1.1, 25-Dihydroxyvitamin D3 increases in vitro vascular calcification through calcified blood vessel cells.
Yu-Mei WANG ; Shi-Wen WANG ; Wan-Ren TONG
Chinese Journal of Applied Physiology 2002;18(2):162-165
AIMAccumulated evidence suggest that the development of vascular calcification is similar to osteogenesis. Here we want to elucidate the effect of the common used osteo-regulatory factor 1,25(OH)2D3 on vascular calcification.
METHODS AND RESULTSAdding 10(-9) mol/L to the culture media 1,25(OH)2D3 time dependently increased the calcium deposition on the in vitro calcification of bovine vascular smooth muscle cells (BVSMCs) induced by beta-GP. It also increased cellular alkaline phosphatase activity by 301.1% during the calcified process. Osteocalcin, one of the osteogenic specific metric proteins, was dramatically elevated by 58.3% during the calcified processes, which indicate the transformation of BVSMCs to osteoblastic cell. 1,25(OH)2D3 had no such effect on non-calcified BVSMCs.
CONCLUSIONThese data suggest that 1,25(OH)2D3 exerts a stimulatory effect on vascular calcification through increasing the synthesis of ALP. This effect shares the same character as osteoblast cells. This effect is limited to the calcified prone vascular cell.
Animals ; Calcitriol ; metabolism ; Cattle ; Cells, Cultured ; Muscle, Smooth, Vascular ; cytology ; Myocytes, Smooth Muscle ; drug effects ; metabolism ; pathology ; Osteocalcin ; metabolism ; Vascular Calcification ; metabolism ; pathology ; Vitamin D ; analogs & derivatives ; pharmacology
2.Effect of tetramethylpyrazine on the proliferation and collagen synthesis of vascular smooth muscle cells.
Jun-Yi HUA ; Yu-Zhou HE ; Xu-Hong JIANG ; Wu YE ; Mei-Ya YANG
Chinese Journal of Integrated Traditional and Western Medicine 2013;33(9):1226-1231
OBJECTIVETo study the action mechanism of tetramethylpyrazine (TMP) on the proliferation of vascular smooth muscle cells (VSMCs), thus providing experimental evidence for Chinese medicine to effectively prevent restenosis.
METHODSRats' thoracic aorta VSMCs in vitro cultured (cell line A7r5) were divided into five groups, i.e., the negative control group, the angiotensin II (Ang II, 10(-6) mol/L) group, the low dose TMP (20 micromol/L) plus Ang II group, the middle dose TMP (40 micromol/L) plus Ang II group, the high dose TMP (80 micromol/L) plus Ang II group. The proliferation ratio was detected by MTT. Gene and protein expressions of Wnt4, Dvl-1, beta-catenin, CyclinD1, and collagen I and III were detected with real-time fluorescent quantitative PCR and Western blot respectively.
RESULTSCompared with the negative control group, the proliferation ratio of VSMCs obviously increased in the Ang II group (P < 0.05). Compared with the Ang II group, the proliferation ratio of VSMCs obviously decreased in the middle dose TMP plus Ang II group and the high dose TMP plus Ang II group (P < 0.05). Compared with the negative control group, gene and protein expressions of Wnt4, Dvl-1, beta-catenin, CyclinD1, Col I, and Col III were obviously up-regulated in the Ang II group (P < 0.05). Compared with the Ang II group, mRNA and protein expressions of Wnt4, Dvl-1, beta-catenin, CyclinD1, Col I, and Col III were obviously down-regulated in the middle dose TMP plus Ang II group and the high dose TMP plus Ang II group (P < 0.05). The aforesaid indices were dose-dependent in the low, middle, and high dose TMP plus Ang II groups.
CONCLUSIONTMP inhibited Ang II induced proliferation and collagen secretion of VSMCs through down-regulating Wnt signal pathway.
Animals ; Cell Proliferation ; drug effects ; Cells, Cultured ; Collagen ; biosynthesis ; Muscle, Smooth, Vascular ; cytology ; Myocytes, Smooth Muscle ; cytology ; drug effects ; metabolism ; Pyrazines ; pharmacology ; RNA, Messenger ; genetics ; Rats
4.Testosterone at physiological level inhibits PGF2alpha-induced increase in intracellular Ca2+ in cultured vascular smooth muscle cells.
Rui MA ; Shi-Sen JIANG ; Xun-Min CHENG ; Jian-Bin GONG ; Qi-Gao ZHANG ; Qi-Shui LIN
National Journal of Andrology 2009;15(4):326-330
OBJECTIVETo explore the acute effects of testosterone at the physiological level on PGF2alpha-induced increase in intracellular Ca2+ in cultured vascular smooth muscle cells (VSMCs).
METHODSVSMCs from the thoracic aorta of male Sprague-Dawley rats were cultured using the explant method. The subconfluent VSMCs were incubated with serum-free medium for 24 hours to obtain quiescent non-dividing cells and then treated with the indicated agents. For the measurement of [Ca2+]i, the VSMCs were loaded with fura-2. Changes of [Ca2+]i were determined ratiometrically with a Nikon TE-2000E system.
RESULTSThe resting level of [Ca2+]i was around 100 nmol/L in the VSMCs. Exposing cells to perfusate containing 10 micromol/L PGF2alpha triggered an immediate and transient peak in [Ca2+]i, which gradually decreased afterwards. Interference at the peak with the physiological concentration (40 nmol/L) of testosterone significantly decreased the peak-to-baseline time of [Ca2+]i, compared with ethanol vehicle (104.9 +/- 27.0 s vs 153.5 +/- 40.4 s, P < 0.01). Pretreatment with testosterone at 40 nmol/L for 2 minutes also reduced the peak-to-baseline time of [Ca2+]i significantly in comparison with the ethanol control (120.6 +/- 32.0 s vs 151.4 +/- 27.4 s, P < 0.01), but it had no significant effect on the peak level of PGF2alpha-induced intracellular Ca2+ (390.0 +/- 126.0 nmol/L vs 403.4 +/- 160.7 nmol/L, P > 0.05).
CONCLUSIONTestosterone at physiological concentration inhibits PGF2alpha-induced Ca2+ fluxes, probably via receptor-operated calcium channels by a non-genomic mechanism in VSMCs, which may be involved in the vasodilatory effect of testosterone.
Animals ; Calcium ; metabolism ; Cells, Cultured ; Dinoprost ; pharmacology ; Male ; Muscle, Smooth, Vascular ; cytology ; drug effects ; Myocytes, Smooth Muscle ; metabolism ; Rats ; Rats, Sprague-Dawley ; Testosterone ; metabolism ; physiology
5.Effects of 17β-estrogen on expressions of C-reactive protein and its mRNA of vascular smooth muscle cells in rats.
Li XU ; Xinwu ZHANG ; Xiaoming PANG ; Lin CHEN ; Kaige LIU ; Yajun LI
Journal of Zhejiang University. Medical sciences 2013;42(1):86-91
OBJECTIVETo investigate the effects of 17β-estrogen on expressions of C-reactive protein (CRP) and its mRNA in vascular smooth muscle cells(VSMCs).
METHODSImmunocytochemistry was used to detect CRP level in normal VSMCs. The expressions of C-reactive protein and p-ERK1/2 in Ang-II-stimulated VSMCs were evaluated with Western blot. C-reactive protein mRNA was examined with RT-PCR.
RESULTS17β-estrogen had no effect on cell morphology and C-reactive protein expression in normal VSMCs; however, C-reactive protein and mRNA, as well as p-ERK1/2 were decreased in Ang-II-stimulated VSMCs after 17β-estrogen treatment in a concentration-dependent manner.
CONCLUSION17β-estrogen may inhibit the expression of C-reactive protein and its mRNA in Ang-II-stimulated VSMCs via ERK1/2 signal transduction pathway in a concentration-dependent way.
Animals ; C-Reactive Protein ; genetics ; metabolism ; Cells, Cultured ; Estrogens ; pharmacology ; Male ; Muscle, Smooth, Vascular ; cytology ; Myocytes, Smooth Muscle ; drug effects ; metabolism ; RNA, Messenger ; genetics ; Rats ; Rats, Sprague-Dawley
6.Advance in calcium channel blockers relaxing corpus cavernosum smooth muscle.
National Journal of Andrology 2003;9(1):55-57
Calcium channels exist extensively in the membrane of cardiac, skeletal, smooth muscle cell and neuron. Calcium channel blockers (CCB) were widely used for the treatment of cardiovascular diseases because they could relax vascular smooth muscle. Experimental researches on calcium channel blockers relaxing corpus cavernosum smooth muscle have been reported recently. Whether the blockers can be used for the clinical diagnosis and treatment of erectile dysfunction still need to be further investigated.
Animals
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Calcium Channel Blockers
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pharmacology
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therapeutic use
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Calcium Channels
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metabolism
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Cardiovascular Diseases
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drug therapy
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Humans
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Male
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Muscle Relaxation
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drug effects
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Muscle, Smooth, Vascular
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drug effects
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Myocytes, Smooth Muscle
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drug effects
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Penile Erection
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drug effects
7.Expression of extracellular matrix metalloproteinase inducer in the unstable plaque of patients with acute coronary syndrome.
Bin WANG ; Sha-sha XU ; Jian-jun JIANG ; Xian-ben LU ; Ying-sheng XUE ; Jiao-chen WANG ; Ya-fei MI ; Min ZHU ; Wei-li GE ; Li-jiang TANG
Chinese Journal of Cardiology 2012;40(5):416-420
OBJECTIVETo observe the expression of extracellular matrix metalloproteinase inducer (EMMPRIN) in the unstable plaque of patients with acute coronary syndrome (ACS), and the impact of leukotriene B4 (LTB4) on the EMMPRIN expression in macrophages.
METHODSThe EMMPRIN expression was detected by immunohistochemistry in 11 unstable plaques from patients with ACS. Protein expression of EMMPRIN was evaluated by Western blot on macrophages differentiated from THP-1 which were stimulated with LTB4 in the absence or presence of LTB4 antagonist U75302. There are 8 study groups: 1-THP-1, 2-8-the macrophages derived from THP-1, 2-6-macrophages were stimulated by LTB4 (0, 10(-10), 10(-9), 10(-8) and 10(-7) mol/L) for 24 h, 7-8-the macrophages were pretreated by 10(-6) mol/L or 10(-7) mol/L U75302 2 h before the LTB4 (10(-7) mol/L) stimulation.
RESULTSAbundant EMMPRIN expression was detected in macrophages and smooth muscle cells of unstable plaques from ACS patients. As to the THP-1 derived macrophages, EMMPRIN expression was significantly upregulated in a concentration-dependent manner in LTB4 stimulated groups, which was significantly higher in group 3-6 than in the THP-1 group (group 1) and macrophages group (group 2) (all P < 0.05) and pretreatment with U75302 significantly reduced the LTB4 induced upregulation of EMMPRIN in a dose-dependent manner (P < 0.05).
CONCLUSIONEMMPRIN expression is enhanced in macrophages and smooth muscle cells on unstable coronary artery plaques from ACS patients. LTB4 could stimulate EMMPRIN expression on THP-1 derived macrophages suggesting that LTB4 and EMMPRIN might be both involved in the formation and progression of unstable plaques, future studies are warranted to explore if LTB4 and EMMPRIN antagonists are effective or not for treating patients with ACS.
Acute Coronary Syndrome ; metabolism ; pathology ; Basigin ; metabolism ; Cell Line ; Humans ; Leukotriene B4 ; metabolism ; pharmacology ; Macrophages ; drug effects ; metabolism ; Myocytes, Smooth Muscle ; drug effects ; metabolism ; Plaque, Atherosclerotic ; metabolism
9.Effect of corticotrophin-releasing hormone on connexin-43 phosphorylation and gap junction intercellular communication in human myometrial smooth muscle cells.
Yun HU ; Xin HE ; Yiling DING
Journal of Central South University(Medical Sciences) 2013;38(2):155-161
OBJECTIVE:
To determine the effect of human corticotrophin-releasing hormone (CRH) on the expression of connexin-43 phosphate (P-Cx43) in human myometrial smooth muscle cells (SMCs) and the function of cell gap junction intercellular communication in SMCs.
METHODS:
Human non-conceive myometial SMCs were cultured with different concentrations of CRH (0, 5.85, 58.5, 585 and 5850 pmol/L). Western blot was used to test P-Cx43 and Cx43 non-phosphate (NP-Cx43) of protein expression. Cell scratch was used to test cell gap junction intercellular communication opening status in human myometrial SMCs.
RESULTS:
Compared with the control group, the expression of P-Cx43 was higher in the CRH groups (P<0.01), and was concentration-dependent. There was no significant difference in NPCx43 between the control group and the CRH groups (P>0.05). The transmission of cell layers in the CRH groups was higher than that in the control group (P<0.01), and as the concentration of CRH increased, the time was concentration-dependent (P<0.01).
CONCLUSION
CRH can enhance the expression of P-Cx43 and the function of gap junction intercellular communication in the primary cultured myometrial SMCs.
Cell Communication
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drug effects
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Cells, Cultured
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Connexin 43
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metabolism
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Corticotropin-Releasing Hormone
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pharmacology
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Female
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Gap Junctions
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drug effects
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Humans
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Myocytes, Smooth Muscle
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metabolism
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Myometrium
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cytology
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Phosphorylation
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drug effects
10.Effects of sinomenine on intracellular free calcium concentration and the activity of protein kinase in cultured rabbit aortic smooth muscle cells.
Chinese Journal of Applied Physiology 2007;23(2):129-132
AIMTo explore the effects of sinomenine(Sin) on intracellular free calcium ([Ca2+]i) and the activity of PKC (protein kinase C) of the cultured aortic vascular smooth muscle cells (VSMC) during ischemia and hypoxia.
METHODSThe effect of Sin on changes in [Ca2+]i were determined in cultured rabbit VSMC after exposure to high K+, norepinephrine (NE) and caffeine (Caf). Fluorescent Ca2+ -indicater fura-2/AM was used. The effects of Sin were compared with that of verapamil (Ver). The hypoxia model was made, then the activity of PKC was measured by y scintillation counting instrument.
RESULTSSin (10 x 10(-6) mol x L(-1), 3 x 10(-5) mol x L(-1) 10(-4) mol x L(-1)) inhibited the elevation of [Ca2+]i induced by high K+ -depolarization in a concentration dependent manner. In addition, Sin inhibited the elevation of [Ca2+]i induced by NE in the presence of extracellular Ca2+. In the absence of extracellular Ca2+, Sin (3 x 10(-5) mol.L(-1)) also had no blocking effect on the NE-induced [Ca2+]i increase. It was found that the activity of PKC treated with Sin in VSMC cytoplasm and cell membrane in normal condition increased, the activity of PKC in cytoplasm in ischemia and hypoxia situation increased, but the activity of PKC in cell membrane decreased. When VSMC was treated with Sin, the activity of PKC in cytoplasm decreased and that of cell membrane increased.
CONCLUSIONThe results suggest that Sin might decrease the[Ca2+] i of VSMC by blocking both VDC and ROC, could regulate the PKC activities induced by ischemia and hypoxia.
Animals ; Aorta ; cytology ; drug effects ; Calcium ; metabolism ; Cell Hypoxia ; Cells, Cultured ; Cytoplasm ; metabolism ; Morphinans ; pharmacology ; Muscle, Smooth, Vascular ; cytology ; drug effects ; Myocytes, Smooth Muscle ; drug effects ; metabolism ; physiology ; Protein Kinase C ; metabolism ; Rabbits