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Query: EC:3.4.11.18 (
MAP
)
7,412
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Intracellular signaling pathways regulating vascular smooth muscle (VSM) cell growth and hypertrophy can be initiated by activation of receptor tyrosine kinases and/or protein kinase C (PKC). Mitogen-activated protein kinases (
MAP
kinases) are cytosolic serine/threonine kinases, proposed to act as a point of convergence for diverse growth factors utilizing these signaling pathways. The goals of this study were (1) to determine whether MAP kinase is expressed in cultured rat aortic VSM, (2) to assess the activation of MAP kinase by known proliferative and hypertrophic stimuli, and (3) to determine if stimulation of a PKC-dependent signaling pathway in these cells results in MAP kinase activation. MAP kinase activity was measured in cytosolic extracts of aortic VSM by quantifying myelin basic protein phosphorylation. Three peaks of activity were resolved chromatographically and identified as MAP kinase isoforms (MW 42, 44, and 46 kDa) by immunoblotting with antipeptide antibodies specific for MAP kinase. MAP kinase activity in quiescent growth-arrested cells (157 +/- 19 pmole 32P/min/mg) was markedly stimulated within 15 min by known mitogens (10% serum, 731 +/- 40 pmole 32P/min/mg; 40 ng/ml PDGF, 670 +/- 105 pmole 32P/min/mg; P < 0.01) and partially sustained for at least 90 min (serum, 606 +/- 34 pmole 32P/min/mg; PDGF, 323 +/- 59 pmole 32P/min/mg P < 0.05). Angiotensin II (
AII
, 0.1 microM) and a pharmacological PKC activator, phorbol 12,13-dibutyrate (PDB, 0.1 microM), are reported to be nonmitogenic hypertrophic stimuli in these cells. These stimuli transiently increased MAP kinase activity with a peak at 5 min (
AII
, 328 +/- 15 pmole 32P/min/mg; PDB, 592 +/- 41 pmole 32P/min/mg; P < 0.05).(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Regulation of MAP kinase activity by growth stimuli in vascular smooth muscle. 804 Nov 41
1. The effects of combined inhibition of neutral endopeptidase 24.11 and angiotensin-converting enzyme, with the dual metallopeptidase inhibitor, MDL 100,240 (3 mg kg-1 bolus, 3 mg kg-1, h-1 infusion), on baseline haemodynamics and on responses to a variety of vasoactive peptides were studied in conscious Long Evans rats (350-450 g: n = 9) chronically instrumented for the assessment of regional haemodynamics. 2. The experiments ran over 4 consecutive days. On the first 2 days the animals received the vehicle for MDL 100,240, and were given bolus i.v. injections of angiotensin I (AI; 250 pmol kg-1), angiotensin II (
AII
; 125 pmol kg-1), bradykinin (BK: 3 nmol kg-1) and endothelin-1 (ET-1; 250 pmol kg-1) on one day and AI (as above), atrial natriuretic peptide (ANP: 500 pmol kg-1) and big endothelin-1 (big ET-1; 500 pmol kg-1) on the other day in a random manner. On the third and fourth experimental days the vasoactive peptides were given in the same order as before, but in the presence of MDL 100,240. 3. Thirty minutes after onset of administration of vehicle, on the first or second experimental day, there were no consistent cardiovascular changes. However, at the same time following onset of MDL 100,240 administration on the third experimental day, there was a significant, but slight, reduction in mean arterial blood pressure (
MAP
; -5 +/- 2 mmHg) together with tachycardia (41 +/- 12 beats min-1) and increases in renal and mesenteric flows (17 +/- 3 and 13 +/- 4%, respectively) and vascular conductances (23 +/- 4 and 19 +/- 5%, respectively). The mesenteric vasodilator effect of MDL 100,240 was still present on the fourth experimental day before administration of the drug on that day, but otherwise the pattern of response to MDL 100,240 was similar to that on the previous day. 4. In the presence of vehicle, AI caused hypertension, bradycardia, and reductions in renal mesenteric and hindquarters vascular conductances; all these effects were abolished by MDL 100,240. 5. In the presence of vehicle,
AII
caused effects similar to those of AI. MDL 100,240 did not affect the pressor, bradycardic or hindquarters vasoconstrictor effects of
AII
. However, in the presence of MDL 100,240, the overall renal and mesenteric vasoconstrictor effects of
AII
were enhanced, probably because of the renal and mesenteric vasodilatation caused by MDL 100,240. 6. In the presence of vehicle, BK had a slight pressor effect, accompanied by tachycardia and transient increases in conductances in renal, mesenteric and hindquarters vascular beds. In the presence of MDL 100,240 BK caused marked hypotension, but an attenuated tachycardia; renal, mesenteric and hindquarters vasodilator responses were enhanced. 7. In the presence of vehicle, ANP caused slight hypotension and tachycardia, together with reductions in renal and mesenteric vascular conductances, and transient increases in hindquarters conductance. MDL 100,240 enhanced the hypotensive effect of ANP and promoted a delayed hindquarters vasoconstriction. 8. Big ET-1, in the presence of vehicle, caused a marked and prolonged increase in
MAP
, accompanied by bradycardia and reductions in renal, mesenteric and hindquarters vascular conductances. Although MDL 100,240 significantly attenuated the magnitude of the pressor effect of big ET-1, its bradycardic and renal, mesenteric and hindquarters haemodynamic actions were not reduced significantly. 9. In the presence of vehicle, ET-1 caused an initial hypotension, tachycardia and vasodilatation in the hindquarters, but reductions in renal and mesenteric vascular conductances; thereafter there was a rise in
MAP
and bradycardia with vasoconstriction in all three vascular beds. MDL 100,240 had no effect on the initial hypotensive, tachycardic or hindquarters haemodynamic effects of ET-1. Moreover the subsequent pressor and bradycardic actions of ET-1 were unchanged, but its renal and mesenteric vasoconstrictor effects were enhanced, possibly because of the dilatation
...
PMID:Effects of the dual metallopeptidase inhibitor, MDL 100,240, on regional haemodynamic responses to vasoactive peptides in conscious rats. 942 15
Previous reports have suggested that NO is an important mediator of the antihypertensive effects of renin-angiotensin system (RAS) inhibition. We examined the effects of the NO synthase inhibitor L-NNA on the hypotensive effects of captopril, the Ang II antagonist EXP 3174, or the renin inhibitor terlakiren. In sodium-depleted guinea pigs (GPs), L-NNA (3 mg/kg) increased
MAP
by 15-21% for at least 5 hours. L-NNA partially blocked the hypotensive effects of captopril (1 mg/kg, iv), but not those of EXP 3174 (1 mg/kg, iv) or terlakiren (3 mg/kg). In sodium-depleted rats, 10 mg/kg L-NNA (iv) increased
MAP
by 16-22%, and partially or fully blocked the hypotensive effect of EXP 3174 (1 mg/kg, iv) or captopril (3 mg/kg, iv), respectively. Thus, in contrast to the rat, NO in GPs appears to participate only in the hypotensive action of ACE inhibition and does not appear to be strongly involved in the hypotensive action of
AII
antagonism or renin inhibition. The involvement of NO in the hypotensive effects of RAS antagonists other than ACE inhibitors may be species-dependent.
...
PMID:Role of nitric oxide in responses to renin-angiotensin system inhibition in sodium-depleted guinea pig and rat. 953 11
(1) In vagotomized, anaesthetized rats, effects of stimulation of cardiac N. vagus (2-25 Hz) on cardiac and circulatory functions were studied: we recorded transient reductions in heart rate (HR), in left-ventricular systolic pressure (LV Ps), in maximal change in left-ventricular pressure development (dp/dt)max and in mean arterial pressure (
MAP
, A. femoralis). (2) Bolus injection of angiotensin II (
AII
, 2.5-100 microg/kg body weight) caused (a) transient increases in HR, LV Ps and
MAP
(pressor effects, maximal changes occurred within 3 min after injection), and (b) dose-dependently reduced effects of vagus stimulation (non-pressor effects, recorded 10 min after injection). Due to fast breakdown of All in the circulatory system, all observed vagus stimulation effects were completely recovered within 1 h after injection. (3) Plasma concentration of
AII
was recorded with a highly specific radioimmunoassay: 10 min after
AII
injection (non-pressor range), plasma concentration was clearly higher than physiological levels in all experiments with 10 microg
AII
/kg at least. (4) Treatment with propranolol (beta-adrenoceptor blocker, 1 mg/kg body weight) did not reduce the vagus effects alone, but decreased the modulatory
AII
effects. This result hints at the activation of sympathetic beta-adrenergic receptors by
AII
counteracting the parasympathetic cardiac control.
...
PMID:Modulation of chronotropic and inotropic heart vagus actions as a non-pressor effect of angiotensin II in the anaesthetized rat. 971 76
