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Query: UMLS:C0020538 (
hypertension
)
170,190
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Vascular smooth muscle cell (SMC) proliferation is a key event in the development of (spontaneous) atherosclerosis,
hypertension
-related arteriosclerosis, angioplasty-induced restenosis and venous bypass graft arteriosclerosis. Many factors or environmental stimuli are believed to be responsible for SMC growth or hypertrophy in the vessel wall. How these environmental stimuli or signals applied onto the surface of SMCs are transduced into the cell nucleus resulting in quantitative and qualitative changes in gene expression in SMCs of arterial walls is largely unknown. Mitogen-activated protein (MAP) kinases are rapidly activated in cells stimulated with various extracellular signals by dual phosphorylation of tyrosine and threonine residues. They are thought to play a pivotal role in transmitting transmembrane signals required for cell growth and differentiation. Recent studies have focused on the signalling events in vascular tissues in vivo and in cultured SMCs in vitro. It has been demonstrated that acute
hypertension
and angioplasty rapidly induced
MAP kinase
activation in the arterial wall. Kinase activation is followed by an increase in c-fos and c-jun gene expression and enhanced transcription factor AP-1 DNA-binding activity. A similar
MAP kinase
activation can be mimicked in in vitro cultured SMCs stimulated by either shear stress or cyclic strain stretch, suggesting direct effects of mechanical force. Interestingly, physical forces rapidly resulted in phosphorylation of platelet-derived growth factor (PDGF) receptor, an activated state, in cultured SMCs. Thus, mechanical stresses may directly perturb the cell surface or alter receptor conformation, thereby initiating signalling pathways usually used by growth factors. These findings have significantly enhanced our knowledge concerning the pathogenesis of arteriosclerosis and provide a basis for therapeutic intervention on vascular diseases.
...
PMID:Signal transduction in arteriosclerosis: mechanical stress-activated MAP kinases in vascular smooth muscle cells (review). 985 3
Obese hypertensive patients with cardiovascular risk factor clustering have increased plasma nonesterified fatty acid levels and are at high risk for atherosclerotic events. Our previous studies demonstrated that oleic acid induces a mitogenic response in rat aortic smooth muscle cells (RASMCs) through protein kinase C (PKC)- and
extracellular signal-regulated kinase
(
ERK
)-dependent pathways. In the present study we investigated the possibility that the generation of reactive oxygen species (ROS) constitutes a critical component of the oleic acid-induced mitogenic signaling pathway in RASMCs. We studied the effect(s) of oleic acid on the generation of ROS using the oxidant-sensitive fluoroprobe 2',7'-dichlorofluorescin diacetate. Relative fluorescence intensity and fluorescent images were obtained with laser confocal scanning microscopy from 1 to 5 minutes, since preliminary studies demonstrated that the peak fluorescence intensity occurred within 5 minutes. Oleic acid (100 micromol/L) induced a time-dependent increase of cell fluorescence that was >8-fold of that seen in control cells at 5 minutes. This was blocked by catalase, which suggests that H2O2 was the principal ROS. The oleic acid-induced increases in H2O2 were blocked when PKC was inhibited with the use of bisindolylmaleimide and when PKC activity was downregulated by exposing RASMCs to phorbol 12-myristate 13-acetate for 24 hours. Stearic and elaidic acids, which are weak PKC activators, did not significantly increase H2O2 production. The increase of H2O2 in response to oleic acid was inhibited by the antioxidant N-acetylcysteine. N-Acetylcysteine also completely blocked
ERK
activation and the increase of thymidine incorporation in response to oleic acid. The data suggest that generation of H2O2 in RASMCs exposed to oleic acid is PKC dependent. Moreover, H2O2 production emerges as a critical intermediary event in the oleic acid-mediated mitogenic signaling pathway between the activation of PKC and
ERK
. These observations raise the possibility that the elevated plasma nonesterified fatty acids, including oleic acid, in obese hypertensive patients contribute to vascular growth and remodeling by a PKC-dependent mechanism to generate ROS that subsequently activate
ERK
.
Hypertension
1998 Dec
PMID:Reactive oxygen species are critical in the oleic acid-mediated mitogenic signaling pathway in vascular smooth muscle cells. 985 64
-Protein tyrosine phosphorylation induced by arachidonic acid (AA), an important lipid second messenger, was investigated in rabbit renal proximal tubule epithelial cells. AA stimulated tyrosine phosphorylation of a number of proteins with estimated molecular weights of 42, 44, 52, 56, 85, and 170/180 kDa. The phosphoproteins pp44 and
pp42
were identified as 2 isoforms of
mitogen-activated protein kinase
(
MAPK
). Phosphorylation of
MAPK
in response to AA was transient, dose-dependent, and accompanied by an increase in its activity. The mechanism of AA-induced
MAPK
activation in RTE cells was protein kinase C-independent and involved tyrosine phosphorylation of adaptor protein Shc and its association with Grb2-Sos complex. Moreover, stimulation of RTE cells with AA resulted in significant phosphorylation of epidermal growth factor (EGF) receptor and its association with Shc. The effect of AA on EGF receptor phosphorylation, its association with Shc, and
MAPK
activation was similar to the effect of 1 ng/mL EGF. Tyrphostin AG1478, a specific inhibitor of EGF receptor tyrosine kinase activity, completely blocked the effects of AA and EGF but not phorbol ester on
MAPK
phosphorylation. These data suggest that in renal tubular epithelial cells, the mechanism of AA-induced
MAPK
activation involves tyrosine phosphorylation of EGF receptor and its association with Shc and Grb2-Sos complex. Given the critical role of AA in signaling linked to G protein-coupled receptors (GPCRs), these observations provide a mechanism for cross talk between GPCRs linked to phospholipases and the tyrosine kinase receptor signaling cascades.
Hypertension
1998 Dec
PMID:Arachidonate-induced tyrosine phosphorylation of epidermal growth factor receptor and Shc-Grb2-Sos association. 985 79
The increase in vascular wall stress imposed by
hypertension
has been strongly implicated in the pathogenesis of cardiovascular disease. Much of this chronic cyclical mechanical strain is experienced by the vascular smooth (VSM) cells of the vascular media. The cellular mechanisms whereby VSM cells sense and respond to changing mechanical forces are poorly understood. This review focuses on an emerging field of cardiovascular research in which the direct effects of mechanical strain on VSM cells and isolated blood vessels in organ culture have been characterized, in vitro. Cyclical mechanical strain profoundly influences cultured VSM cell orientation, growth and phenotype. Mechanical strain also increases the secretory function of VSM cells leading to increased extracellular matrix protein production. Vasoactive mediators such as angiotensin II potentiate these effects. Mechanical strain increases VSM cell release of platelet derived growth factor, transforming growth factor beta1, fibroblast growth factor and vascular endothelial growth factor, which act in autocrine or paracrine loops to influence VSM and endothelial cell growth and function. Mechanical strain may also activate local tissue renin-angiotensin systems and regulate expression of angiotensin II receptors within the cardiovascular system. The mechanism whereby VSM cells transduce mechanical stimuli into an intracellular signal and biological response, i.e. 'mechanotransduction', is strongly dependent on integrins. Moreover, specific matrix protein:integrin engagements lead to differential VSM cells responses via the selective activation of numerous intracellular signalling pathways including;
mitogen-activated protein kinase
, focal adhesion kinase and c-Src. The study of vascular mechanotransduction has begun to delineate the complex cellular basis of cardiovascular structural and functional modification in
hypertension
.
...
PMID:Mechanical influences on vascular smooth muscle cell function. 988 78
Angiotensin-II (ANG-II) is a potent endocrine and paracrine hormone that functions in humans through two distinct G-protein-coupled transmembrane receptor subtypes (AT-1 and AT-2). ANG-II is found in nearly all tissues of the body including the brain, heart, kidneys, gonads, and gastrointestinal tract. Just as it is found in nearly every organ system of the body, so is it involved in an array of physiologic processes from fetal development to blood pressure control. ANG-II regulates blood pressure by controlling sodium reabsorption in the proximal tubule, altering the glomerular filtration rate and renal blood flow, and by modifying the production and release of aldosterone in the adrenal gland. Additionally, ANG-II is involved in several pathologic processes including the development of
hypertension
, cardiomyopathy, atherosclerosis, and diabetic nephropathy. It is able to exert influences in these widely varying processes by working together with multiple different second messenger systems including the
MAP kinase
pathway, nitric oxide production, and phospholipase C and D, and several arachidonic acid metabolites. This paper is a review of the current knowledge of ANG-II and its receptors in health and disease.
...
PMID:Action of angiotensin receptor subtypes on the renal tubules and vasculature: implications for volume homeostasis and atherosclerosis. 993 Mar 75
-Estrogens are known to induce cardioprotective effects by inhibiting smooth muscle cell (SMC) growth and neointima formation. However, the use of estrogens as cardioprotective agents is limited by carcinogenic effects in women and feminizing effects in men. If noncarcinogenic and nonfeminizing estrogenlike compounds, such as natural phytoestrogens, afford cardioprotection, this would provide a safe method for prevention of cardiovascular disease in both men and women. Therefore, we evaluated and compared in human aortic SMCs the effects of phytoestrogens (formononetin, genistein, biochanin A, daidzein, and equol) on 2.5% fetal calf serum-induced proliferation (3H-thymidine incorporation and cell number), collagen synthesis (3H-proline incorporation), and total protein synthesis (3H-leucine incorporation) and on PDGF-BB (25 ng/mL)-induced migration (modified Boydens chambers). Moreover, the effects of phytoestrogens on PDGF-BB (25 ng/mL)-induced
mitogen-activated protein kinase
(
MAP kinase
) activity in SMCs was also studied. Phytoestrogens inhibited proliferation, collagen and total protein synthesis, migration, and
MAP kinase
activity in a concentration-dependent manner and in the following order of potency: biochanin A>genistein>equol>daidzein>formononetin. In conclusion, our studies provide the first evidence that in human aortic SMCs phytoestrogens inhibit mitogen-induced proliferation, migration and extracellular matrix synthesis and inhibit/downregulate
MAP kinase
activity. Thus, phytoestrogens may confer protective effects on the cardiovascular system by inhibiting vascular remodeling and neointima formation and may be clinically useful as a safer substitute for feminizing estrogens in preventing cardiovascular disease in both women and men.
Hypertension
1999 Jan
PMID:Phytoestrogens inhibit growth and MAP kinase activity in human aortic smooth muscle cells. 993 Nov 1
-Migration of vascular smooth muscle cells (VSMC) is a key event in neointimal formation and atherosclerosis that may be linked to the accumulation of inflammatory cells and release of chemotactic cytokines. Tumor necrosis factor-alpha (TNF-alpha) induces chemotaxis of inflammatory cells and fibroblasts, but little is known about chemotactic signaling by TNF-alpha in VSMC. The aim of this study was to investigate the role of TNF-alpha in VSMC migration and to elucidate the chemotactic signaling pathways mediating this action. TNF-alpha (50 to 400 U/mL) induced migration of cultured rat aortic VSMC in a dose-dependent manner. Because activation of the extracellular signal-regulated kinase 1/2
mitogen-activated protein kinase
(
MAPK
) is known to be required in platelet-derived growth factor-directed and angiotensin II-directed migration of these cells, we used the
MAPK
-inhibitor PD98059 to determine if chemotactic signaling by TNF-alpha involves the
MAPK
pathway as well. We found that TNF-alpha-directed migration was substantially inhibited by PD98059. TNF-alpha (100 U/mL) transiently activated
MAPK
with a maximal induction 10 minutes after stimulation that returned to baseline levels by 2 hours after treatment. Only a single peak of increased
MAPK
activity was seen. PD98059 also blocked TNF-alpha-stimulated
MAPK
activation in a concentration-dependent manner, which is consistent with its inhibition of TNF-alpha-directed migration. To identify which TNF-alpha receptor is involved in TNF-alpha-induced
MAPK
activation, antibodies against the p55 TNF-alpha receptor-1 (TNF-R1) and the p75 TNF-alpha receptor-2 (TNF-R2) were used. VSMC express both receptors, but TNF-alpha-induced
MAPK
activation was inhibited only by the TNF-R1 antibody. The TNF-R2 antibody had no effect. Thiazolidinediones are known to inhibit TNF-alpha signaling in adipose tissue and attenuate platelet-derived growth factor-directed and angiotensin II-directed migration in VSMC. We therefore investigated the effects of the thiazolidinediones troglitazone (TRO) and rosiglitazone (RSG) on TNF-alpha-induced migration. Both TRO and RSG inhibited migration, but neither attenuated TNF-alpha-induced
MAPK
activation, indicating that their antimigration activity was exerted downstream of
MAPK
. These experiments provide the first evidence that early activation of
MAPK
is a crucial event in TNF-alpha-mediated signal transduction leading to VSMC migration. Moreover, inhibition of TNF-alpha-directed migration by the insulin sensitizers TRO and RSG underscores their potential as vasculoprotective agents.
Hypertension
1999 Jan
PMID:TNF-alpha-induced migration of vascular smooth muscle cells is MAPK dependent. 993 Nov 2
-PYK2, a recently identified Ca2+-sensitive tyrosine kinase, has been implicated in
extracellular signal-regulated kinase
(
ERK
) activation via several G protein-coupled receptors. We have reported that angiotensin II (Ang II) induces Ca2+-dependent transactivation of the epidermal growth factor receptor (EGFR) which serves as a scaffold for preactivated c-Src and downstream adaptors (Shc/Grb2), leading to
ERK
activation in cultured rat vascular smooth muscle cells (VSMC). Herein we demonstrate the involvement of PYK2 in this cascade. Ang II rapidly induced tyrosine phosphorylation of PYK2, whose effect was completely inhibited by an AT1 receptor antagonist and an intracellular Ca2+ chelator. A Ca2+ ionophore also induced PYK2 tyrosine phosphorylation to a level comparable with that by Ang II, whereas phorbol ester-induced phosphorylation was less than that by Ang II. Moreover, PYK2 formed a complex coprecipitable with catalytically active c-Src after Ang II stimulation. Although a selective EGFR kinase inhibitor completely abolished Ang II-induced recruitment of Grb2 to EGFR and markedly attenuated Ang II-induced
ERK
activation, it had no effect on Ang II-induced PYK2 tyrosine phosphorylation or its association with c-Src and Grb2. These data suggest that the AT1 receptor uses Ca2+-dependent PYK2 to activate c-Src, thereby leading to EGFR transactivation, which preponderantly recruits Grb2 in rat VSMC.
Hypertension
1999 Jan
PMID:Involvement of PYK2 in angiotensin II signaling of vascular smooth muscle cells. 993 Nov 5
The genes encoding inducible nitric oxide synthase (iNOS) and cyclooxygenase-2 (COX-2, also known as prostaglandin-endoperoxide synthase-2) are induced in many types of cells in response to proinflammatory cytokines. We have previously shown that interleukin-1beta (IL) stimulates iNOS and COX-2 mRNA in cardiac myocytes. Because IL has been shown to activate
mitogen-activated protein kinase
(
MAPK
) signaling pathways in many different cells, we tested whether the p42/44 and p38
MAPK
pathways were involved in IL stimulation of iNOS and COX-2, using a specific inhibitor of p42/44 activation, PD98059 (PD), and the p38 inhibitor SB205380 (SB). Nitrites were measured using the Griess reagent, prostaglandin PGE2 by an enzyme immunoassay, iNOS and COX-2 protein by Western blot analysis, and iNOS mRNA by Northern blot analysis. Tested separately, the p38 kinase and
MAPK
inhibitors partially reduced IL stimulation of nitrite, iNOS protein, and iNOS mRNA; used together, they completely abolished the effect of IL. SB and PD inhibited IL-stimulated COX-2 protein by 60% and 80%, respectively, and IL-stimulated COX-2 protein was totally prevented by the combination of inhibitors. PGE2 production was inhibited more than 99% by either drug alone, suggesting a posttranslational effect on enzyme activity. To test whether this posttranslational effect involved the cytosolic phospholipase A2 (cPLA2) isoform, Western blots were probed for cPLA2 protein. Results indicated that IL stimulated cPLA2 activity and synthesis, which was inhibited by SB but not PD. These data indicate that (1) IL induction of iNOS synthesis depends on both the p42/44 and p38 signaling pathways, acting primarily at the level of transcriptional regulation; and (2) IL regulation of COX-2 synthesis involves the p42/44 and p38 signaling pathways, with an additional level of regulation occurring posttranslationally, perhaps at the level of activation of the cPLA2 isoform, which may be involved in intracellular signaling, as well as regulation of arachidonic acid release for COX-2 activity.
Hypertension
1999 Jan
PMID:Interleukin-1beta regulation of inducible nitric oxide synthase and cyclooxygenase-2 involves the p42/44 and p38 MAPK signaling pathways in cardiac myocytes. 993 Nov 17
Because both the brain natriuretic peptide (BNP) gene and the cytokine interleukin-1beta (IL-1beta) are induced in the infarcted myocardium, localized production of IL-1beta may regulate the BNP gene. We tested whether (1) IL-1beta regulates the human BNP promoter, (2) cis elements in the proximal promoter respond to IL-1beta, and (3)
mitogen-activated protein kinase
(
MAPK
) signaling pathways [p42/44, c-jun (
JNK
) and p38 kinase] are involved. We transferred the hBNP promoter coupled to a luciferase reporter gene or constructs with mutations in the proximal promoter GATA and M-CAT elements into neonatal rat ventricular myocytes and treated the cells with IL-1beta for 24 hours. IL-1beta-stimulated hBNP luciferase activity was eliminated by pretreatment with the transcription inhibitor actinomycin D. Both the p38 kinase inhibitor SB205380 (SB) and cotransfection of a dominant-negative mutant of p38 kinase reduced IL-1beta stimulation of the hBNP promoter. Dominant-negative mutants of Ras and Rac inhibited IL-1beta-stimulated hBNP luciferase activity by 64% and 90%, respectively. Constitutively active forms of Rac and MKK6, the immediate upstream activator of p38, were stimulatory; however, only the effect of MKK6 was inhibited by SB. Neither the p42/44 nor the
JNK
pathway was involved in the action of IL-1beta. Both IL-1beta and MKK6 activation of the hBNP promoter were partially reduced when the promoter contained a mutated M-CAT element. In summary, (1) IL-1beta is a transcriptional activator of the hBNP promoter; (2) IL-1beta acts through a Ras-dependent pathway not coupled to activation of p42/44
MAPK
or
JNK
; (3) IL-1beta acts through a Rac-dependent pathway, but the downstream effector is not known; and (4) IL-1beta activation of p38 kinase is partially involved in regulation of the hBNP promoter, targeting the proximal M-CAT element.
Hypertension
1999 Jan
PMID:Interleukin-1beta regulation of the human brain natriuretic peptide promoter involves Ras-, Rac-, and p38 kinase-dependent pathways in cardiac myocytes. 993 Nov 18
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