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: UMLS:C0004135 (ATM)
13,001 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Previous studies have shown that sodium depletion is associated with an increase in renal kallikrein-kinin system activity. This system may play an important role in counterbalancing the renal effects of the renin-angiotensin system. In this study, we examined whether the renal renin-angiotensin system participates in the regulation of renal bradykinin (BK) levels during sodium depletion. We measured changes in renal excretory and hemodynamic function, renal interstitial fluid (RIF) BK, and RIF and urinary guanosine 3',5'-cyclic monophosphate (cGMP) and prostaglandin E2 (PGE2) in conscious uninephrectomized dogs (n = 5) in sodium metabolic balance (10 meq/day) in response to intrarenal arterial administration of the renin inhibitor ACRIP (0.2 microgram.kg-1.min-1) or angiotensin II AT1-receptor blocker losartan (100 ng.kg-1.min-1). ACRIP and losartan increased urine flow rate from 0.75 +/- 0.06 to 1.6 +/- 0.03 and 1.5 +/- 0.05 ml/min, respectively (each P < 0.001), and urine sodium excretion from 5.4 +/- 0.7 to 18.3 +/- 1.3 and 15.9 +/- 1.2 meq/min, respectively (each P < 0.001). Glomerular filtration rate and renal plasma flow increased only during losartan administration (P < 0.05). ACRIP decreased RIF BK by 48%, from 33.1 +/- 3.8 to 17.4 +/- 4.1 pg/min (P < 0.01). ACRIP decreased RIF cGMP by 38%, from 0.69 +/- 0.08 to 0.43 +/- 0.1 pmol/min (P < 0.01); urinary cGMP by 16%, from 0.63 +/- 0.05 to 0.53 +/- 0.02 pmol/min (P < 0.05); and RIF PGE2 by 46%, from 10.5 +/- 1.1 to 5.7 +/- 1.1 pg/min (P < 0.01). Urinary PGE2 was unchanged by ACRIP. Losartan decreased RIF PGE2 by 71%, from 10.8 +/- 0.6 to 3.1 +/- 0.6 pg/min (P < 0.01) but failed to change RIF BK, RIF cGMP, urinary cGMP, or urinary PGE2. These data suggest that the renin-angiotensin system tonically stimulates renal BK production and cGMP formation via a non-AT1 angiotensin receptor and renal PGE2 production via the AT1 receptor.
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PMID:Renin-angiotensin system modulates renal bradykinin production. 889 5

Within the past two decades, a great deal has been learnt about the renin-angiotensin system in the brain. The renin-angiotensin system is one of the best-studied enzyme-neuropeptide systems in the brain. The diversity of localization of this peptide throughout the brain has implied a variety of potential functions. Besides its classical role in the regulation of blood pressure and body-fluid homeostasis, it has more subtle functions involving complex mechanisms such as learning and memory. The profound effects on behaviour produced by angiotensin are of broad interest to neuroscientists. The mechanisms of action differ depending on whether angiotensin is locally synthesized and whether regulation is governed by neural or metabolic inputs impinging on the neurones. Its central action is mediated through peptidergic receptors present on neurones. The description of the receptor subtypes AT1 and AT2 for angiotensin II and the development of non-peptidic specific angiotensin receptor subtype antagonists have opened a new area in this field of research. The AT1 site, which preferentially binds to angiotensin II and angiotensin III, appears to mediate the classical angiotensin functions concerned with maintenance of blood pressure and body-fluid control. In addition, most of the behavioural effects described so far are linked with AT1, although so-called psychotropic effects are presumed to be mediated by receptor systems other than the known specific angiotensin receptors. In fact, evidence for the existence of such receptors with high-affinity binding has been reported. The central action of angiotensin II mediated by AT2 is as yet unclear. Most reports concerning this receptor subtype suggest a role in differentiation and development, since the number of binding sites is higher in fetal and young rats than in adults. Furthermore, the neuronal effect of angiotensin II in the inferior olivary nucleus which is blocked specifically by AT2 antagonists suggests an involvement in motor control. Over the next few years we should find answers to many of the questions currently unanswered about angiotensin function and, given the rapid progress in research on this neuropeptide, it may serve as a model for the action of peptides on neuronal function in general.
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PMID:The neuronal role of angiotensin II in thirst, sodium appetite, cognition and memory. 892 99

We evaluated possible interactions between angiotensin II (AII) or angiotensin III (AIII) and the alpha-2 adrenoceptors of the nucleus reticularis gigantocellularis (NRGC) in the medulla oblongata that are involved in cardiovascular regulation and antinociception, as well as the angiotensin receptor subtypes involved, using Sprague-Dawley rats that were anesthetized with pentobarbital sodium. The efficacy of guanabenz, which acts on the alpha-2 adrenoceptors in the NRGC to elicit hypotension, bradycardia and antinociception, based on tail-flick responses to noxious thermal stimuli (50 degrees C), was used as our experimental index. Bilateral microinjection of AII or AIII into the NRGC, at equimolar doses (40 pmol) that did not alter base-line systemic arterial pressure, heart rate or tail-flick latency, significantly and site-specifically attenuated the cardiovascular suppression elicited by guanabenz (100 micrograms/kg i.v.). This attenuation was appreciably antagonized by coadministration of the AT2 receptor antagonist PD-123319 (1.6 nmol). Concomitant examination of tail-flick responses revealed discernible inhibition by AII (40 pmol), but potentiation by AIII (40 pmol), of guanabenz-induced antinociception. These differential modulating effects of AII and AIII were, however, antagonized by comicroinjection of losartan (1.6 nmol) into the bilateral NRGC. Our results suggest that both AII and AIII produced a reduction, via AT2 receptors, of the activity of alpha-2 adrenoceptors in the NRGC that are involved in central cardiovascular regulation. On the other hand, antinociception induced by activation of alpha-2 adrenoceptors in the NRGC was suppressed by AII and potentiated by AIII, although AT1 receptors may play a major role in both interactions.
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PMID:Participation of AT1 and AT2 receptors in the differential interaction between angiotensin II or III and alpha-2 adrenoceptors in the nucleus reticularis gigantocellularis in cardiovascular regulation and antinociception in rats. 893 Jan 86

The effects of chronic treatment with the specific AT1 angiotensin receptor antagonist, irbesartan, or the angiotensin converting enzyme inhibitor, enalapril, were assessed in uninephrectomized fawn-hooded hypertensive rats (FHH) and compared with vehicle treatment. Three days after uninephrectomy, irbesartan (240 mg/liter), enalapril (80 mg/liter) or vehicle were administered via the drinking water. Systolic blood pressure (SBP) and protein excretion rates (UprotV) were determined monthly. In rats receiving irbesartan (N = 7) and enalapril (N = 6) SBP (132 +/- 3 mm Hg and 133 +/- 6, respectively) was essentially normalized at 12 weeks when compared with vehicle (169 +/- 6 mm Hg (N = 6); all comparisons were P < 0.05 by ANOVA). Similarly, proteinuria was lower in irbesartan (44 +/- 12 mg/day) and enalapril (19 +/- 2) groups versus vehicle (123 +/- 10 mg/day). Treatment with both drugs was associated with marked reduction in glomerulosclerosis at 12 weeks (both < 5% vs. vehicle, 43 +/- 9%) without effect on glomerular volume. In identically prepared rats, glomerular capillary hydraulic pressure (PGC, estimated from stop-flow pressure, Psf) was lower in FHH receiving irbesartan (58 +/- 1 mm Hg, N = 6) or enalapril (54 +/- 2, N = 6) than in vehicle-treated rats, in whom PGC was greatly elevated (68 +/- 2 mm Hg; N = 7). Despite this, GFR and single nephron GFR were well maintained. These data support a critical role for AT1 receptor-mediated, angiotensin-dependent processes in the pathogenesis of hypertension in FHH, and further implicate elevated PGC as a major determinant of glomerular injury in this model.
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PMID:The angiotensin receptor antagonist, irbesartan, reduces renal injury in experimental chronic renal failure. 894 34

Angiotensin II is a hormone with long known cardiovascular actions. Recent studies revealed an additional role for angiotensin II in the regulation of cell proliferation. This study was performed to clarify whether skin is a target organ for these novel angiotensin actions. Radioligand binding studies identified a high-affinity angiotensin receptor on human primary keratinocytes in vitro with a Kd of 4.5 nM and a Bmax of 0.12 nM. Competition experiments with losartan and PD 123177 revealed that this receptor was not of the AT1- nor the AT2-subtype. Stimulation of human keratinocytes with angiotensin II (10(-10) to 10(-5) M) led to a dose dependent increase in 3H-thymidine incorporation, indicating that the keratinocyte receptor mediates a mitogenic effect. This effect is comparable at 10(-9) M to stimulation of keratinocytes by EGF (50ng/ml) and FGF (50ng/ml). These results demonstrate for the first time a possible physiological role for angiotensin II in human skin involving the regulation of keratinocyte proliferation.
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PMID:Angiotensin II stimulates proliferation of primary human keratinocytes via a non-AT1, non-AT2 angiotensin receptor. 895 27

Angiotensin receptors have been described in the human heart and are suspected to play a central role in remodeling after myocardial infarction and in cardiac hypertrophy. Two subtypes, AT1 and AT2, have so far been described in humans, with AT2 being the dominant subtype in human atria. We have now determined subtype numbers and distribution by binding in ventricular myocardium from patients with end-stage heart failure. We found about 50-80% of subtype AT2 in the right and left ventricles from patients with end-stage heart failure due to coronary artery disease and cardiomyopathy, indicating that AT2 is the dominant angiotensin receptor subtype in the whole human heart. To determine the cellular localization of angiotensin receptors in human myocardium in addition to the known localization on myocytes, smooth muscle cells and endothelial cells, we investigated cardiac fibroblasts. They express an angiotensin receptor with yet incompletely understood binding characteristics which is coupled to proliferation and DNA synthesis. As AT2 is the dominant angiotensin receptor subtype in human heart, we cloned the complete mRNA sequence by a rapid amplification of cDNA ends (RACE) procedure and thereafter the promoter sequence from a human genomic library. Once the sequence of the mRNA and thus exon 1 was obtained by the RACE-PCR, a probe was constructed for the most 5' region of exon 1 and used for screening of a human genomic DNA bank. After cutting of the positive clones with EcoR1 and Not1, a 4000 bp fragment hybridized with the probe and was further sequenced. A functional AT2 promoter, with > 90% homology with the mouse promoter and 35% homology with the human AT1 promoter containing numerous cis-acting sequences for basal (TFIID) and inducible (AP-1, PEA-3, CBF) transcription factors in the first 1000 bp was identified.
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PMID:Subtype 2 and atypical angiotensin receptors in the human heart. 895 48

Angiotensin II (Ang II) may regulate the release of components of the renin-angiotensin system in a tissue-specific manner. In order to study: (1) the effect of Ang II on gene expression and tissue levels of angiotensin-converting enzyme (ACE), and (2) the mechanism of the possible Ang II effect, we treated normal rats with Ang II and Losartan, an angiotensin AT1-receptor antagonist. Forty normal rats received Ang II (n = 20) at a rate of 200 ng kg-1 min-1 or 0.9% NaCl (n = 20) subcutaneously for 3 days using osmotic Alzet minipumps. Ten rats in both groups received Losartan (15 mg kg-1 day-1) in their drinking water, while the rest received tap water. ACE activity and mRNA levels were measured from pulmonary, cardiac, and renal tissue. Ang II treatment resulted in significant increases in blood pressure and heart weight as well as an increase in plasma Ang II concentration and a decrease in plasma renin activity. Simultaneous treatment with Losartan reduced the Ang II-induced effects on blood pressure and heart weight, and attenuated the Ang II-induced decrease in plasma renin activity. Pulmonary ACE activity and mRNA levels decreased during Ang II treatment, and these effects were not modified by simultaneous treatment with Losartan. Cardiac and kidney ACE activities and mRNA levels did not change significantly during Ang II treatment, but Losartan increased cardiac ACE activity (and decreased pulmonary ACE activity). The data indicate that Ang II regulates gene expression and activity of ACE in a tissue-specific manner in the rat, an effect probably involving angiotensin receptor subtype(s) different from the AT1-receptor.
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PMID:Tissue-specific regulation of angiotensin-converting enzyme by angiotensin II and losartan in the rat. 897 55

Volume expansion has been shown to increase plasma atrial natriuretic peptide (ANP) levels, but the precise role of paracrine and autocrine factors in stretch-induced cardiac hormone release is not clear. In the present study, we report the effects of endothelin (ET) and angiotensin receptor (AT receptor) antagonists on baseline and atrial stretch-induced immunoreactive ANP (IR-ANP) and immunoreactive N-terminal ANP (IR-NT-ANP) release in vivo by using BQ-123 (ETA receptor antagonist), bosentan (ETA and ETB receptor antagonist), and losartan (AT1 receptor antagonist). Intravenous administration of BQ-123 had no significant effect on baseline hemodynamics in conscious rats, whereas bosentan (10 mg/kg) and losartan (10 mg/kg) decreased slightly (4 to 7 mm Hg, P < .05 to .001) the mean arterial pressure. Both the ETA receptor antagonist BQ-123 and ETA/ETB receptor antagonist bosentan decreased plasma ANP and NT-ANP responses to volume load (P < .05 to .001), whereas the AT1 receptor antagonist losartan had no significant effect on this response. The relative increase in plasma IR-ANP corresponding to a 3 mm Hg increase in right atrial pressure was 2.7-fold in the vehicle-treated group. BQ-123 (0.3 and 1.0 mg/kg) decreased this response 2.5- and 2.1-fold (P < .05); bosentan (3 and 10 mg/kg), 1.7-fold (P < .001) and 1.9-fold (P < .05); and bosentan (10 mg/kg)+losartan (10 mg/kg), 1.6-fold (P < .001). The responses in plasma IR-NT-ANP decreased simultaneously. These results indicate that combined inhibition of ETA/B and AT1 receptors almost completely blocks ANP response to acute volume load. Therefore, our study shows that endogenous paracrine and/or autocrine factors liberated in response to atrial wall stretch rather than myocyte stretch itself are responsible for the activation of ANP peptide secretion in response to acute volume load. Our results also show that ETA receptors are more important in the regulation of mechanical stretch-induced changes in cardiac hormone secretion than AT1 receptors.
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PMID:Combined inhibition of endothelin and angiotensin II receptors blocks volume load-induced cardiac hormone release. 897 30

In the current model of receptor activation, the given hormone is not involved in the conversion of the inactive receptor (R) to the fully active state (R*). Rather, it preferentially selects the activated receptor conformation, thereby shifting the equilibrium toward R*. The hormone angiotensin II (Ang II) contains two residues, Tyr4 and Phe8, that are essential for agonism. We show that the conserved Asn111 in transmembrane helix III of the AT1 angiotensin receptor directly interacts with the Tyr4 side chain. A decrease in the size of the Asn111 side chain induces an intermediate activated receptor conformation (R'). The Ang II analogue [Sar1,Ile4,Ile8]Ang II fully activates the N111G mutant, indicating that either the transition from R' to R* or the stabilization of the R* state requires binding by Ang II but not its Tyr4 and Phe8 side chains. In contrast, [Sar1,Ile4,Ile8]Ang II binds to but does not activate the wild-type AT1 receptor (R), suggesting that in the wild-type receptor spontaneous occurrence of R' and R* states is rare. Thus, Ang II through interactions involving Tyr4 and Phe8 induces a transition from R to R' and through unspecified interactions induces transition from R' to R* states rather than stabilizing the spontaneously generated R* state by "conformational, selection".
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PMID:The active state of the AT1 angiotensin receptor is generated by angiotensin II induction. 898 75

1. The availability of orally active specific angiotensin receptor antagonists (AT1 antagonists) has opened new therapeutic choices and provided probes to test the specific role of the renin-angiotensin system in the pathogenesis of cardiovascular disease. 2. The data available so far suggest that the antihypertensive efficacy of angiotensin receptor antagonists is comparable to that of angiotensin-converting enzyme (ACE) inhibitors. This provides further evidence that this latter class of drugs exerts its effect mainly through blockade of the renin-angiotensin enzymatic cascade. As expected, the association of a diuretic exerts an equally strong additive effect to the antihypertensive efficacy of both classes of drugs. 3. The most common side effect of ACE inhibitors, dry cough, does not occur with AT1 antagonists, which confirms the long-held view that this untoward effect of the ACE inhibitors is due to renin-angiotensin-independent mechanisms. 4. Long-term studies with morbidity/mortality outcome results are needed, before a definite position can be assigned to this newcomer in the orchestra of modern antihypertensive drugs. Notwithstanding, this new class of agents already represents an exciting new addition to our therapeutic armamentarium.
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PMID:Experience with angiotensin II antagonists in hypertensive patients. 899 54


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