1.Involvement of NAD (P) H Oxidase in a Potential Link between Diabetes and Vascular Smooth Muscle Cell Proliferation.
Hye Young JEONG ; Mi Ran YUN ; Chi Dae KIM
The Korean Journal of Physiology and Pharmacology 2003;7(2):103-110
The cellular mechanisms that contribute to the acceleration of atherosclerosis in diabetes are poorly understood. Therefore, the potential mechanisms involved in the diabetes-dependent increase in vascular smooth muscle cell (VSMC) proliferation was investigated. Using primary culture of VSMC from streptozotocin-induced diabetic rat aorta, cell proliferation assay showed two-fold increase in cell number accompanied with enhanced superoxide generation compared to normal VSMC, 2 days after plating. Both the increased superoxide production and cell proliferation in diabetic VSMC were significantly attenuated by not only tiron (1 mM), a superoxide scavenger, but also by diphenyleneiodonium (DPI; 10micrometer), an NAD (P) H oxidase inhibitor. NAD (P) H oxidase activity in diabetic VSMC was significantly higher than that in control cell, accompanied with increased mRNA expression of p22phox, a membrane subunit of oxidase. Furthermore, inhibition of p22phox expression by transfection of antisense p22phox oligonucleotides into diabetic VSMC resulted in a decrease in superoxide production, which was accompanied by a significant inhibition of cell proliferation. Based on these results, it is suggested that diabetes-associated increase in NAD (P) H oxidase activity via enhanced expression of p22phox contributes to augmented VSMC proliferation in diabetic rats.
1,2-Dihydroxybenzene-3,5-Disulfonic Acid Disodium Salt
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Acceleration
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Animals
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Aorta
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Atherosclerosis
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Cell Count
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Cell Proliferation*
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Membranes
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Muscle, Smooth, Vascular*
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NAD*
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Oligonucleotides
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Oxidoreductases*
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Rats
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RNA, Messenger
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Superoxides
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Transfection
2.Indigo carmine enhances phenylephrine-induced contractions in an isolated rat aorta.
Yun Suk CHOI ; Seong Ho OK ; Seung Min LEE ; Sang Seung PARK ; Yu Mi HA ; Ki Churl CHANG ; Hye Jung KIM ; Il Woo SHIN ; Ju Tae SOHN
Korean Journal of Anesthesiology 2011;61(1):55-62
BACKGROUND: The intravenous administration of indigo carmine has been reported to produce transiently increased blood pressure in patients. The goal of this in vitro study was to examine the effect of indigo carmine on phenylephrine-induced contractions in an isolated rat aorta and to determine the associated cellular mechanism with particular focus on the endothelium-derived vasodilators. METHODS: The concentration-response curves for phenylephrine were generated in the presence or absence of indigo carmine. Phenylephrine concentration-response curves were generated for the endothelium-intact rings pretreated independently with a nitric oxide synthase inhibitor, Nomega-nitro-L-arginine methyl ester (L-NAME), a cyclooxygenase inhibitor, indomethacin, and a low-molecular-weight superoxide anion scavenger, tiron, in the presence or absence of indigo carmine. The fluorescence of oxidized dichlorofluorescein was measured in rat aortic vascular smooth muscle cells cultured in the control, indigo carmine alone and tiron plus indigo carmine. RESULTS: Indigo carmine (10(-5) M) increased the phenylephrine-induced maximum contraction in the endothelium-intact rings with or without indomethacin, whereas indigo carmine produced a slight leftward shift in the phenylephrine concentration-response curves in the endothelium-denuded rings and L-NAME-pretreated endothelium-intact rings. In the endothelium-intact rings pretreated with tiron (10(-2) M), indigo carmine did not alter phenylephrine concentration-response curves significantly. Indigo carmine (10(-5) M) increased the fluorescence of oxidized dichlorofluorescein in the vascular smooth muscle cells, whereas tiron abolished the indigo carmine-induced increase in oxidized dichlorofluorescein fluorescence. CONCLUSIONS: Indigo carmine increases the phenylephrine-induced contraction mainly through an endothelium-dependent mechanism involving the inactivation of nitric oxide caused by the increased production of reactive oxygen species.
1,2-Dihydroxybenzene-3,5-Disulfonic Acid Disodium Salt
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Administration, Intravenous
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Animals
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Aorta
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Blood Pressure
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Contracts
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Fluorescence
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Humans
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Indigo Carmine
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Indoles
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Indomethacin
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Muscle, Smooth, Vascular
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Nitric Oxide
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Nitric Oxide Synthase
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Phenylephrine
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Prostaglandin-Endoperoxide Synthases
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Rats
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Reactive Oxygen Species
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Superoxides
3.Biphasic augmentation of alpha-adrenergic contraction by plumbagin in rat systemic arteries.
Hae Jin KIM ; Hae Young YOO ; Yin Hua ZHANG ; Woo Kyung KIM ; Sung Joon KIM
The Korean Journal of Physiology and Pharmacology 2017;21(6):687-694
Plumbagin, a hydroxy 1,4-naphthoquinone compound from plant metabolites, exhibits anticancer, antibacterial, and antifungal activities via modulating various signaling molecules. However, its effects on vascular functions are rarely studied except in pulmonary and coronary arteries where NADPH oxidase (NOX) inhibition was suggested as a mechanism. Here we investigate the effects of plumbagin on the contractility of skeletal artery (deep femoral artery, DFA), mesenteric artery (MA) and renal artery (RA) in rats. Although plumbagin alone had no effect on the isometric tone of DFA, 1 µM phenylephrine (PhE)-induced partial contraction was largely augmented by plumbagin (ΔT(Plum), 125% of 80 mM KCl-induced contraction at 1 µM). With relatively higher concentrations (>5 µM), plumbagin induced a transient contraction followed by tonic relaxation of DFA. Similar biphasic augmentation of the PhE-induced contraction was observed in MA and RA. VAS2870 and GKT137831, specific NOX4 inhibitors, neither mimicked nor inhibited ΔT(Plum) in DFA. Also, pretreatment with tiron or catalase did not affect ΔT(Plum) of DFA. Under the inhibition of PhE-contraction with L-type Ca²⁺ channel blocker (nifedipine, 1 µM), plumbagin still induced tonic contraction, suggesting Ca²⁺-sensitization mechanism of smooth muscle. Although ΔT(Plum) was consistently observed under pretreatment with Rho A-kinase inhibitor (Y27632, 1 µM), a PKC inhibitor (GF 109203X, 10 µM) largely suppressed ΔT(Plum). Taken together, it is suggested that plumbagin facilitates the PKC activation in the presence of vasoactive agonists in skeletal arteries. The biphasic contractile effects on the systemic arteries should be considered in the pharmacological studies of plumbagin and 1,4-naphthoquinones.
1,2-Dihydroxybenzene-3,5-Disulfonic Acid Disodium Salt
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Animals
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Arteries*
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Catalase
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Coronary Vessels
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Femoral Artery
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Mesenteric Arteries
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Muscle, Smooth
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NADPH Oxidase
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Phenylephrine
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Plants
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Protein Kinase C
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Rats*
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Relaxation
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Renal Artery
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Vasoconstrictor Agents
4.Mechanisms of ROS in U266 cell death induced by FTY720.
Ying-Chun LI ; Zhuo-Gang LIU ; Kun YAO ; Hui-Han WANG ; Rong HU ; Wei YANG ; Ai-Jun LIAO
Journal of Experimental Hematology 2013;21(3):643-646
This study was purpose to investigate the role of reactive oxygen species (ROS) in apoptosis and autophagy induced by FTY720 in multiple myeloma cell line U266. U266 cells were treated by different concentrations of FTY720 for 24 h, the apoptotic rates were detected by flow cytometry, and the expression of LC3B was detected by Western blot. The results indicated that apoptosis and autophagy were induced by FTY720 in U266 cells. Autophagy induced by FTY720 could lead to cell death. Bafilomycin A1, the inhibitor of autophagy, could enhance the cell viability in U266 cells treated with FTY720. NAC or Tiron, ROS scavenger, could decrease the FTY720 induced apoptosis and the expression of LC3B-II was reduced in combination of FTY720 with NAC or Tiron as compared with treatment with FTY720 only. It is concluded that FTY720 can induce U266 cell apoptosis and autophagy. ROS is the mediator that regulates both the apoptosis and autophagy in multiple myeloma cells.
1,2-Dihydroxybenzene-3,5-Disulfonic Acid Disodium Salt
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Apoptosis
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drug effects
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Autophagy
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drug effects
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Cell Line, Tumor
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Fingolimod Hydrochloride
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Humans
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Macrolides
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Microtubule-Associated Proteins
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metabolism
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Multiple Myeloma
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metabolism
;
pathology
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Propylene Glycols
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pharmacology
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Reactive Oxygen Species
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metabolism
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Sphingosine
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analogs & derivatives
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pharmacology