primary human coronary artery smooth muscle cells smc Search Results


human coronary arterial smcs  (ATCC)
94
ATCC human coronary arterial smcs
Effects of inhibition of AGEs <t>on</t> <t>coronary</t> artery tensions and BK channel densities and protein expression (a) Representative tracings for 60 mmol/L KCl and 100 nmol/L IBTX induced vascular tension alterations of coronary arterial rings from C+V, DM+V, C+A and DM+A groups. (b) Graph data showing the vascular tension alterations induced by KCl. (c) Graph data showing the vascular tension alterations (IBTX/KCl). (d and e) Whole-cell potassium currents before and after application of 100 nmol/L IBTX, and the I-V relationship of IBTX-sensitive currents of control and AGEs-cultured freshly isolated rat coronary arterial <t>SMCs</t> ( n = 3∼6 per group). (f) The representative tracings of baseline potassium currents and potassium currents after application of 100 nM IBTX in rat coronary arterial SMCs of the C+V, DM+V, C+A and DM+A groups, respectively ( n = 3∼5 per group). (g) Graph data showing IBTX-sensitive current densities at the testing potential of +100 mV in rat coronary arterial SMCs of the four groups. (h–j) The protein expressions of BK-α and BK-β1 in human coronary arterial SMCs in the BSA and BSA-AGEs groups ( n = 6∼9 per group). Quantitative analysis of BK-α and BK-β1 were normalized to GAPDH protein expression levels. (k-l) The mRNA expression of BK-α and BK-β1 in rat coronary arteries of the C+V, DM+V, C+A and DM+A groups. β-actin was used as an internal control to normalize differences in the amount of total RNA in each rat sample ( n = 4 per group). (m and n) The mRNA expression of BK-α and BK-β1 in human coronary arterial SMCs of the NG, HG, NG+A, HG+A groups. GAPDH was used as an internal control to normalize differences in the amount of total RNA in each cell sample ( n = 4∼5 per group). (o–q) Protein expressions of BK-α and BK-β1 in rat coronary arteries of the C+V, DM+V, C+A and DM+A groups. Quantitative analysis of BK-α and BK-β1 were normalized to GAPDH protein expression levels ( n = 5 per group). (r–t) Protein expressions of BK-α and BK-β1 in human coronary arterial SMCs of the NG, HG, NG+A, HG+A groups. Quantitative analysis of BK-α and BK-β1 were normalized to GAPDH protein expression levels ( n = 5∼9 per group). (C+V: Control + Vehicle; C+A: Control + aminoguanidine; DM+V: DM + Vehicle; DM+A: DM + aminoguanidine. NG: normal glucose; HG: high glucose; NG+A: normal glucose + aminoguanidine; HG+A: high glucose + aminoguanidine).
Human Coronary Arterial Smcs, supplied by ATCC, 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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primary human coronary artery smooth muscle cells hcasmcs  (ATCC)
93
ATCC primary human coronary artery smooth muscle cells hcasmcs
Effects of inhibition of AGEs <t>on</t> <t>coronary</t> artery tensions and BK channel densities and protein expression (a) Representative tracings for 60 mmol/L KCl and 100 nmol/L IBTX induced vascular tension alterations of coronary arterial rings from C+V, DM+V, C+A and DM+A groups. (b) Graph data showing the vascular tension alterations induced by KCl. (c) Graph data showing the vascular tension alterations (IBTX/KCl). (d and e) Whole-cell potassium currents before and after application of 100 nmol/L IBTX, and the I-V relationship of IBTX-sensitive currents of control and AGEs-cultured freshly isolated rat coronary arterial <t>SMCs</t> ( n = 3∼6 per group). (f) The representative tracings of baseline potassium currents and potassium currents after application of 100 nM IBTX in rat coronary arterial SMCs of the C+V, DM+V, C+A and DM+A groups, respectively ( n = 3∼5 per group). (g) Graph data showing IBTX-sensitive current densities at the testing potential of +100 mV in rat coronary arterial SMCs of the four groups. (h–j) The protein expressions of BK-α and BK-β1 in human coronary arterial SMCs in the BSA and BSA-AGEs groups ( n = 6∼9 per group). Quantitative analysis of BK-α and BK-β1 were normalized to GAPDH protein expression levels. (k-l) The mRNA expression of BK-α and BK-β1 in rat coronary arteries of the C+V, DM+V, C+A and DM+A groups. β-actin was used as an internal control to normalize differences in the amount of total RNA in each rat sample ( n = 4 per group). (m and n) The mRNA expression of BK-α and BK-β1 in human coronary arterial SMCs of the NG, HG, NG+A, HG+A groups. GAPDH was used as an internal control to normalize differences in the amount of total RNA in each cell sample ( n = 4∼5 per group). (o–q) Protein expressions of BK-α and BK-β1 in rat coronary arteries of the C+V, DM+V, C+A and DM+A groups. Quantitative analysis of BK-α and BK-β1 were normalized to GAPDH protein expression levels ( n = 5 per group). (r–t) Protein expressions of BK-α and BK-β1 in human coronary arterial SMCs of the NG, HG, NG+A, HG+A groups. Quantitative analysis of BK-α and BK-β1 were normalized to GAPDH protein expression levels ( n = 5∼9 per group). (C+V: Control + Vehicle; C+A: Control + aminoguanidine; DM+V: DM + Vehicle; DM+A: DM + aminoguanidine. NG: normal glucose; HG: high glucose; NG+A: normal glucose + aminoguanidine; HG+A: high glucose + aminoguanidine).
Primary Human Coronary Artery Smooth Muscle Cells Hcasmcs, supplied by ATCC, 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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human coronary artery smooth muscle cells hcasmcs  (Cell Applications Inc)
94
Cell Applications Inc human coronary artery smooth muscle cells hcasmcs
Effects of inhibition of AGEs <t>on</t> <t>coronary</t> artery tensions and BK channel densities and protein expression (a) Representative tracings for 60 mmol/L KCl and 100 nmol/L IBTX induced vascular tension alterations of coronary arterial rings from C+V, DM+V, C+A and DM+A groups. (b) Graph data showing the vascular tension alterations induced by KCl. (c) Graph data showing the vascular tension alterations (IBTX/KCl). (d and e) Whole-cell potassium currents before and after application of 100 nmol/L IBTX, and the I-V relationship of IBTX-sensitive currents of control and AGEs-cultured freshly isolated rat coronary arterial <t>SMCs</t> ( n = 3∼6 per group). (f) The representative tracings of baseline potassium currents and potassium currents after application of 100 nM IBTX in rat coronary arterial SMCs of the C+V, DM+V, C+A and DM+A groups, respectively ( n = 3∼5 per group). (g) Graph data showing IBTX-sensitive current densities at the testing potential of +100 mV in rat coronary arterial SMCs of the four groups. (h–j) The protein expressions of BK-α and BK-β1 in human coronary arterial SMCs in the BSA and BSA-AGEs groups ( n = 6∼9 per group). Quantitative analysis of BK-α and BK-β1 were normalized to GAPDH protein expression levels. (k-l) The mRNA expression of BK-α and BK-β1 in rat coronary arteries of the C+V, DM+V, C+A and DM+A groups. β-actin was used as an internal control to normalize differences in the amount of total RNA in each rat sample ( n = 4 per group). (m and n) The mRNA expression of BK-α and BK-β1 in human coronary arterial SMCs of the NG, HG, NG+A, HG+A groups. GAPDH was used as an internal control to normalize differences in the amount of total RNA in each cell sample ( n = 4∼5 per group). (o–q) Protein expressions of BK-α and BK-β1 in rat coronary arteries of the C+V, DM+V, C+A and DM+A groups. Quantitative analysis of BK-α and BK-β1 were normalized to GAPDH protein expression levels ( n = 5 per group). (r–t) Protein expressions of BK-α and BK-β1 in human coronary arterial SMCs of the NG, HG, NG+A, HG+A groups. Quantitative analysis of BK-α and BK-β1 were normalized to GAPDH protein expression levels ( n = 5∼9 per group). (C+V: Control + Vehicle; C+A: Control + aminoguanidine; DM+V: DM + Vehicle; DM+A: DM + aminoguanidine. NG: normal glucose; HG: high glucose; NG+A: normal glucose + aminoguanidine; HG+A: high glucose + aminoguanidine).
Human Coronary Artery Smooth Muscle Cells Hcasmcs, supplied by Cell Applications 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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hcasmc hcasmc  (PromoCell)
95
PromoCell hcasmc hcasmc
Effects of inhibition of AGEs <t>on</t> <t>coronary</t> artery tensions and BK channel densities and protein expression (a) Representative tracings for 60 mmol/L KCl and 100 nmol/L IBTX induced vascular tension alterations of coronary arterial rings from C+V, DM+V, C+A and DM+A groups. (b) Graph data showing the vascular tension alterations induced by KCl. (c) Graph data showing the vascular tension alterations (IBTX/KCl). (d and e) Whole-cell potassium currents before and after application of 100 nmol/L IBTX, and the I-V relationship of IBTX-sensitive currents of control and AGEs-cultured freshly isolated rat coronary arterial <t>SMCs</t> ( n = 3∼6 per group). (f) The representative tracings of baseline potassium currents and potassium currents after application of 100 nM IBTX in rat coronary arterial SMCs of the C+V, DM+V, C+A and DM+A groups, respectively ( n = 3∼5 per group). (g) Graph data showing IBTX-sensitive current densities at the testing potential of +100 mV in rat coronary arterial SMCs of the four groups. (h–j) The protein expressions of BK-α and BK-β1 in human coronary arterial SMCs in the BSA and BSA-AGEs groups ( n = 6∼9 per group). Quantitative analysis of BK-α and BK-β1 were normalized to GAPDH protein expression levels. (k-l) The mRNA expression of BK-α and BK-β1 in rat coronary arteries of the C+V, DM+V, C+A and DM+A groups. β-actin was used as an internal control to normalize differences in the amount of total RNA in each rat sample ( n = 4 per group). (m and n) The mRNA expression of BK-α and BK-β1 in human coronary arterial SMCs of the NG, HG, NG+A, HG+A groups. GAPDH was used as an internal control to normalize differences in the amount of total RNA in each cell sample ( n = 4∼5 per group). (o–q) Protein expressions of BK-α and BK-β1 in rat coronary arteries of the C+V, DM+V, C+A and DM+A groups. Quantitative analysis of BK-α and BK-β1 were normalized to GAPDH protein expression levels ( n = 5 per group). (r–t) Protein expressions of BK-α and BK-β1 in human coronary arterial SMCs of the NG, HG, NG+A, HG+A groups. Quantitative analysis of BK-α and BK-β1 were normalized to GAPDH protein expression levels ( n = 5∼9 per group). (C+V: Control + Vehicle; C+A: Control + aminoguanidine; DM+V: DM + Vehicle; DM+A: DM + aminoguanidine. NG: normal glucose; HG: high glucose; NG+A: normal glucose + aminoguanidine; HG+A: high glucose + aminoguanidine).
Hcasmc Hcasmc, supplied by PromoCell, 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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human coronary artery smooth muscle  (Cell Applications Inc)
93
Cell Applications Inc human coronary artery smooth muscle
Effects of inhibition of AGEs <t>on</t> <t>coronary</t> artery tensions and BK channel densities and protein expression (a) Representative tracings for 60 mmol/L KCl and 100 nmol/L IBTX induced vascular tension alterations of coronary arterial rings from C+V, DM+V, C+A and DM+A groups. (b) Graph data showing the vascular tension alterations induced by KCl. (c) Graph data showing the vascular tension alterations (IBTX/KCl). (d and e) Whole-cell potassium currents before and after application of 100 nmol/L IBTX, and the I-V relationship of IBTX-sensitive currents of control and AGEs-cultured freshly isolated rat coronary arterial <t>SMCs</t> ( n = 3∼6 per group). (f) The representative tracings of baseline potassium currents and potassium currents after application of 100 nM IBTX in rat coronary arterial SMCs of the C+V, DM+V, C+A and DM+A groups, respectively ( n = 3∼5 per group). (g) Graph data showing IBTX-sensitive current densities at the testing potential of +100 mV in rat coronary arterial SMCs of the four groups. (h–j) The protein expressions of BK-α and BK-β1 in human coronary arterial SMCs in the BSA and BSA-AGEs groups ( n = 6∼9 per group). Quantitative analysis of BK-α and BK-β1 were normalized to GAPDH protein expression levels. (k-l) The mRNA expression of BK-α and BK-β1 in rat coronary arteries of the C+V, DM+V, C+A and DM+A groups. β-actin was used as an internal control to normalize differences in the amount of total RNA in each rat sample ( n = 4 per group). (m and n) The mRNA expression of BK-α and BK-β1 in human coronary arterial SMCs of the NG, HG, NG+A, HG+A groups. GAPDH was used as an internal control to normalize differences in the amount of total RNA in each cell sample ( n = 4∼5 per group). (o–q) Protein expressions of BK-α and BK-β1 in rat coronary arteries of the C+V, DM+V, C+A and DM+A groups. Quantitative analysis of BK-α and BK-β1 were normalized to GAPDH protein expression levels ( n = 5 per group). (r–t) Protein expressions of BK-α and BK-β1 in human coronary arterial SMCs of the NG, HG, NG+A, HG+A groups. Quantitative analysis of BK-α and BK-β1 were normalized to GAPDH protein expression levels ( n = 5∼9 per group). (C+V: Control + Vehicle; C+A: Control + aminoguanidine; DM+V: DM + Vehicle; DM+A: DM + aminoguanidine. NG: normal glucose; HG: high glucose; NG+A: normal glucose + aminoguanidine; HG+A: high glucose + aminoguanidine).
Human Coronary Artery Smooth Muscle, supplied by Cell Applications 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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human coronary artery smooth muscle cells  (Lonza)
90
Lonza human coronary artery smooth muscle cells
Effects of guanosine on [ 3 H]-thymidine incorporation in <t>human</t> <t>coronary</t> <t>artery</t> vascular <t>smooth</t> <t>muscle</t> <t>cells</t> in the absence and presence of adenosine. Values represent means and SEMs. Two-factor ANOVA indicated a significant interaction between guanosine and adenosine on [ 3 H]-thymidine incorporation ( P < 0.000001). Letter “a” indicates a significant inhibitory response to guanosine at the indicated concentration of adenosine, and “b” indicates that the inhibitory response to guanosine is significantly greater in the presence of adenosine.
Human Coronary Artery Smooth Muscle Cells, supplied by Lonza, 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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human coronary artery smooth muscle cells (hcasmc)  (Lifeline Cell Technology)
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Lifeline Cell Technology human coronary artery smooth muscle cells (hcasmc)
Effects of guanosine on [ 3 H]-thymidine incorporation in <t>human</t> <t>coronary</t> <t>artery</t> vascular <t>smooth</t> <t>muscle</t> <t>cells</t> in the absence and presence of adenosine. Values represent means and SEMs. Two-factor ANOVA indicated a significant interaction between guanosine and adenosine on [ 3 H]-thymidine incorporation ( P < 0.000001). Letter “a” indicates a significant inhibitory response to guanosine at the indicated concentration of adenosine, and “b” indicates that the inhibitory response to guanosine is significantly greater in the presence of adenosine.
Human Coronary Artery Smooth Muscle Cells (Hcasmc), supplied by Lifeline Cell Technology, 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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primary human coronary smooth muscle cells  (CellSystems Biotechnologie Vertrieb GmbH)
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CellSystems Biotechnologie Vertrieb GmbH primary human coronary smooth muscle cells
Effects of guanosine on [ 3 H]-thymidine incorporation in <t>human</t> <t>coronary</t> <t>artery</t> vascular <t>smooth</t> <t>muscle</t> <t>cells</t> in the absence and presence of adenosine. Values represent means and SEMs. Two-factor ANOVA indicated a significant interaction between guanosine and adenosine on [ 3 H]-thymidine incorporation ( P < 0.000001). Letter “a” indicates a significant inhibitory response to guanosine at the indicated concentration of adenosine, and “b” indicates that the inhibitory response to guanosine is significantly greater in the presence of adenosine.
Primary Human Coronary Smooth Muscle Cells, supplied by CellSystems Biotechnologie Vertrieb GmbH, 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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human coronary artery smooth muscle cells  (Cambrex)
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Effects of guanosine on [ 3 H]-thymidine incorporation in <t>human</t> <t>coronary</t> <t>artery</t> vascular <t>smooth</t> <t>muscle</t> <t>cells</t> in the absence and presence of adenosine. Values represent means and SEMs. Two-factor ANOVA indicated a significant interaction between guanosine and adenosine on [ 3 H]-thymidine incorporation ( P < 0.000001). Letter “a” indicates a significant inhibitory response to guanosine at the indicated concentration of adenosine, and “b” indicates that the inhibitory response to guanosine is significantly greater in the presence of adenosine.
Human Coronary Artery Smooth Muscle Cells, supplied by Cambrex, 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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human coronary artery smooth muscle cells  (Genlantis inc)
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Effects of guanosine on [ 3 H]-thymidine incorporation in <t>human</t> <t>coronary</t> <t>artery</t> vascular <t>smooth</t> <t>muscle</t> <t>cells</t> in the absence and presence of adenosine. Values represent means and SEMs. Two-factor ANOVA indicated a significant interaction between guanosine and adenosine on [ 3 H]-thymidine incorporation ( P < 0.000001). Letter “a” indicates a significant inhibitory response to guanosine at the indicated concentration of adenosine, and “b” indicates that the inhibitory response to guanosine is significantly greater in the presence of adenosine.
Human Coronary Artery Smooth Muscle Cells, supplied by Genlantis inc, 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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human coronary artery smooth muscle cells (hcasmc)  (Cellworks)
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Cellworks human coronary artery smooth muscle cells (hcasmc)
Effects of guanosine on [ 3 H]-thymidine incorporation in <t>human</t> <t>coronary</t> <t>artery</t> vascular <t>smooth</t> <t>muscle</t> <t>cells</t> in the absence and presence of adenosine. Values represent means and SEMs. Two-factor ANOVA indicated a significant interaction between guanosine and adenosine on [ 3 H]-thymidine incorporation ( P < 0.000001). Letter “a” indicates a significant inhibitory response to guanosine at the indicated concentration of adenosine, and “b” indicates that the inhibitory response to guanosine is significantly greater in the presence of adenosine.
Human Coronary Artery Smooth Muscle Cells (Hcasmc), supplied by Cellworks, 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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primary human coronary artery vascular smooth muscle cells (hvsmcs)  (Lifeline Cell Technology)
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Lifeline Cell Technology primary human coronary artery vascular smooth muscle cells (hvsmcs)
Effects of guanosine on [ 3 H]-thymidine incorporation in <t>human</t> <t>coronary</t> <t>artery</t> vascular <t>smooth</t> <t>muscle</t> <t>cells</t> in the absence and presence of adenosine. Values represent means and SEMs. Two-factor ANOVA indicated a significant interaction between guanosine and adenosine on [ 3 H]-thymidine incorporation ( P < 0.000001). Letter “a” indicates a significant inhibitory response to guanosine at the indicated concentration of adenosine, and “b” indicates that the inhibitory response to guanosine is significantly greater in the presence of adenosine.
Primary Human Coronary Artery Vascular Smooth Muscle Cells (Hvsmcs), supplied by Lifeline Cell Technology, 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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Effects of inhibition of AGEs on coronary artery tensions and BK channel densities and protein expression (a) Representative tracings for 60 mmol/L KCl and 100 nmol/L IBTX induced vascular tension alterations of coronary arterial rings from C+V, DM+V, C+A and DM+A groups. (b) Graph data showing the vascular tension alterations induced by KCl. (c) Graph data showing the vascular tension alterations (IBTX/KCl). (d and e) Whole-cell potassium currents before and after application of 100 nmol/L IBTX, and the I-V relationship of IBTX-sensitive currents of control and AGEs-cultured freshly isolated rat coronary arterial SMCs ( n = 3∼6 per group). (f) The representative tracings of baseline potassium currents and potassium currents after application of 100 nM IBTX in rat coronary arterial SMCs of the C+V, DM+V, C+A and DM+A groups, respectively ( n = 3∼5 per group). (g) Graph data showing IBTX-sensitive current densities at the testing potential of +100 mV in rat coronary arterial SMCs of the four groups. (h–j) The protein expressions of BK-α and BK-β1 in human coronary arterial SMCs in the BSA and BSA-AGEs groups ( n = 6∼9 per group). Quantitative analysis of BK-α and BK-β1 were normalized to GAPDH protein expression levels. (k-l) The mRNA expression of BK-α and BK-β1 in rat coronary arteries of the C+V, DM+V, C+A and DM+A groups. β-actin was used as an internal control to normalize differences in the amount of total RNA in each rat sample ( n = 4 per group). (m and n) The mRNA expression of BK-α and BK-β1 in human coronary arterial SMCs of the NG, HG, NG+A, HG+A groups. GAPDH was used as an internal control to normalize differences in the amount of total RNA in each cell sample ( n = 4∼5 per group). (o–q) Protein expressions of BK-α and BK-β1 in rat coronary arteries of the C+V, DM+V, C+A and DM+A groups. Quantitative analysis of BK-α and BK-β1 were normalized to GAPDH protein expression levels ( n = 5 per group). (r–t) Protein expressions of BK-α and BK-β1 in human coronary arterial SMCs of the NG, HG, NG+A, HG+A groups. Quantitative analysis of BK-α and BK-β1 were normalized to GAPDH protein expression levels ( n = 5∼9 per group). (C+V: Control + Vehicle; C+A: Control + aminoguanidine; DM+V: DM + Vehicle; DM+A: DM + aminoguanidine. NG: normal glucose; HG: high glucose; NG+A: normal glucose + aminoguanidine; HG+A: high glucose + aminoguanidine).

Journal: Diabetes & Vascular Disease Research

Article Title: Advanced glycation end products impair coronary artery BK channels via AMPK/Akt/FBXO32 signaling pathway

doi: 10.1177/14791641231197107

Figure Lengend Snippet: Effects of inhibition of AGEs on coronary artery tensions and BK channel densities and protein expression (a) Representative tracings for 60 mmol/L KCl and 100 nmol/L IBTX induced vascular tension alterations of coronary arterial rings from C+V, DM+V, C+A and DM+A groups. (b) Graph data showing the vascular tension alterations induced by KCl. (c) Graph data showing the vascular tension alterations (IBTX/KCl). (d and e) Whole-cell potassium currents before and after application of 100 nmol/L IBTX, and the I-V relationship of IBTX-sensitive currents of control and AGEs-cultured freshly isolated rat coronary arterial SMCs ( n = 3∼6 per group). (f) The representative tracings of baseline potassium currents and potassium currents after application of 100 nM IBTX in rat coronary arterial SMCs of the C+V, DM+V, C+A and DM+A groups, respectively ( n = 3∼5 per group). (g) Graph data showing IBTX-sensitive current densities at the testing potential of +100 mV in rat coronary arterial SMCs of the four groups. (h–j) The protein expressions of BK-α and BK-β1 in human coronary arterial SMCs in the BSA and BSA-AGEs groups ( n = 6∼9 per group). Quantitative analysis of BK-α and BK-β1 were normalized to GAPDH protein expression levels. (k-l) The mRNA expression of BK-α and BK-β1 in rat coronary arteries of the C+V, DM+V, C+A and DM+A groups. β-actin was used as an internal control to normalize differences in the amount of total RNA in each rat sample ( n = 4 per group). (m and n) The mRNA expression of BK-α and BK-β1 in human coronary arterial SMCs of the NG, HG, NG+A, HG+A groups. GAPDH was used as an internal control to normalize differences in the amount of total RNA in each cell sample ( n = 4∼5 per group). (o–q) Protein expressions of BK-α and BK-β1 in rat coronary arteries of the C+V, DM+V, C+A and DM+A groups. Quantitative analysis of BK-α and BK-β1 were normalized to GAPDH protein expression levels ( n = 5 per group). (r–t) Protein expressions of BK-α and BK-β1 in human coronary arterial SMCs of the NG, HG, NG+A, HG+A groups. Quantitative analysis of BK-α and BK-β1 were normalized to GAPDH protein expression levels ( n = 5∼9 per group). (C+V: Control + Vehicle; C+A: Control + aminoguanidine; DM+V: DM + Vehicle; DM+A: DM + aminoguanidine. NG: normal glucose; HG: high glucose; NG+A: normal glucose + aminoguanidine; HG+A: high glucose + aminoguanidine).

Article Snippet: Human coronary arterial SMCs (ATCC, #PCS-100-021) and the culture medium (ATCC, #PCS-100-042 and #PCS-100-030) were purchased from ATCC.

Techniques: Inhibition, Expressing, Control, Cell Culture, Isolation

Regulation of Akt in AGEs-mediated FBXO32-induced BK-β1 degradation (a and b) Protein expression of FBXO32 in rat coronary arteries of four groups ( n = 5 per group). (c and d) Protein expression of FBXO32 in human coronary arterial SMCs of four cell groups. Quantitative analysis of FBXO32 was normalized to GAPDH protein expression levels. (e–g) Phosphorylation levels of Akt and total Akt in rat coronary arteries of four groups ( n = 8 per group). (h–j) Phosphorylation levels of Akt and total Akt in human coronary arterial SMCs of four groups ( n = 3 per group). The phosphorylation level of Akt (k and n) and the protein expressions of FBXO32 (l and o) and BK-β1 (m and p) were measured after human coronary arterial SMCs were incubated for 96 h in DMEM containing 25.5 mmol/L glucose, or 25.5 mmol/L glucose with aminoguanidine in the absence or presence of MK2206 (0.3 μM) ( n = 5∼10 per group). MK2206 was added at the beginning and remained for 6 h (C+V: Control + Vehicle; C+A: Control + aminoguanidine; DM+V: DM + Vehicle; DM+A: DM + aminoguanidine. NG: normal glucose; HG: high glucose; NG+A: normal glucose + aminoguanidine; HG+A: high glucose + aminoguanidine.)

Journal: Diabetes & Vascular Disease Research

Article Title: Advanced glycation end products impair coronary artery BK channels via AMPK/Akt/FBXO32 signaling pathway

doi: 10.1177/14791641231197107

Figure Lengend Snippet: Regulation of Akt in AGEs-mediated FBXO32-induced BK-β1 degradation (a and b) Protein expression of FBXO32 in rat coronary arteries of four groups ( n = 5 per group). (c and d) Protein expression of FBXO32 in human coronary arterial SMCs of four cell groups. Quantitative analysis of FBXO32 was normalized to GAPDH protein expression levels. (e–g) Phosphorylation levels of Akt and total Akt in rat coronary arteries of four groups ( n = 8 per group). (h–j) Phosphorylation levels of Akt and total Akt in human coronary arterial SMCs of four groups ( n = 3 per group). The phosphorylation level of Akt (k and n) and the protein expressions of FBXO32 (l and o) and BK-β1 (m and p) were measured after human coronary arterial SMCs were incubated for 96 h in DMEM containing 25.5 mmol/L glucose, or 25.5 mmol/L glucose with aminoguanidine in the absence or presence of MK2206 (0.3 μM) ( n = 5∼10 per group). MK2206 was added at the beginning and remained for 6 h (C+V: Control + Vehicle; C+A: Control + aminoguanidine; DM+V: DM + Vehicle; DM+A: DM + aminoguanidine. NG: normal glucose; HG: high glucose; NG+A: normal glucose + aminoguanidine; HG+A: high glucose + aminoguanidine.)

Article Snippet: Human coronary arterial SMCs (ATCC, #PCS-100-021) and the culture medium (ATCC, #PCS-100-042 and #PCS-100-030) were purchased from ATCC.

Techniques: Expressing, Phospho-proteomics, Incubation, Control

Regulation of AMPK in Akt-mediated FBXO32-induced BK-β1 degradation by AGEs (a–c) Protein expression of p-AMPK and AMPK in rat coronary arteries from the four groups ( n = 8 per group). (d–f) Protein expression of p-AMPK and AMPK in human coronary arterial SMCs from the four groups ( n = 9 per group). Quantitative analysis of p-AMPK and AMPK was normalized to GAPDH protein expression levels. (g) Human coronary arterial SMCs were incubated for 96 h in DMEM containing 25.5 mmol/L glucose, or 25.5 mmol/L glucose and aminoguanidine in the absence or presence of Compound C (CC, 1 μM). Subsequently, the phosphorylation level of AMPK (h and i), AKT (j and k), and the protein expressions of FBXO32 (l) and BK-β1 (m) were measured ( n = 8 and 9 per group). Quantitative analysis of FBXO32 and BK-β1 was normalized to GAPDH protein expression levels.

Journal: Diabetes & Vascular Disease Research

Article Title: Advanced glycation end products impair coronary artery BK channels via AMPK/Akt/FBXO32 signaling pathway

doi: 10.1177/14791641231197107

Figure Lengend Snippet: Regulation of AMPK in Akt-mediated FBXO32-induced BK-β1 degradation by AGEs (a–c) Protein expression of p-AMPK and AMPK in rat coronary arteries from the four groups ( n = 8 per group). (d–f) Protein expression of p-AMPK and AMPK in human coronary arterial SMCs from the four groups ( n = 9 per group). Quantitative analysis of p-AMPK and AMPK was normalized to GAPDH protein expression levels. (g) Human coronary arterial SMCs were incubated for 96 h in DMEM containing 25.5 mmol/L glucose, or 25.5 mmol/L glucose and aminoguanidine in the absence or presence of Compound C (CC, 1 μM). Subsequently, the phosphorylation level of AMPK (h and i), AKT (j and k), and the protein expressions of FBXO32 (l) and BK-β1 (m) were measured ( n = 8 and 9 per group). Quantitative analysis of FBXO32 and BK-β1 was normalized to GAPDH protein expression levels.

Article Snippet: Human coronary arterial SMCs (ATCC, #PCS-100-021) and the culture medium (ATCC, #PCS-100-042 and #PCS-100-030) were purchased from ATCC.

Techniques: Expressing, Incubation, Phospho-proteomics

Effects of guanosine on [ 3 H]-thymidine incorporation in human coronary artery vascular smooth muscle cells in the absence and presence of adenosine. Values represent means and SEMs. Two-factor ANOVA indicated a significant interaction between guanosine and adenosine on [ 3 H]-thymidine incorporation ( P < 0.000001). Letter “a” indicates a significant inhibitory response to guanosine at the indicated concentration of adenosine, and “b” indicates that the inhibitory response to guanosine is significantly greater in the presence of adenosine.

Journal: Physiological Reports

Article Title: Regulation of cell proliferation by the guanosine–adenosine mechanism: role of adenosine receptors

doi: 10.1002/phy2.24

Figure Lengend Snippet: Effects of guanosine on [ 3 H]-thymidine incorporation in human coronary artery vascular smooth muscle cells in the absence and presence of adenosine. Values represent means and SEMs. Two-factor ANOVA indicated a significant interaction between guanosine and adenosine on [ 3 H]-thymidine incorporation ( P < 0.000001). Letter “a” indicates a significant inhibitory response to guanosine at the indicated concentration of adenosine, and “b” indicates that the inhibitory response to guanosine is significantly greater in the presence of adenosine.

Article Snippet: Human coronary artery smooth muscle cells were obtained from Lonza Inc. (Allendale, NJ).

Techniques: Concentration Assay

Effects of adenosine on [ 3 H]-thymidine incorporation in human coronary artery vascular smooth muscle cells in the absence (left panel) and presence (right panel) of guanosine, both without (no DPSPX; top graph) and with (pretreated with DPSPX; bottom graph) 1,3-dipropyl-8-( p -sulfophenyl)xanthine (DPSPX; 100 μmol/L; adenosine receptor antagonist). Values represent means and SEMs. Two-factor ANOVA indicated a significant interaction between guanosine and adenosine on [ 3 H]-thymidine incorporation in the “no DPSPX” group ( P < 0.000001) but not in the “pretreated with DPSPX” group. Letter “a” indicates significantly different from corresponding group without adenosine, and “b” indicates significantly different from corresponding “no guanosine” group.

Journal: Physiological Reports

Article Title: Regulation of cell proliferation by the guanosine–adenosine mechanism: role of adenosine receptors

doi: 10.1002/phy2.24

Figure Lengend Snippet: Effects of adenosine on [ 3 H]-thymidine incorporation in human coronary artery vascular smooth muscle cells in the absence (left panel) and presence (right panel) of guanosine, both without (no DPSPX; top graph) and with (pretreated with DPSPX; bottom graph) 1,3-dipropyl-8-( p -sulfophenyl)xanthine (DPSPX; 100 μmol/L; adenosine receptor antagonist). Values represent means and SEMs. Two-factor ANOVA indicated a significant interaction between guanosine and adenosine on [ 3 H]-thymidine incorporation in the “no DPSPX” group ( P < 0.000001) but not in the “pretreated with DPSPX” group. Letter “a” indicates significantly different from corresponding group without adenosine, and “b” indicates significantly different from corresponding “no guanosine” group.

Article Snippet: Human coronary artery smooth muscle cells were obtained from Lonza Inc. (Allendale, NJ).

Techniques: