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Query: UNIPROT:P20366 (
substance P
)
21,176
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Endothelial dysfunction
has been implicated as a cause of coronary vasospasm in patients with variant angina. This study aimed to determine if endothelium-dependent vasodilation evoked with
substance P
(SP) was altered at the spastic site where vasospasm was induced by acetylcholine (ACH) in patients with variant angina. It has been shown that SP evokes endothelium-dependent vasodilation with no direct effect on vascular smooth muscle in excised human coronary arteries. SP and ACH were infused into the coronary arteries in nine patients with variant angina in whom coronary arteriograms showed normal or mild atherosclerotic lesions. The vasomotor responses of coronary arteries were assessed by quantitative arteriography. ACH at a high dose (100 micrograms/min) provoked coronary vasospasm associated with anginal attack in all patients. In contrast, SP at graded doses (13.5, 40, and 135 ng/min) caused the dose-dependent and comparable increases in the coronary diameter at the spastic and control sites. ACH at a low dose (10 micrograms/min) also caused comparable vasodilation at the spastic and control sites in patients with normal coronary arteries. Coronary vasodilating responses to SP were comparable in patients with variant angina and those with atypical chest pain. The results indicate that endothelium-dependent vasodilation evoked with SP and ACH at the low dose was present at the vasospastic site in patients with variant angina. These findings suggest that the ACH-induced coronary vasospasm in patients with variant angina results from hyperreactivity of vascular smooth muscle to ACH but not from endothelial dysfunction.
...
PMID:Preserved endothelium-dependent vasodilation at the vasospastic site in patients with variant angina. 137 74
The vascular endothelium is the site of formation of several powerful mediators. One of these is NO, a chemically unstable radical formed by enzymatic conversion of L-arginine in the presence of molecular oxygen. NO elicits relaxation of VSMC by activating cytosolic guanylate cyclase. NO also counteracts platelet adhesion and aggregation. The biological actions of NO make it a key substance in the endogenous defense against vascular occlusion and thrombosis. The basal formation of NO maintains a moderate but significant vasodilation in the systemic resistance vessels and counteracts platelet activity. When blood flow in conduit arteries is increased there is an augmented endothelial formation of NO, eliciting flow-dependent vasodilation. Beside this, several vasodilators (acetylcholine, bradykinin, histamine,
substance P
) operate by stimulating endothelial NO formation. On the other hand, drugs like nitroglycerin and papaverine operate independently of the vascular endothelium. Vasodilator mechanisms, physiological as well as pharmacological, may therefore be characterized as endothelium-dependent (i.e. NO-mediated), or endothelium-independent (i.e. not mediated by NO). Physiologically, mixed mechanisms occur. Failure of the vascular endothelium to elicit NO-mediated vasodilatation may be due to decreased formation, increased degradation, decreased sensitivity to the NO formed, or a mixture of these factors. Irrespective of the mechanism behind, this is referred to as endothelial dysfunction.
Endothelial dysfunction
occurs in several cardiovascular settings, like atherosclerosis, hypercholesterolaemia, diabetes, and essential hypertension.
Endothelial dysfunction
leads to an impaired tissue perfusion, increased local vascular resistance, decreased defense against thrombus formation, and possibly also decreased defense against hypertrophy of the VSMC in the vessel wall media. In patients with CHD, endothelial dysfunction leads to an impaired coronary flow response to physical and mental stress, and to promotion of platelet adherence and aggregability.
Endothelial dysfunction
is thereby a probable aggravating factor in the atherosclerotic process, adding a functional component on top of the structural lesions characterizing this disease. A particular form of endothelial dysfunction, limited to the arterial resistance vessels, may explain the symptoms and clinical characteristics of microvascular angina. In patients with essential hypertension, endothelial dysfunction prevails, adding a functional component to the structural factors also in this disease. Hitherto, the only therapeutic tools available to restore endothelial dysfunction appear to be restriction of the dietary intake of lipids, possibly reinforced with intake of antioxidants like fish oil and vitamin E. However, large clinical trials to confirm the efficacy of such therapy in reversing endothelial dysfunction have not been conducted. In the future, more directly acting therapeutic regimens, aimed at supporting or substituting the endogenous formation of NO, are likely to appear as well.
...
PMID:Endothelial nitric oxide and cardiovascular disease. 815 Dec 63
Endothelial dysfunction
is an important factor in many cardiovascular diseases, and is commonly associated with impaired endothelium-mediated vasodilatation. Information about the mechanisms behind this dysfunction has come largely from animal studies or, in humans, through invasive techniques that are not specific to one vascular bed. We have developed protocols to assess endothelial function non-invasively in the cutaneous microcirculation by measuring blood flow responses to four receptor-specific vasoactive compounds. Cumulative doses of acetylcholine, methacholine, bradykinin and
substance P
were administered iontophoretically to the forearm skin of healthy volunteers on two to three occasions. Dose-dependent increases in skin microvascular blood flow in response to these drugs were measured with laser Doppler imaging. Vascular responses to acetylcholine and methacholine were reasonably consistent, with coefficients of variation of approx. 17%. The coefficients of variation for bradykinin and
substance P
were much poorer, as high as 70% for some doses. This might partly be a consequence of the more unpredictable effects of histamine release in the vasoactive behaviour of these two agonists. Although it might be advantageous to find other agonists with which to test the function of different receptor pathways, we have shown that just acetylcholine and methacholine can currently be used with iontophoresis to allow sensitive and reproducible assessment of endothelial function.
...
PMID:Assessment of microvascular endothelial function in human skin. 1172 40
Atherosclerosis is the main cause of many cardiovascular diseases.
Endothelial dysfunction
is recognized as an early event in the development of atherosclerosis. Many drugs have been studied to mitigate hyperlipidemia-induced endothelial injury. Studies have demonstrated that neuropeptide
substance P
(SP) and its preferred receptor neurokinin receptor 1 (NK-1R) are involved in the pathological progression of cardiovascular disease. In this study, we show that aprepitant, a selective NK-1R antagonist, possesses beneficial effects that protect endothelial cells from oxidized low-density lipoprotein (ox-LDL)-induced inflammatory response and injury. Our data demonstrate that NK-1R is expressed in both aortic and vein-originated endothelial cells and that ox-LDL treatment induces NK-1R expression. Treatment with aprepitant suppresses induction of endothelial vascular adhesion molecule (VCAM-1 and E-selectin) and cytokine by ox-LDL. The presence of aprepitant mitigates adhesion of monocytes to endothelial cells and the reduction in eNOS/NO triggered by ox-LDL. Mechanistically, we demonstrate that aprepitant suppresses ERK5-KLF2 axis activation. Silencing of KLF2 abolishes the inhibitory role of aprepitant on ox-LDL-induced inflammatory response, suggesting that its action is dependent on KLF2. Collectively, our data support that aprepitant exerts an anti-inflammatory effect. Further research is required to investigate the therapeutic potential of aprepitant in vascular inflammation resulting from atherosclerosis.
...
PMID:The neurokinin-1 receptor antagonist aprepitant ameliorates oxidized LDL-induced endothelial dysfunction via KLF2. 3057 49
