Di Zhao 1 , Na-Sui Wang 2 , Fu Chen 2 , Zheng-Bing Li 2 , Xi-Tao Li 2 , Xu-Xin Zhu 2 Show Affiliations »
Abstract
BACKGROUND: miR-34a is a multifunctional post-translational modulator, which is involved in several diabetes-related complications. However, miR-34a remains to be fully elucidated in the diabetic endothelium from rats. In this study, the role of miR-34a/NOTCH1 signaling in the progression of hyperglycemia-vascular endothelial dysfunction was investigated. METHODS: In intravenous injection of miR-34a mimics and inhibitors in streptozotocin (STZ)-induced diabetic rats, the biomarkers of endothelial dysfunction was measured. The targeted genes were predicted by a bioinformatics algorithm and confirmed by a dual luciferase reporter assay. The mRNA and protein levels were assayed by qRT-PCR and western blotting, respectively. Immunohistochemical staining was performed to measure NOTCH1 expression in the diabetic endothelium. RESULTS: miR-34a was significantly up-regulated, and NOTCH1 down-regulated, in the thoracic aorta from STZ-induced diabetic rats compared with control group. As compared to model group, the mRNA of NOTCH1 was significantly decreased or increased by miR-34a mimics or inhibitors ex vivo, respectively. Bioinformatics methods further demonstrated that NOTCH1 was a potential target of miR-34a, which was confirmed by dual-luciferase reporter assay. Moreover, both serum ET and NO were significantly increased in diabetic rats as compared to control group. miR-34a inhibitors ex vivo treatment resulted in significant down-regulation ofserum ET and NO levels in diabetic rats as compared to model group. CONCLUSION: These results provide evidence to support the use of miR-34a inhibitors as a therapeutic approach attenuating hyperglycemia-induced vascular endothelial dysfunction. © Georg Thieme Verlag KG Stuttgart · New York.
BACKGROUND: miR-34a is a multifunctional post-translational modulator, which is involved in several diabetes -related complications. However, miR-34a remains to be fully elucidated in the diabetic endothelium from rats . In this study, the role of miR-34a /NOTCH1 signaling in the progression of hyperglycemia-vascular endothelial dysfunction was investigated. METHODS: In intravenous injection of miR-34a mimics and inhibitors in streptozotocin (STZ )-induced diabetic rats , the biomarkers of endothelial dysfunction was measured. The targeted genes were predicted by a bioinformatics algorithm and confirmed by a dual luciferase reporter assay. The mRNA and protein levels were assayed by qRT-PCR and western blotting, respectively. Immunohistochemical staining was performed to measure NOTCH1 expression in the diabetic endothelium. RESULTS: miR-34a was significantly up-regulated, and NOTCH1 down-regulated, in the thoracic aorta from STZ -induced diabetic rats compared with control group. As compared to model group, the mRNA of NOTCH1 was significantly decreased or increased by miR-34a mimics or inhibitors ex vivo, respectively. Bioinformatics methods further demonstrated that NOTCH1 was a potential target of miR-34a , which was confirmed by dual-luciferase reporter assay. Moreover, both serum ET and NO were significantly increased in diabetic rats as compared to control group. miR-34a inhibitors ex vivo treatment resulted in significant down-regulation ofserum ET and NO levels in diabetic rats as compared to model group. CONCLUSION: These results provide evidence to support the use of miR-34a inhibitors as a therapeutic approach attenuating hyperglycemia-induced vascular endothelial dysfunction . © Georg Thieme Verlag KG Stuttgart · New York.
Entities: Chemical
Disease
Gene
Species
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Year: 2018
PMID: 29529692 DOI: 10.1055/s-0043-125324
Source DB: PubMed Journal: Exp Clin Endocrinol Diabetes ISSN: 0947-7349 Impact factor: 2.949