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Query: UMLS:C0020538 (
hypertension
)
170,190
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Release of arachidonic acid from membrane phospholipids is a limiting step in the synthesis of both cyclooxygenase products and
lipoxygenase
products. The direct effects of prostacyclin and some
lipoxygenase
products on renin release were studied using rat renal cortical slices. Prostacyclin, at concentrations of 10(-5) M, stimulated renin secretion, but this effect was short-lived. Leukotrienes or their precursor, 5-hydroperoxyeicosatetraenoic acid, did not affect basal renin release. In contrast, 10(-9) M 12-hydroperoxyeicosatetraenoic acid and 10(-8) M 12-hydroxyeicosatetraenoic acid were potent inhibitors of renin secretion. Similarly, 15-hydroperoxyeicosatetraenoic acid and its hydroxy derivative, 15-hydroxyeicosatetraenoic acid, at somewhat higher molar concentrations (10(-6) M) also reduced basal renin. These studies confirm prostacyclin as a potential renin secretagogue; however, its action in vitro is transient, probably because of its rapid degradation. Our studies provide new evidence that products of the 12-lipoxygenase and 15-lipoxygenase pathways, reported to be present in renal vascular tissue, are potent inhibitors of renin secretion and much more active on a molar basis on renin secretion than is prostacyclin. These studies suggest the potential presence of a dual system of stimulation and suppression that may regulate renin secretion in normal and clinical states.
Hypertension
1987 Jul
PMID:The inhibitory role of 12- and 15-lipoxygenase products on renin release. 329 43
Abnormal narrowing of the arterioles, caused by contraction of arteriolar smooth muscle, contributes to the genesis and the maintenance of the increased peripheral resistance observed in
hypertension
. Activation of the contractile process in vascular smooth muscle requires an increase in cytoplasmic calcium. In most blood vessels, the activator ion enters the cell through specific membrane channels, which can be inhibited by a chemically heterogeneous group of drugs, the calcium-entry blockers. The antihypertensive effect of these agents is probably explained by their inhibitory effect on (1) alpha-adrenergic activation (the pharmacologic subtype of postjunctional alpha-adrenoceptor does not necessarily determine the importance of calcium entry); (2) activation by nonadrenergic neurohumoral mediators (for example, serotonin); (3) acceleration of calcium entry by metabolites of arachidonic acid formed by
lipoxygenase
; and (4) inherent myogenic tone.
...
PMID:Calcium-entry blockers, vascular smooth muscle and systemic hypertension. 388 10
Leukotrienes (LTs) are metabolites of arachidonic acid formed by a 5-lipoxygenase. They are generated during immunological challenge or by reactions which involve changes in calcium levels. Their release is blocked by inhibitors of phospholipase A2 or
lipoxygenase
. LTB4 is a potent mediator of chemotaxis and of exudation of plasma. The peptidolipid LTs, LTC4, LTD4 and LTE4 are very active on a variety of types of smooth muscle. LTs C4 D4 and E4 contract guinea pig ileum (GPI), LTD4 being the most potent. LTC4 is converted to LTD4 on GPI. LTC+ and LTD4 cause bronchoconstriction in guinea pig in vivo and contract human bronchus, guinea pig trachea and parenchymal strips from guinea pig, human, rabbit and rat lung in vitro. LTB4 also contracted guinea pig parenchyma: the contraction of this tissue to all LTs is mainly due to thromboxane A2 released by LTs and is blocked by inhibitors of thromboxane synthesis. LTC4 and D4 cause prolonged
hypertension
guinea pig in vivo. However, they are vasoconstrictor in guinea pig skin in vivo and in guinea pig hearts in vitro, LTC4 being the most active. LTD4 is more active than LTC4 in causing exudation of plasma in guinea pig skin. FPL 55712 does not antagonise LTB4 but antagonises actions of LTC4 and D4 on GPI, and guinea pig parenchyma. FPL 55712 does not completely antagonise LTD4 in guinea pig heart or parenchyma from human, rabbit or rat lung. The actions of leukotrienes suggest they may contribute to the signs and symptoms of respiratory diseases such as asthma.
...
PMID:Pharmacology and biochemistry of the leukotrienes. 695 94
We studied vascular sodium pump activity and its regulation by vasoactive agents and endothelium in cultured aortic vascular smooth muscle cells from normotensive Wistar-Kyoto rats (WKY) and spontaneously hypertensive rats (SHR). Baseline sodium pump activity (ouabain-inhibitable 86Rb+ uptake) was similar in cells from both rat strains. Angiotensin II and endothelin-1 increased ouabain-inhibitable 86Rb+ uptake more in SHR than WKY cells, whereas no effects were obtained with sodium nitroprusside, 8-bromo-cGMP, or iloprost. We examined the influence of endothelium on vascular sodium pump activity either by coculturing smooth muscle and endothelial cells or by using conditioned medium. Both coculture for 24 hours with endothelial cells and treatment with conditioned medium increased smooth muscle cell sodium pump activity, this effect being higher in SHR cells. These results suggest that the endothelium may modulate sodium pump activity in the underlying smooth muscle by releasing a diffusible compound, which is more active on SHR smooth muscle. The conditioned medium obtained in the presence of inhibitors of angiotensin-converting enzyme, endothelin-1-converting enzyme, cyclooxygenase,
lipoxygenase
, and nitric oxide synthase had no effect on the ability of conditioned medium to increase sodium pump activity, suggesting that angiotensin II, endothelin-1, eicosanoids, and nitric oxide are not involved in this stimulatory effect. The nature of the possible endothelial factor involved is still unknown, but it possesses a molecular weight between 25 and 50 kD, is heat stable, and is sensitive to trypsin treatment. We propose it could be a growth factor.
Hypertension
1995 Jul
PMID:Endothelial stimulation of sodium pump in cultured vascular smooth muscle. 760 21
Vasoconstrictive peptides and prostanoids have been implicated in the pathogenesis of
hypertension
and vasospasm. Recently, we have shown that human cerebromicrovascular endothelium [human brain endothelial cells (HBEC)] constitutively produces both endothelin-1 (ET-1) and prostanoids. The vasoactive peptides, arginine vasopressin (AVP) or angiotensin II (ANG II), stimulated secretion of both immunoreactive ET-1 and prostanoids from HBEC by a receptor-mediated induction of phospholipase C (PLC) and PLA2. The release of constitutive or AVP- or ANG II-induced ET-1 occurred at different rates during the 24-h incubation of HBEC in serum-free medium. The temporal profile of AVP-stimulated production of prostanoids differed from that of ANG II. AVP-induced release of prostaglandin D2 (PGD2) persisted for 24 h, whereas ANG II-stimulated PGD2 was only seen during the first 4 h of incubation. ANG II maximally stimulated PGI2 secretion during the 4- to 8-h interval, whereas AVP did not stimulate PGI2 secretion. Dexamethasone (Dxm), indomethacin (Indo), and nordihydroguaiaretic acid, the respective inhibitors of PLA2-cyclooxygenase II, cyclooxygenase, and
lipoxygenase
, increased both constitutive and AVP- or ANG II-stimulated secretion of ET-1. Dxm also decreased AVP- or ANG II-stimulated production of PGD2 and PGF2 alpha. These results indicate an interrelationship between HBEC production of ET-1 and prostanoids, which may play a role in regulating cerebral microcirculation.
...
PMID:Vasoconstrictive peptides induce endothelin-1 and prostanoids in human cerebromicrovascular endothelium. 816 28
Bradykinin-induced relaxation of precontracted, porcine coronary artery (PCA) rings is mediated by distinctly different endothelium-derived relaxing factors depending on the contractile agent used. Thus when contracted with KCl, bradykinin-induced relaxation of PCA rings is mediated solely by nitric oxide (NO), whereas when contracted with the thromboxane mimetic U46619, a small component of the relaxation is attributable to NO and a large component is attributable to a non-NO mechanism that is independent of cyclooxygenase activity. We hypothesized that the non-NO component was mediated by arachidonic acid (AA) or by a non-cyclooxygenase product of AA metabolism. Bradykinin-induced relaxations of PCA rings precontracted with U46619 in the presence of indomethacin (10 mumol/L) were moderately attenuated by the NO synthase inhibitor N omega-nitro-L-arginine methyl ester (L-NAME, 100 mumol/L), whereas when precontracted with KCl, L-NAME abolished the relaxations. AA produced endothelium-dependent relaxations of rings precontracted with U46619 that were unaffected by L-NAME, whereas AA did not relax rings precontracted with KCl. In rings precontracted with U46619, in the presence of L-NAME and indomethacin the phospholipase inhibitors quinacrine (50 mumol/L) and 4-bromophenacyl bromide (10 mumol/L) attenuated bradykinin- but not AA-induced relaxations. Inhibitors of both
lipoxygenase
(BW 755c [100 mumol/L] and nafazatrom [20 mumol/L]) and cytochrome P-450 (proadifen [10 mumol/L] and clotrimazole [10 mumol/L]) pathways did not eliminate bradykinin- or AA-induced relaxations, although clotrimazole partially attenuated AA-induced relaxations. These findings suggest that bradykinin-induced relaxation of PCA rings is mediated by AA through a mechanism that is not dependent on cyclooxygenase,
lipoxygenase
, or cytochrome P-450 pathways.
Hypertension
1994 Jun
PMID:Relaxation of porcine coronary artery to bradykinin. Role of arachidonic acid. 820 38
The 12-lipoxygenase pathway is a key mediator of angiotensin II (Ang II)-induced effects in the adrenal cortex. We also recently demonstrated that Ang II increases 12- and 15-lipoxygenase product levels in vascular smooth muscle cells. However, the relation between
lipoxygenase
activation and Ang II-induced vascular smooth muscle cell hypertrophy is not known. We studied the effects of Ang II and 12-lipoxygenase products on both total cell protein content and the levels of the matrix protein fibronectin in quiescent porcine aortic smooth muscle cells. Ang II-induced increases in cellular protein content were attenuated by the specific 12-lipoxygenase inhibitor baicalein; in contrast, the cyclooxygenase inhibitor ibuprofen had no effect. Direct addition of the 12-lipoxygenase product 12-S-hydroxyeicosatetraenoic acid increased total cell protein content. We have recently shown that porcine vascular smooth muscle cell growth is potentiated in high glucose (25 mmol/L) culture conditions. We observed that both Ang II and 12-S-hydroxyeicosatetraenoic acid induced a greater increase in protein content in cells cultured for two passages in high glucose. Furthermore, Ang II and 12-S-hydroxyeicosatetraenoic acid also markedly increased fibronectin levels in cells cultured in high glucose. These results suggest that 12-lipoxygenase activation plays a key role in Ang II-induced vascular smooth muscle cell hypertrophy. Furthermore, both Ang II and
lipoxygenase
effects are enhanced in cells cultured under hyperglycemic conditions.
Hypertension
1994 Jan
PMID:Role of the lipoxygenase pathway in angiotensin II-induced vascular smooth muscle cell hypertrophy. 828 45
We tested the hypothesis that a prostanoid-mediated mechanism of vascular contraction is expressed in rats with aortic coarctation-induced
hypertension
. Rings of descending thoracic aorta taken from normotensive and hypertensive rats were contrasted in terms of constrictor responsiveness to arachidonic acid (AA), AA-induced release of eicosanoids, and ability to convert exogenous prostaglandin (PG) H2 to PGI2. AA (10(-8) to 10(-5) mol/L) increased isometric tension in aortic rings (bathed in Krebs' bicarbonate buffer) of hypertensive but not normotensive rats. AA (10(-5) mol/L) also elicited the release of PGI2, PGE2, thromboxane (TX) A2, and monohydroxyeicosatetraenoic acids (HETEs); this release from the aortic rings of hypertensive rats exceeded the corresponding release from the aortic rings of normotensive rats. However, the rate of conversion of exogenous PGH2 to PGI2 by aortic rings of hypertensive rats was < 50% the rate of conversion by aortic rings of normotensive rats. The constrictor effect of AA in aortic rings of hypertensive rats was abolished by an inhibitor of cyclooxygenase (indomethacin, 10 mumol/L) and a blocker of TXA2-PGH2 receptors (SQ29548, 1 mumol/L) but was not affected by an inhibitor of TXA2 synthesis (CGS13080, 10 mumol/L), suggesting mediation by PGH2. The
lipoxygenase
inhibitor baicalein (75 mumol/L) also attenuated the constrictor effect of AA in aortic rings of hypertensive rats while decreasing the associated release of HETEs and correcting the impairment in the conversion of PGH2 to PGI2.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Expression of prostaglandin H2-mediated mechanism of vascular contraction in hypertensive rats. Relation to lipoxygenase and prostacyclin synthase activities. 829 59
Previous studies from our laboratory indicated that the
lipoxygenase
inhibitor phenidone markedly attenuates angiotensin II (AII) induced vascular contractility. Phenidone was also shown to inhibit the formation of vascular
lipoxygenase
products and to reduce blood pressure in the AII-dependent renovascular hypertensive rat. We have now examined the effects of phenidone in the spontaneously hypertensive rat (SHR). A single dose of phenidone lowered intraarterial systolic pressure in a dose dependent manner in both SHR and Wistar-Kyoto (WKY) [(max 74 +/- 15 and 22 +/- 3 mm Hg, respectively; P < .001)], but the effect was substantially greater in SHR. Long-term oral phenidone administration arrested the evolution of
hypertension
in 6 week old SHR treated over a period of 4 weeks (control 190 +/- 2 mm Hg; phenidone treated rats 164 +/- 4 mm Hg; P < .01). To assess the role of AII related mechanisms in the hypotensive effect of phenidone, the acute effect was studied in SHR on high and low sodium intake. In addition, the effect of captopril was compared to that of phenidone alone or captopril and phenidone in salt restricted SHR. While a single dose of phenidone (30 mg/kg, intraperitoneally) elicited similar maximal effects in SHR on high and low sodium intake (54 +/- 6 and 52 +/- 5 mm Hg compared to basal blood pressure, respectively), the hypotensive effect in sodium restricted rats was more sustained. Phenidone had no further hypotensive effect in captopril treated, salt restricted SHR.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:The lipoxygenase inhibitor phenidone is a potent hypotensive agent in the spontaneously hypertensive rat. 842 62
Epidermal growth factor (EGF) is not only a cell mitogen but a potent vasoconstrictor that shares many properties with angiotensin II. Because EGF is localized in the kidney, we have studied the direct effects of EGF on renin secretion using both static incubations and perifusions of rat renal cortical slices. EGF at 5 x 10(-9) M significantly inhibited renin secretion in static incubations (control, 100 +/- 3%; EGF, 72 +/- 3%; p < 0.001). When added to perifusions, EGF acted rapidly, reducing renin secretion at the earliest time period (10 minutes). Similarly, transforming growth factor-alpha, which can bind to the EGF receptor, also inhibited renin secretion (control, 92 +/- 8%; transforming growth factor-alpha [2 x 10(-9) M], 63 +/- 4%; p < 0.02). Because both prostaglandins and
lipoxygenase
products of arachidonic acid have been shown to play a role in some EGF-mediated actions, we examined these possible mechanisms of EGF action. Meclofenamate, a cyclooxygenase blocker, and BW755c and baicalein, both
lipoxygenase
blockers, were studied. None of these agents altered EGF-mediated renin inhibition. EGF action has also been coupled to the stimulation of tyrosine kinase activity; therefore, we examined the effects of the tyrosine kinase inhibitors genistein and quercetin. Both genistein (10(-5) M) and quercetin (10(-5) M) abolished the inhibition of renin by EGF (control, 100 +/- 3%; EGF, 82 +/- 4%; EGF plus genistein, 110 +/- 7%; p < 0.01; EGF, 75 +/- 4%; EGF plus quercetin, 92 +/- 4%; p < 0.01).(ABSTRACT TRUNCATED AT 250 WORDS)
Hypertension
1993 May
PMID:Epidermal growth factor is a potent inhibitor of renin secretion. 849
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