protein; Akt = protein kinase B; AS160 = Akt substrate 160; COX4 = cytochrome c oxidase 4; CS = citrate sythase; E EX = endurance exercise; GAPDH = glyceraldehyde 3 phosphate dehydrogenase; GTT = glucose tolerance test; HFD = high fat diet; HOMA-IR = homeostatic model assessment for insulin resistance; iAUC = integrated area under the curve; ITT = insulin tolerance test; LC3 II/I = microtubule-associated protein light chain 3; NC = normal chow; pAkt = phospho-Akt; R EX = resistance exercise; SED = sedentary; Ub = ubiquitin.

Article Snippet: Primary antibodies used for analysis were from Cell Signaling Technologies (Danvers, MA, USA) and diluted 1:1000 unless otherwise stated as follows: protein kinase B (Akt; 1:500; #4691; Cell Signaling Technologies), phospho-Akt (pAkt) S473 (1:500; #9271; Cell Signaling Technologies), Ubiquitin (#3933; Cell Signaling Technologies), microtubule-associated protein light chain 3 (LC3 II/I; #4018; Cell Signaling Technologies), cytochrome c oxidase subunit 4(COX4; #11967; Cell Signaling Technologies), Akt substrate 160 (AS160 S318; #8619; Cell Signaling Technologies), AS160 T642 (#8881; Cell Signaling Technologies), eukaryotic translation initiation factor 4E binding protein (4E-BP1; #9452; Cell Signaling Technologies), and glyceraldehyde 3 phosphate dehydrogenase (GAPDH; #2118; Cell Signaling Technologies).

Techniques: Phospho-proteomics, Injection, Western Blot, Muscles, Ubiquitin Proteomics, Staining, Binding Assay

Resistance exercise exceeds the benefits of endurance exercise in ameliorating metabolic dysfunction. Following 8 weeks of diet and exercise interventions, all mice were assessed for their metabolic function by GTT, ITT, and skeletal muscle response of Akt and AS160 phosphorylation to injection of insulin measured by Western blot. (A–C) HOMA-IR taken after an overnight fast for baseline glucose and insulin. (D and E) GTT from 0–120 min and calculated AUC; colored * indicates significant difference from NC-SED. (F and G) ITT from 0–60 min and calculated AUC; colored * indicates significant difference from NC-SED. (H–N) pAkt stimulation, AS160 S318, and AS160 T642 in hindlimb muscles before and after insulin injection and the pre–post ∆ in phosphorylation. (O and P) Total and phosphorylated 4E-BP1. (Q–T) Western results for Raptor, COX4, LC3 II/I, and ubiquitin staining. Representative western blot images inset right. Data presented as mean ± standard error of the mean. Statistical analysis performed by analysis of variance between groups: * p < 0.05, ** p < 0.01, *** p < 0.001, and **** p < 0.0001. NC-SED n : 8–16 (white); HFD-SED n : 8–18 (red); HFD-R EX n : 8–16 (blue); HFD-E EX n : 8–15 (green). 4E-BP1 = Eukaryotic translation initiation factor 4E binding protein; Akt = protein kinase B; AS160 = Akt substrate 160; COX4 = cytochrome c oxidase 4; CS = citrate sythase; E EX = endurance exercise; GAPDH = glyceraldehyde 3 phosphate dehydrogenase; GTT = glucose tolerance test; HFD = high fat diet; HOMA-IR = homeostatic model assessment for insulin resistance; iAUC = integrated area under the curve; ITT = insulin tolerance test; LC3 II/I = microtubule-associated protein light chain 3; NC = normal chow; pAkt = phospho-Akt; R EX = resistance exercise; SED = sedentary; Ub = ubiquitin.

Journal: Journal of Sport and Health Science

Article Title: Weightlifting outperforms voluntary wheel running for improving adiposity and insulin sensitivity in obese mice

doi: 10.1016/j.jshs.2025.101100

Figure Lengend Snippet: Resistance exercise exceeds the benefits of endurance exercise in ameliorating metabolic dysfunction. Following 8 weeks of diet and exercise interventions, all mice were assessed for their metabolic function by GTT, ITT, and skeletal muscle response of Akt and AS160 phosphorylation to injection of insulin measured by Western blot. (A–C) HOMA-IR taken after an overnight fast for baseline glucose and insulin. (D and E) GTT from 0–120 min and calculated AUC; colored * indicates significant difference from NC-SED. (F and G) ITT from 0–60 min and calculated AUC; colored * indicates significant difference from NC-SED. (H–N) pAkt stimulation, AS160 S318, and AS160 T642 in hindlimb muscles before and after insulin injection and the pre–post ∆ in phosphorylation. (O and P) Total and phosphorylated 4E-BP1. (Q–T) Western results for Raptor, COX4, LC3 II/I, and ubiquitin staining. Representative western blot images inset right. Data presented as mean ± standard error of the mean. Statistical analysis performed by analysis of variance between groups: * p < 0.05, ** p < 0.01, *** p < 0.001, and **** p < 0.0001. NC-SED n : 8–16 (white); HFD-SED n : 8–18 (red); HFD-R EX n : 8–16 (blue); HFD-E EX n : 8–15 (green). 4E-BP1 = Eukaryotic translation initiation factor 4E binding protein; Akt = protein kinase B; AS160 = Akt substrate 160; COX4 = cytochrome c oxidase 4; CS = citrate sythase; E EX = endurance exercise; GAPDH = glyceraldehyde 3 phosphate dehydrogenase; GTT = glucose tolerance test; HFD = high fat diet; HOMA-IR = homeostatic model assessment for insulin resistance; iAUC = integrated area under the curve; ITT = insulin tolerance test; LC3 II/I = microtubule-associated protein light chain 3; NC = normal chow; pAkt = phospho-Akt; R EX = resistance exercise; SED = sedentary; Ub = ubiquitin.

Article Snippet: Primary antibodies used for analysis were from Cell Signaling Technologies (Danvers, MA, USA) and diluted 1:1000 unless otherwise stated as follows: protein kinase B (Akt; 1:500; #4691; Cell Signaling Technologies), phospho-Akt (pAkt) S473 (1:500; #9271; Cell Signaling Technologies), Ubiquitin (#3933; Cell Signaling Technologies), microtubule-associated protein light chain 3 (LC3 II/I; #4018; Cell Signaling Technologies), cytochrome c oxidase subunit 4(COX4; #11967; Cell Signaling Technologies), Akt substrate 160 (AS160 S318; #8619; Cell Signaling Technologies), AS160 T642 (#8881; Cell Signaling Technologies), eukaryotic translation initiation factor 4E binding protein (4E-BP1; #9452; Cell Signaling Technologies), and glyceraldehyde 3 phosphate dehydrogenase (GAPDH; #2118; Cell Signaling Technologies).

Techniques: Phospho-proteomics, Injection, Western Blot, Muscles, Ubiquitin Proteomics, Staining, Binding Assay

Resistance exercise exceeds the benefits of endurance exercise in ameliorating metabolic dysfunction. Following 8 weeks of diet and exercise interventions, all mice were assessed for their metabolic function by GTT, ITT, and skeletal muscle response of Akt and AS160 phosphorylation to injection of insulin measured by Western blot. (A–C) HOMA-IR taken after an overnight fast for baseline glucose and insulin. (D and E) GTT from 0–120 min and calculated AUC; colored * indicates significant difference from NC-SED. (F and G) ITT from 0–60 min and calculated AUC; colored * indicates significant difference from NC-SED. (H–N) pAkt stimulation, AS160 S318, and AS160 T642 in hindlimb muscles before and after insulin injection and the pre–post ∆ in phosphorylation. (O and P) Total and phosphorylated 4E-BP1. (Q–T) Western results for Raptor, COX4, LC3 II/I, and ubiquitin staining. Representative western blot images inset right. Data presented as mean ± standard error of the mean. Statistical analysis performed by analysis of variance between groups: * p < 0.05, ** p < 0.01, *** p < 0.001, and **** p < 0.0001. NC-SED n : 8–16 (white); HFD-SED n : 8–18 (red); HFD-R EX n : 8–16 (blue); HFD-E EX n : 8–15 (green). 4E-BP1 = Eukaryotic translation initiation factor 4E binding protein; Akt = protein kinase B; AS160 = Akt substrate 160; COX4 = cytochrome c oxidase 4; CS = citrate sythase; E EX = endurance exercise; GAPDH = glyceraldehyde 3 phosphate dehydrogenase; GTT = glucose tolerance test; HFD = high fat diet; HOMA-IR = homeostatic model assessment for insulin resistance; iAUC = integrated area under the curve; ITT = insulin tolerance test; LC3 II/I = microtubule-associated protein light chain 3; NC = normal chow; pAkt = phospho-Akt; R EX = resistance exercise; SED = sedentary; Ub = ubiquitin.

Journal: Journal of Sport and Health Science

Article Title: Weightlifting outperforms voluntary wheel running for improving adiposity and insulin sensitivity in obese mice

doi: 10.1016/j.jshs.2025.101100

Figure Lengend Snippet: Resistance exercise exceeds the benefits of endurance exercise in ameliorating metabolic dysfunction. Following 8 weeks of diet and exercise interventions, all mice were assessed for their metabolic function by GTT, ITT, and skeletal muscle response of Akt and AS160 phosphorylation to injection of insulin measured by Western blot. (A–C) HOMA-IR taken after an overnight fast for baseline glucose and insulin. (D and E) GTT from 0–120 min and calculated AUC; colored * indicates significant difference from NC-SED. (F and G) ITT from 0–60 min and calculated AUC; colored * indicates significant difference from NC-SED. (H–N) pAkt stimulation, AS160 S318, and AS160 T642 in hindlimb muscles before and after insulin injection and the pre–post ∆ in phosphorylation. (O and P) Total and phosphorylated 4E-BP1. (Q–T) Western results for Raptor, COX4, LC3 II/I, and ubiquitin staining. Representative western blot images inset right. Data presented as mean ± standard error of the mean. Statistical analysis performed by analysis of variance between groups: * p < 0.05, ** p < 0.01, *** p < 0.001, and **** p < 0.0001. NC-SED n : 8–16 (white); HFD-SED n : 8–18 (red); HFD-R EX n : 8–16 (blue); HFD-E EX n : 8–15 (green). 4E-BP1 = Eukaryotic translation initiation factor 4E binding protein; Akt = protein kinase B; AS160 = Akt substrate 160; COX4 = cytochrome c oxidase 4; CS = citrate sythase; E EX = endurance exercise; GAPDH = glyceraldehyde 3 phosphate dehydrogenase; GTT = glucose tolerance test; HFD = high fat diet; HOMA-IR = homeostatic model assessment for insulin resistance; iAUC = integrated area under the curve; ITT = insulin tolerance test; LC3 II/I = microtubule-associated protein light chain 3; NC = normal chow; pAkt = phospho-Akt; R EX = resistance exercise; SED = sedentary; Ub = ubiquitin.

Article Snippet: Primary antibodies used for analysis were from Cell Signaling Technologies (Danvers, MA, USA) and diluted 1:1000 unless otherwise stated as follows: protein kinase B (Akt; 1:500; #4691; Cell Signaling Technologies), phospho-Akt (pAkt) S473 (1:500; #9271; Cell Signaling Technologies), Ubiquitin (#3933; Cell Signaling Technologies), microtubule-associated protein light chain 3 (LC3 II/I; #4018; Cell Signaling Technologies), cytochrome c oxidase subunit 4(COX4; #11967; Cell Signaling Technologies), Akt substrate 160 (AS160 S318; #8619; Cell Signaling Technologies), AS160 T642 (#8881; Cell Signaling Technologies), eukaryotic translation initiation factor 4E binding protein (4E-BP1; #9452; Cell Signaling Technologies), and glyceraldehyde 3 phosphate dehydrogenase (GAPDH; #2118; Cell Signaling Technologies).

Techniques: Phospho-proteomics, Injection, Western Blot, Muscles, Ubiquitin Proteomics, Staining, Binding Assay

In vivo therapeutic efficacy of advanced BAITs in a postoperative tumor model. (A) Schematic of in vivo experimental design. LLC tumors were surgically resected, and mice were re-challenged with LLC cells. Mice then received BAIT treatments. (B) Photographs of tumors and tumor weights at day 16 for each group (n = 5; ∗ is P < 0.05, ∗∗ is P < 0.01, ∗∗∗ is P < 0.001 by one-way ANOVA with Bonferroni post-hoc test). (C) Individual tumor growth curves over time (n = 5; ∗∗ is P < 0.01, ∗∗∗∗ is P < 0.0001 by two-way ANOVA with Bonferroni post-hoc test). (D) H&E-stained tumor sections. (E) TUNEL staining of tumor sections (brown, apoptotic cells). Black arrowheads mark TUNEL + areas. (F) Quantification of TUNEL + apoptotic cells (n = 5; ∗∗∗∗ is P < 0.0001 by one-way ANOVA with Bonferroni post-hoc test). (G) Representative immunofluorescence for Ki67 (green) in tumor tissues (nuclei in blue). The Apo-BAIT group shows greatly reduced Ki67 + proliferating cells. (H) Quantification of Ki67 + cell density (n = 5; ∗ is P < 0.05, ∗∗ is P < 0.01, ∗∗∗∗ is P < 0.0001 by one-way ANOVA with Bonferroni post-hoc test). Data are presented as mean ± SD.

Journal: Bioactive Materials

Article Title: Countering postoperative immune suppression with a self-assembling dendritic cell nanovaccine

doi: 10.1016/j.bioactmat.2026.05.005

Figure Lengend Snippet: In vivo therapeutic efficacy of advanced BAITs in a postoperative tumor model. (A) Schematic of in vivo experimental design. LLC tumors were surgically resected, and mice were re-challenged with LLC cells. Mice then received BAIT treatments. (B) Photographs of tumors and tumor weights at day 16 for each group (n = 5; ∗ is P < 0.05, ∗∗ is P < 0.01, ∗∗∗ is P < 0.001 by one-way ANOVA with Bonferroni post-hoc test). (C) Individual tumor growth curves over time (n = 5; ∗∗ is P < 0.01, ∗∗∗∗ is P < 0.0001 by two-way ANOVA with Bonferroni post-hoc test). (D) H&E-stained tumor sections. (E) TUNEL staining of tumor sections (brown, apoptotic cells). Black arrowheads mark TUNEL + areas. (F) Quantification of TUNEL + apoptotic cells (n = 5; ∗∗∗∗ is P < 0.0001 by one-way ANOVA with Bonferroni post-hoc test). (G) Representative immunofluorescence for Ki67 (green) in tumor tissues (nuclei in blue). The Apo-BAIT group shows greatly reduced Ki67 + proliferating cells. (H) Quantification of Ki67 + cell density (n = 5; ∗ is P < 0.05, ∗∗ is P < 0.01, ∗∗∗∗ is P < 0.0001 by one-way ANOVA with Bonferroni post-hoc test). Data are presented as mean ± SD.

Article Snippet: Anti-Ki67 mouse mAb (Cat# GB121141-100), anti-CD3 mouse mAb (Cat# GB15014-100), FITC-conjugated goat anti-mouse IgG (H + L) (Cat# GB22301), and Cy5-conjugated goat anti-mouse IgG (H + L) (Cat# GB27301) for immunofluorescence assays, and DAB (SA-HRP) TUNEL apoptosis detection kit were supplied by Servicebio (Wuhan, China).

Techniques: In Vivo, Drug discovery, Staining, TUNEL Assay, Immunofluorescence

TAPC interacts with VEGFR2 and modulates downstream signaling. (a) Cell viability assay of MC38 cells treated with increasing concentrations of TAPC. (b) Immunoblot analysis of VEGFR2 and key regulators of the PI3K–AKT signaling pathway (PI3K, AKT, and STAT3) in MC38 cells treated with PEG-PO or TAPC (5 and 10 μM). β-Actin was used as a loading control. (c) Pull-down assay of VEGFR2 from MC38 cell lysates using biotinylated TAPC, beads-only sample served as control. (d) Confocal IF imaging of MC38 cells incubated with Cy5.5-labeled TAPC and stained for VEGFR2, nuclei counterstained with DAPI. Scale bars: 20 μm. (e) BLI analysis of TAPC binding to recombinant VEGFR2 using serial concentrations (100, 66.7, 44.4, 29.6, 19.8, 13.2, and 8.8 μM). (f) Molecular dynamics simulations showing predicted protein–ligand complexes (top) and binding pocket visualizations (bottom) of VEGFR2 with TAPC, NDMPFI, MBAMF, and TPFE. (g) Binding free energy calculations of these complexes, including van der Waals, electrostatic, solvation, and total energy components. (h) Extracellular acidification rate (ECAR) of MC38 cells treated with control (0 μM), TAPC (2.5 μM), or TAPC (10 μM), with sequential addition of glucose, oligomycin, and 2-deoxyglucose (2-DG). (i) Quantification of glycolysis and glycolytic capacity in MC38 cells treated with control (0 μM), TAPC (2.5 μM), or TAPC (10 μM) (n = 8). Data are presented as mean ± SEM. Statistical significance was assessed using one-way ANOVA with Tukey's multiple comparisons test; ∗p < 0.05, ∗∗p < 0.01, ∗∗∗p < 0.001, ∗∗∗∗p < 0.0001.

Journal: Bioactive Materials

Article Title: Aminated fullerene-based nanoplatform enables synergistic VEGFR2-targeted anti-angiogenesis and tumor immunotherapy

doi: 10.1016/j.bioactmat.2026.03.016

Figure Lengend Snippet: TAPC interacts with VEGFR2 and modulates downstream signaling. (a) Cell viability assay of MC38 cells treated with increasing concentrations of TAPC. (b) Immunoblot analysis of VEGFR2 and key regulators of the PI3K–AKT signaling pathway (PI3K, AKT, and STAT3) in MC38 cells treated with PEG-PO or TAPC (5 and 10 μM). β-Actin was used as a loading control. (c) Pull-down assay of VEGFR2 from MC38 cell lysates using biotinylated TAPC, beads-only sample served as control. (d) Confocal IF imaging of MC38 cells incubated with Cy5.5-labeled TAPC and stained for VEGFR2, nuclei counterstained with DAPI. Scale bars: 20 μm. (e) BLI analysis of TAPC binding to recombinant VEGFR2 using serial concentrations (100, 66.7, 44.4, 29.6, 19.8, 13.2, and 8.8 μM). (f) Molecular dynamics simulations showing predicted protein–ligand complexes (top) and binding pocket visualizations (bottom) of VEGFR2 with TAPC, NDMPFI, MBAMF, and TPFE. (g) Binding free energy calculations of these complexes, including van der Waals, electrostatic, solvation, and total energy components. (h) Extracellular acidification rate (ECAR) of MC38 cells treated with control (0 μM), TAPC (2.5 μM), or TAPC (10 μM), with sequential addition of glucose, oligomycin, and 2-deoxyglucose (2-DG). (i) Quantification of glycolysis and glycolytic capacity in MC38 cells treated with control (0 μM), TAPC (2.5 μM), or TAPC (10 μM) (n = 8). Data are presented as mean ± SEM. Statistical significance was assessed using one-way ANOVA with Tukey's multiple comparisons test; ∗p < 0.05, ∗∗p < 0.01, ∗∗∗p < 0.001, ∗∗∗∗p < 0.0001.

Article Snippet: Antibodies were listed as follows: Anti-VEGF Receptor 2 antibody [EPRER16Y] (Abcam, Cat: ab134191), Anti-PI 3 Kinase catalytic subunit gamma (Abcam, Cat: ab302958), Anti-AKT (phosphor T308) antibody (Abcam, Cat: ab38449), Anti-STAT3 antibody [EPR787Y] (Abcam, Cat: ab68153), β-Actin (13E5) rabbit mAb (CST, Cat: #4970), Anti-CD31 antibody [EPR17260-263] (Abcam, Cat: ab222783), FITC anti-mouse CD45 (Biolegend, Cat: 103108), PerCP/Cyanine5.5 anti-mouse CD4 (Biolegend, Cat: 100434), FOXP3 Monoclonal Antibody (NRRF-30), PE, eBioscience (Thermo, Cat: 12-4771-82), CD3 (Abcam, Cat: ab16669), CD4 (Servicebio, Cat: GB15064).

Techniques: Viability Assay, Western Blot, Control, Pull Down Assay, Imaging, Incubation, Labeling, Staining, Binding Assay, Recombinant

In vivo anti-tumor and anti-angiogenic effects of TAPC@CNPs. (a) Schematic illustration of the therapeutic study in Balb/c mice bearing subcutaneous MC38 tumors (n = 7). (b) Body weights of mice during treatment. (c) Photographs of excised tumors collected at endpoint. (d) Tumor growth curves during treatment. Tumor volume was calculated using the formula (length × width 2 )/2. (e) Tumor weights measured at endpoint. (f) Immunoblot analysis of VEGFR2 expression in tumor lysates from different treatment groups, β-actin was used as a reference protein. (g) IHC staining of CD31 in tumor sections from different treatment groups. Scale bar, 100 μm. (h) H&E staining of major organs (heart, liver, spleen, lung, kidney) and tumor tissues. (i) Serum ALT and AST levels measured at endpoint. Data are presented as mean ± SEM. Statistical analysis was performed by one-way ANOVA with Tukey's multiple comparisons test, ns indicates not significant, ∗p < 0.05, ∗∗p < 0.01, ∗∗∗∗p < 0.0001.

Journal: Bioactive Materials

Article Title: Aminated fullerene-based nanoplatform enables synergistic VEGFR2-targeted anti-angiogenesis and tumor immunotherapy

doi: 10.1016/j.bioactmat.2026.03.016

Figure Lengend Snippet: In vivo anti-tumor and anti-angiogenic effects of TAPC@CNPs. (a) Schematic illustration of the therapeutic study in Balb/c mice bearing subcutaneous MC38 tumors (n = 7). (b) Body weights of mice during treatment. (c) Photographs of excised tumors collected at endpoint. (d) Tumor growth curves during treatment. Tumor volume was calculated using the formula (length × width 2 )/2. (e) Tumor weights measured at endpoint. (f) Immunoblot analysis of VEGFR2 expression in tumor lysates from different treatment groups, β-actin was used as a reference protein. (g) IHC staining of CD31 in tumor sections from different treatment groups. Scale bar, 100 μm. (h) H&E staining of major organs (heart, liver, spleen, lung, kidney) and tumor tissues. (i) Serum ALT and AST levels measured at endpoint. Data are presented as mean ± SEM. Statistical analysis was performed by one-way ANOVA with Tukey's multiple comparisons test, ns indicates not significant, ∗p < 0.05, ∗∗p < 0.01, ∗∗∗∗p < 0.0001.

Article Snippet: Antibodies were listed as follows: Anti-VEGF Receptor 2 antibody [EPRER16Y] (Abcam, Cat: ab134191), Anti-PI 3 Kinase catalytic subunit gamma (Abcam, Cat: ab302958), Anti-AKT (phosphor T308) antibody (Abcam, Cat: ab38449), Anti-STAT3 antibody [EPR787Y] (Abcam, Cat: ab68153), β-Actin (13E5) rabbit mAb (CST, Cat: #4970), Anti-CD31 antibody [EPR17260-263] (Abcam, Cat: ab222783), FITC anti-mouse CD45 (Biolegend, Cat: 103108), PerCP/Cyanine5.5 anti-mouse CD4 (Biolegend, Cat: 100434), FOXP3 Monoclonal Antibody (NRRF-30), PE, eBioscience (Thermo, Cat: 12-4771-82), CD3 (Abcam, Cat: ab16669), CD4 (Servicebio, Cat: GB15064).

Techniques: In Vivo, Western Blot, Expressing, Immunohistochemistry, Staining