Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:3.4.23.15 (renin)
35,795 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The arachidonic acid metabolite 12-hydroxyeicosatetraenoic acid (12-HETE) inhibits renin secretion both in vivo and in vitro, but the enzymatic origin of the 12-HETE responsible for renin inhibition is unknown. These studies examined the effect of the 12-HETE stereoisomers (R)-12-HETE (a product of the cytochrome P-450 monooxygenase enzyme system) and (S)-12-HETE (a product of the lipoxygenase enzyme system) on basal and stimulated renin secretion from superficial cortical slices in the rat. First, rat cortex was shown to produce 12-HETE; chiral-phase high-performance liquid chromatography revealed that cortex produced 81% (S)-12-HETE and 19% (R)-12-HETE. (R)-12-HETE reduced basal renin release by 28 +/- 4% to 49 +/- 5% at concentrations of 10(-9) to 10(-7) M (P < 0.05 to 0.01). (S)-12-HETE did not significantly affect renin release. (R)-12-HETE also blunted isoproterenol-stimulated renin secretion (P < 0.05) at a concentration of 10(-6) M. 20-HETE, another cytochrome P-450 product, did not exert a significant effect on renin release. In summary, both (R)-12-HETE and (S)-12-HETE are synthesized by renal cortical tissue. Only (R)-12-HETE directly inhibits in vitro renin release. These findings suggest that the renal cytochrome P-450 enzyme system is capable of directly influencing local renin secretion.
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PMID:Inhibition of renin secretion from rat renal cortical slices by (R)-12-HETE. 141 38

In addition to cyclooxygenase and lipoxygenase, arachidonic acid (AA) is metabolized by the cytochrome P-450 monooxygenase system. The kidney is one of the major extrahepatic tissues that display cytochrome P-450 enzyme activities, in particular the cortex, specifically the proximal tubule demonstrate the highest concentration. AA is metabolized by the renal cytochrome P-450 epoxygenase and omega/omega 1 hydroxylases to epoxyeicosatrienoic acids and omega/omega-1 alcohols (20- and 19-mono-hydroxyeicosatetraenoic acids), respectively. These metabolites possess a broad spectrum of biological and renal effects which include: vasodilation, vasoconstriction, inhibition and stimulation of Na(+)-K(+)-ATPase, inhibition of ion transport mechanisms, natriuresis, inhibition of renin release and stimulation of cell growth. These metabolites are endogenous constituents of the kidney and are present in urine with increasing concentration under pathological conditions such as pregnancy-induced hypertension. The cytochrome P-450-dependent metabolism of AA is specifically localized to the proximal tubule and exhibits developmental changes, i.e., renal production of metabolites is very low in the fetus, newborn and up to 3 weeks of age, after which a remarkable increase in enzyme activities is observed. These characteristics call attention to the importance of this enzyme system in producing cellular mediators for regulating renal function in normal and diseased states.
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PMID:The renal cytochrome P-450 arachidonic acid system. 145 35

The peptide hormone angiotensin-II (AII) is a potent vasoconstrictor and major regulator of aldosterone synthesis. In addition, AII also has growth-promoting effects. We have recently shown that the lipoxygenase (LO) pathway of arachidonic acid plays a major role in AII-induced aldosterone synthesis in adrenal glomerulosa cells. The LO pathway is also involved in the vasopressor and renin-inhibitory effects of AII. However, the role of LO products in AII-induced mitogenic effects have not yet been investigated. In the present studies we have evaluated the role of the LO pathway in AII-induced proliferative responses in a bovine adrenocortical cell clone termed AC1 cells. In addition, the potential receptor type and mechanism of AII-induced proliferation was studied by evaluating the effect of specific nonpeptide type 1 and type 2 AII receptor antagonists and the role of protein kinase-C (PKC). AII-induced DNA synthesis was significantly attenuated by two structurally dissimilar LO inhibitors, baicalein and phenidone. In addition, the LO product 12-hydroxyeicosatetraenoic acid (12-HETE) itself caused a significant increase in DNA synthesis, suggesting that the 12-LO pathway in part plays a role in AII-mediated mitogenesis. AII-induced proliferative responses were blocked by the type 1 AII receptor antagonist. Both AII- and 12-HETE-induced increases in DNA synthesis were markedly inhibited by two PKC blockers, staurosporine and sangivamycin. Further, both AII and 12-HETE could activate PKC by translocating it from the cytosol to the membrane fraction, as determined by Western immunoblotting. These results suggest that both 12-LO activation and protein kinase-C have an important role in AII-induced adrenal cell proliferation.
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PMID:Mechanism of angiotensin II-induced proliferation in bovine adrenocortical cells. 150 59

The present study examined whether the dual cyclooxygenase/lipoxygenase inhibitor phenidone would protect stroke-prone spontaneously hypertensive rats (SHRSP) from stroke and hypertensive renal disease. Vehicle-treated SHRSP (N = 6), fed stroke-prone rodent diet and 1% saline, exhibited severe systolic blood pressure elevation (261 +/- 10 mm Hg, mean +/- SEM), marked proteinuria (90 +/- 12 mg/day), and stroke, with an average age at death of 14 +/- 1 weeks. In a second group of six saline-loaded SHRSP, treatment with phenidone (60 mg/kg/day) was started at 8.4 weeks of age. Despite establishment of severe hypertension in this group (274 +/- 10 mm Hg), proteinuria remained at basal levels (28 +/- 13 mg/day), and signs of stroke were absent (P less than .01 v vehicle) through at least 16 weeks of age. Phenidone treatment also prevented the declines in body weight and food intake observed in vehicle-treated SHRSP, and maintained urine volume and saline intake. Serum 12-hydroxy-eicosatetraenoic acid (12-HETE) generation was significantly inhibited greater than 50% in incubates of whole blood from phenidone-treated SHRSP. We have previously shown that agents which interfere with the renin-angiotensin system afford protection from renal and cerebrovascular injury in saline-loaded SHRSP; cyclooxygenase inhibition alone will hasten the onset of these pathologic changes. Whether phenidone, which has been reported to attenuate angiotensin II-mediated effects, affords vascular protection by interference with a lipoxygenase-mediated action of angiotensin II remains to be elucidated.
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PMID:The lipoxygenase inhibitor phenidone protects against proteinuria and stroke in stroke-prone spontaneously hypertensive rats. 155 Jun 66

Previous studies have shown that inhibition of the lipoxygenase pathway of arachidonic acid metabolism can prevent the development of elevated blood pressure in renin-dependent models of hypertension. Agents that inhibit the lipoxygenase pathway such as phenidone and the flavonoid baicalein can selectively attenuate contractile responses to angiotensin II in vivo as well as in isolated vascular tissue. In the present study, the effects of lipoxygenase inhibitors on pressor-induced changes in cytosolic calcium were examined in cultured rat vascular smooth muscle cells using the fluorescent dye fura-2. Two structurally unrelated lipoxygenase inhibitors, baicalein and 5,8,11-eicosatriynoic acid, attenuated angiotensin II-stimulated increases in cytosolic calcium in both normal and calcium-poor buffer. The addition of 5-, 12-, or 15(S)-hydroxyeicosatetraenoic acid alone to the cells had no acute effect on intracellular calcium concentration. However, the addition of 12(S)-hydroxyeicosatetraenoic acid but not 5- or 15(S)-hydroxyeicosatetraenoic acid restored the initial calcium response to angiotensin II in vascular smooth muscle cells pretreated with both inhibitors; 5,8,11-eicosatriynoic acid also reduced [Arg8]-vasopressin and endothelin-stimulated increases in intracellular calcium. The attenuation of vasopressor-induced calcium transients by agents that inhibit lipoxygenase may explain their observed hypotensive effects in vivo. Moreover, lipoxygenase products, in particular 12(S)-hydroxyeicosatetraenoic acid, may act as mediators for the intracellular actions of angiotensin II and possibly other pressor hormones in vascular tissue by regulation of intracellular calcium metabolism.
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PMID:12-Lipoxygenase products modulate calcium signals in vascular smooth muscle cells. 163 55

In isolated human or rat glomeruli, arachidonic acid can be metabolized by the cyclooxygenase pathway to prostaglandins or by the lipoxygenase pathway to hydroxyeicosatetraenoic acids (HETES). We have recently shown that 12-lipoxygenase products are potent inhibitors of renin release. Since prostacyclin (PGI2) is a potential renin secretagogue, we studied the direct effects of 12-lipoxygenase products on prostacyclin-induced renin secretion. Treatment of rat renal cortical slices with picomolar concentrations of 12-hydroperoxyeicosatetraenoic acid (12-HPETE) and 12-HETE blocked the prostacyclin- or iloprost (an analog of PGI2)-induced renin secretion. The inhibitory effects of 12-lipoxygenase products were not exhibited by the 5-lipoxygenase-derived products, leukotriene B4 and 5-HPETE. These results suggest that HETES are not only potent modulators of prostacyclin actions on renin, but that the concerted actions of these compounds in cells may be critical determinants of the juxtaglomerular cell secretion of renin.
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PMID:12-lipoxygenase products are potent inhibitors of prostacyclin-induced renin release. 169 30

Eicosanoids, especially prostaglandins and other arachidonic acid metabolites, play an important role in gestosis. Experimental and clinical evidence suggest prostacyclin deficiency, enhanced platelet reactivity and increased production of thromboxane A2 as possible reasons for gestosis. In addition, pathological interactions between cyclooxygenase-derived products and the renin-angiotensin- and kallikrein-kinin systems may exist and contribute to hypertension and reduced fetoplacental blood flow. Moreover, pregnancy-induced hypertension appears to be also related to lipoxygenase products and enhanced lipid peroxidation. In general, little is known about the regulation of arachidonic acid metabolism in gestosis. It is also unknown whether altered activities of mediators and hormones are cause or effect of pregnancy-induced hypertension. This is particularly relevant to the site of eicosanoid formation, i.e. platelets, the trophoblast or endothelial cells. At this time, it is not possible to give therapeutical recommendations, which are specifically designed to correct changes in eicosanoid production in gestosis. Antihypertensive therapy alone is insufficient, particularly with regard to the fetal situation. Preventive treatment with low-dose acetylsalicylic acid may have a protective effect against pregnancy-induced hypertension. Presently, more selective antagonists of thromboxane generation and/or action are being developed and might provide fresh insights both into the pathology of the disease and improved drug treatment.
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PMID:[The significance of eicosanoids in gestosis]. 212 6

To assess the potential role of the lipoxygenase (LO) pathway in the vasculature in an angiotensin II (ANG II)-dependent model of hypertension, we investigated the effect of LO pathway inhibition on blood pressure in the two-kidney, one-clip (2K,1C) Goldblatt hypertensive rat. The development of renovascular hypertension in 2K,1C rats was attenuated by oral administration of phenidone (Phe, 60 mg.kg-1.day-1), a nonselective LO inhibitor, throughout the 3 wk of observation after renal artery constriction. In contrast, the same treatment protocol had no effect on the evolution of hypertension in the deoxycorticosterone acetate-salt rat, which is considered to be an ANG II-independent form of hypertension. The hypotensive effect of Phe was not associated with changes in plasma renin or aldosterone concentration (PRC and PAC, respectively). In vitro synthesis of 12-hydroxyeicosatetraenoic acid (12-HETE) by aortic segments was increased in 2K,1C hypertensive rats compared with sham-operated rats. In addition, the synthesis of 12-HETE was suppressed by the in vitro addition of Phe (10(-4) M) to aortic-segment incubates obtained from 2K,1C rats and sham-operated rats. Acute administration of Phe (30 or 60 mg/kg) in 2K,1C hypertensive rats produced a rapid and sustained decrease in mean blood pressure (MBP). This decrease in MBP was accompanied by a brisk rise in PRC and PAC. In contrast, bolus administration of indomethacin, a selective cyclooxygenase inhibitor, did not affect MBP, PRC, or PAC.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Inhibition of lipoxygenase pathway reduces blood pressure in renovascular hypertensive rats. 212 26

1. Changes in tension in response to cumulative additions of angiotensins (i.e., angiotensinogen, angiotensin I and angiotensin II), bradykinin and acetylcholine were monitored isometrically on ring preparations from porcine interlobar renal arteries. 2. Angiotensins consistently elicited contractile responses, whereas both bradykinin and acetylcholine produced relaxation of the arterial rings when active tone was induced by prostaglandin F2 alpha. 3. Contractile responses to angiotensin II could be completely blocked by the combined action of the cyclo-oxygenase inhibitor, indomethacin (1 microM) and the lipoxygenase inhibitor, nordihydroguairetic acid (NDGA, 10 microM). 4. Relaxant responses to bradykinin were unchanged during blockade of thromboxane A2 synthesis by dazoxiben (30 microM) and proved to be largely resistant to blockade by indomethacin (1 microM) and the prostaglandin I2 (prostacyclin) synthesis inhibitor, tranylcypromine (40 microM). 5. The angiotensin receptor blocker, saralasin (10 and 100 nM) antagonized responses to angiotensinogen, angiotensin I and angiotensin II effectively and with similar potency. Enalaprilic acid, the active metabolite of the converting enzyme inhibitor enalapril (300 nM), attenuated responses to angiotensin I but failed to inhibit those to angiotensinogen up to 1 microM. The serine protease kallikrein (0.001 to 1 mu ml-1) produced a dose-dependent shift to the left of the concentration-response curve for angiotensinogen. 6. It is suggested that the porcine interlobar renal artery possesses a local renin-angiotensin system with activatable angiotensin II forming enzyme(s) within the vessel wall.
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PMID:Pharmacological evidence for the existence of a local renin-angiotensin system in porcine interlobar renal arteries. 228 72

Angiotensin II (AII) action is coupled to the hydrolysis of phospholipids resulting in the formation of arachidonic acid, the precursor of both prostaglandins, and hydroxyeicosatetraenoic acids (HETEs). Since 12-HETE is not only a major arachidonate lipoxygenase (LO) product in the kidney, but is also a potent inhibitor of renin release, we studied the role of AII on renin inhibition and 12-HETE formation using rat renal cortical slices and isolated juxtaglomerular-like cells. In both preparations, 12-HETE was produced in a basal state. AII significantly inhibited renin release (control 100 +/- 3%, AII (10(8) M) 79 + 4%, P less than 0.01) and stimulated 12-HETE formation in slices (control 106 +/- 6%, AII 10(-8) M 177 +/- 18%, P less than 0.01) and in an enriched juxtaglomular cell preparation (control 96 +/- 3%, AII 10(-8) M 130 +/- 6%, P less than 0.001). A specific cyclooxygenase blocker, meclofenomate, or 5-LO blocker, U60,257, did not alter basal or AII-induced renin inhibition or 12-HETE formation by slices. The LO blockers BW755c, at 10(-5) M, or baicalein, 10(-6) M, did not significantly alter basal renin or 12-HETE levels, but BW755c at 10(-4) M, significantly stimulated basal renin (131 +/- 4%) and decreased basal 12-HETE levels (72 +/- 5%). However, both BW755c and baicalein blunted AII-induced renin inhibition (AII, 10(-8) M 70 +/- 3%, AII + BW755c, 10(-5) M 85 +/- 4%, P less than 0.02, AII + baicalein, 10(-6) M, 90 +/- 4%, P less than 0.005) and AII mediated 12-HETE formation (AII, 10(-8) M 150 +/- 5%, AII + BW755c, 10(-5) M 117 +/- 8%, P less than 0.02, AII + baicalein, 10(-6) M 110 +/- 3%, P less than 0.005). These results suggest that AII inhibition of renin is not mediated by the cyclooxygenase or 5-LO pathway, but rather by the 12-LO pathway. These findings reveal a new action for 12-LO products which may play a pivotal role in stimulus secretion coupling of renin secretion.
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PMID:A 12-lipoxygenase product of arachidonate metabolism is involved in angiotensin action on renin release. 250 88


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