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Review
- Effects of AMP-activated Protein Kinase Activating Compounds and Its Mechanism.
- Hyoung Chul Choi
- Yeungnam Univ J Med. 2012;29(2):77-82. Published online December 31, 2012
- DOI: https://doi.org/10.12701/yujm.2012.29.2.77
- 1,889 View
- 6 Download
- 2 Crossref
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Abstract
PDF - AMP-activated protein kinase (AMPK) is an important cellular fuel sensor. Its activation requires phosphorylation at Thr-172, which resides in the activation loop of the alpha1 and alpha2 subunits. Several AMPK upstream kinases are capable of phosphorylating AMPK at Thr-172, including LKB1 and CaMKKbeta (Ca2+/calmodulin-dependent protein kinase kinasebeta). AMPK has been implicated in the regulation of physiological signals, such as in the inhibition of cholesterol fatty acid, and protein synthesis, and enhancement of glucose uptake and blood flow. AMPK activation also exhibits several salutary effects on the vascular function and improves vascular abnormalities. AMPK is modulated by numerous hormones and cytokines that regulate the energy balance in the whole body. These hormone and cytokines include leptin, adiponectin, ghrelin, and even thyroid hormones. Moreover, AMPK is activated by several drugs and xenobiotics. Some of these are in being clinically used to treat type 2 diabetes (e.g., metformin and thiazolidinediones), hypertension (e.g., nifedipine and losartan), and impaired blood flow (e.g., aspirin, statins, and cilostazol). I reviewed the precise mechanisms of the AMPK activation pathway and AMPK-modulating drugs.
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Citations
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- Enhanced Anti-Inflammatory and Non-Alcoholic Fatty Liver Disease (NAFLD) Improvement Effects of Bacillus subtilis-Fermented Fagopyrum tataricum Gaertner
Chan-Hwi Park, Hyun Kang, Sung-Gyu Lee
Fermentation.2024; 10(3): 116. CrossRef - The Effect of Chaenomelis Fructus Extract on Thioacetamide-Induced Liver Fibrosis
Jin A Lee, Se Hui Lee, Mi-Rae Shin, Jeong Sook Noh, Seong-Soo Roh
Journal of the Korean Society of Food Science and Nutrition.2021; 50(8): 757. CrossRef
- Enhanced Anti-Inflammatory and Non-Alcoholic Fatty Liver Disease (NAFLD) Improvement Effects of Bacillus subtilis-Fermented Fagopyrum tataricum Gaertner
Original Article
- Effects of Cyclooxygenase Inhibitors on Vascular Reactivity and Alterations of Cyclooxygenase Expression.
- Ki Young Lee, Jin Woo Park, Eun A Eum, Young Jin Kang, Kwang Youn Lee, Hyoung Chul Choi
- Yeungnam Univ J Med. 2006;23(1):36-44. Published online June 30, 2006
- DOI: https://doi.org/10.12701/yujm.2006.23.1.36
- 1,639 View
- 3 Download
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Abstract
PDF
- BACKGROUND
There is controversy regarding whether COX-2 specific inhibitors are associated with elevation of blood pressure. We compared the effects of aspirin, indomethacin, and celecoxib for vascular reactivity induced by phenylephrine. We also tested the effects of indomethacin and NO donor on COX-1 and COX-2 protein expression, as well as nitrite production in culture medium of vascular smooth muscle cells. MATERILAS AND METHODS: In this experiment, we used the isometric tension study for vascular reactivity. After 45 minutes of pretreatment with aspirin, indomethacin, celecoxib, and phenylephrine induced contractions were tested. COX-1 and COX-2 protein expressions were analyzed by Western blot and nitrite production by the Griess reaction. RESULTS: Although celecoxib pretreatment caused enhanced arterial contraction, aspirin pretreatment induced more potent arterial contraction than celecoxib in the isometric tension study of rabbit femoral artery. COX-1 protein expression was unchanged by indomethacin, SNP and NOR-3; COX-2 protein expression was increased by the addition of indomethacin, SNP, and NOR-3. Especially, NOR-3, a NO donor, significantly increased COX-2 protein expression with unstimulated conditions as well as LPS stimulation. Induction of nitrite production was higher with NOR-3 treatment than SNP treatment with LPS stimulation. CONCLUSION: These results suggest that aspirin caused more potent vascular contraction than celecoxib and indomethacin. COX-2 expression in VSMC depended on the types of NO donor and LPS stimulation.
Review
- Antithrombotic Therapy for Ischemic Stroke.
- Jung Sang Hah, Jun Lee
- Yeungnam Univ J Med. 2003;20(1):1-12. Published online June 30, 2003
- DOI: https://doi.org/10.12701/yujm.2003.20.1.1
- 1,506 View
- 0 Download
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Abstract
PDF
- Ischemic stroke is among the principal causes of death and disability in the elderly. Although control of blood pressure, decreased cigarette smoking, and modified dietary habits are among important reasons for stroke decline, the use of antithrombotic therapy, rigorously prescribed. Several antiplatelet agents are approved to reduce the risk of recurrent stroke. Aspirin is the best-studied and most widely used antiplatelet agent for stroke prevention; it provides approximately 15% to 25% relatively risk reduction for secondary prevention of stroke or the major vascular death. Combining 2 antiplatelet agents with different mechanism of action was demonstrated to provide a substantial increase in efficacy in several studies. Anticoagulation should be considered first with potential cardiac sources of embolism. Heparin reduces development of erythrocyte-fibrin thrombi that form in regions of vascular stasis especially within the heart, in severely stenosed arteries sometimes engrafted on white thrombi, in acute arterial occlusion. Heparin should not be indiscriminately given to all acute brain ischemia patients, but may contribute to treatment of large artery occlusion and severe stenosis, cardiogenic embolism with a high acute recurrence risk, and dural sinus and cerebral venous thromobosis.
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