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

The hydrolase aminopeptidase A is an important regulator of the renin-angiotensin system, since it inactivates its most vasoactive component angiotensin II (Ang II). A single i.v. injection of a monoclonal antibody against mouse aminopeptidase A (ASD-4) induces a membranous-like glomerulonephritis in mice, characterized by an acute albuminuria, that is not dependent on complement, the coagulation system, or inflammatory cells. We hypothesized that this albuminuria is the consequence of a reduction in aminopeptidase A enzyme activity, that might subsequently lead to an increase in Ang II levels. Aminopeptidase A enzyme activity was analysed in vitro by a fluorimetric enzyme assay and in vivo by enzyme histochemistry. The role of Ang II in the induction of albuminuria in this model was studied by measuring the renal aminopeptidase A mRNA expression in our model by a competitive PCR assay as an indirect measure of Ang II levels. In addition, the role of Ang II in this model was studied by preventing the formation of Ang II with the angiotensin-converting enzyme inhibitor enalapril or by blocking of the Ang II receptor with the AT1 receptor antagonist losartan. Only antibodies that were able to inhibit the aminopeptidase A enzyme activity in vitro and in vivo induced an acute albuminuria in mice. Renal aminopeptidase A mRNA expression was increased by injection of the anti-aminopeptidase A antibody. Both enalapril and losartan treatment reduced the acute albuminuria, measured 1 day after injection of a monoclonal antibody against aminopeptidase A, by 91% and 83%, respectively. It is concluded that the induction of acute albuminuria is correlated to the enzyme-inhibiting capacity of the anti-aminopeptidase A antibodies. This impaired enzymatic activity most likely leads to an increase in the levels of Ang II, the best known substrate of aminopeptidase A. The results of our additional experiments are in keeping with our hypothesis that Ang II mediates this acute albuminuria. Whether this occurs by an increase of blood pressure or by a growth factor-like effect remains to be defined by further studies in this model.
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PMID:Inhibition of aminopeptidase A activity causes an acute albuminuria in mice: an angiotensin II-mediated effect? 894 74

Angiotensin (Ang) II is not the only active peptide of the renin-angiotensin system. Several of its degradation products including Ang III (obtained by deletion of the N terminal amino acid), Ang IV (obtained by deletion of the two N terminal amino acids) and Ang II(1-7) (obtained by deletion of the C terminal amino acid) also possess biological functions. These peptides are formed via the activity of several enzymes, aminopeptidase A for Ang III, aminopeptidases A and N for Ang IV, prolylendopeptidase and carboxypeptidases for Ang II(1-7). Ang III possesses most of the properties of Ang II and shares the same receptors. This peptide is particularly important in brain and pituitary physiology and plays a major role in the secretion of arginine vasopressin. Ang IV possesses its own receptors distinct from AT1 and AT2. Some of its effects (for example, stimulation of the synthesis of the type 1 inhibitor of plasminogen activator by endothelial cells) were previously attributed to Ang II. Others are opposed to Ang II effects (renal and cerebral vasodilation). Its role in vascular, renal and cerebral physiology remains to be determined. Ang II(1-7) exhibits direct and indirect effects, the latter resulting from Ang II(1-7)-dependent formation of nitric oxide and vasodilatory prostaglandins. Ang II(1-7) recognizes both specific receptors and AT1 receptors as shown by the partial antagonistic properties of losartan. Ang II(1-7) plays essentially a role in the control of the hydroelectrolytic balance by increasing glomerular filtration rate, urinary output and sodium excretion rate.
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PMID:Active fragments of angiotensin II: enzymatic pathways of synthesis and biological effects. 905 51

We evaluated the endogenous action of angiotensin II (AII) and its active metabolite, angiotensin III (AIII), at the nucleus tractus solitarii (NTS) in the modulation of baroreceptor reflex (BRR) response, and the subtype(s) of angiotensin receptors involved in this process. Adult, male Sprague-Dawley rats that were anesthetized and maintained with pentobarbital sodium were used. Bilateral microinjection of AII or AIII (10, 20 or 40 pmol) into the NTS significantly and dose-dependently suppressed the BRR response, which was evoked by transient hypertension induced by phenylephrine (5 micrograms/kg, i.v.). The suppressive effect of AII (40 pmol) was reversed by co-administration of the non-peptide AT1 receptor antagonist, losartan (1.6 nmol), but only partially by the non-peptide AT2 receptor antagonist, PD-123319. On the other hand, both angiotensin receptor antagonists appreciably reversed the depressive action of AIII (40 pmol). Blocking the endogenous activity of the angiotensins by microinjection into the bilateral NTS of losartan (1.6 nmol) or PD-123319 (1.6 nmol) elicited a significant enhancement of the BRR response. An interruption of the conversion of AII to AIII with the aminopeptidase A inhibitor, amastatin (3.3 nmol), attenuated, but did not eliminate, the AII-induced inhibition of the BRR response. We conclude that whereas the endogenous AIII may exert a tonic inhibitory modulation on the BRR response by acting on both the AT1 and AT2 receptor subtypes, the same action of the endogenous AII engaged only the AT1 receptor subtype at the NTS. Furthermore, at least part of the suppressive action of AII may result from its metabolic conversion to AIII.
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PMID:Participation of AT1 and AT2 receptor subtypes in the tonic inhibitory modulation of baroreceptor reflex response by endogenous angiotensins at the nucleus tractus solitarii in the rat. 951 51

It is now recognized that the brain contains an autonomous angiotensin (AG) system, including the aminopeptidases A and N required for angiotensin metabolism. Using immunohistochemical techniques, we show that capillary pericytes and periendothelial cells of other vessels express aminopeptidase A (APA) and aminopeptidase N (APN) at their plasma membrane in adult mouse brain parenchyma. We therefore investigated the localization of angiotensin II(III), known as putative substrates for these enzymes, as well as that of their precursor angiotensin I. We report here the presence of immunoreactivity to angiotensin I and II(III) around most brain vessels. Angiotensins are present at the plasma membrane of brain parenchymal cells, presumably perivascular astrocytes which are also immunoreactive to AT1-receptor antibodies. The very close relationship between AGII(III) and their metabolizing enzymes APA and APN suggests a specific functional role for brain perivascular angiotensins.
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PMID:Brain parenchyma vessels and the angiotensin system. 1035 May 64

Chronic inhibition of nitric oxide synthase promotes renin-dependent hypertension and renal injury. The present study examines how renal angiotensin II receptors are expressed in this model. N(G)-nitro-L-arginine methyl ester (L-NAME) was given orally to rats for 1 month and was associated or not with captopril during the 4 last days of the administration. 125I-[Sar1, Ile8]-Ang II binding, AT1)mRNA and cytosolic calcium were studied in isolated glomeruli from L-NAME and control rats and in cultured mesangial cells from normal rats. Renal injury was marked in rats receiving L-NAME. Type I angiotensin II (AT1) receptor number and mRNA expression were decreased (p < 0.05) in glomeruli isolated from L-NAME-treated rats compared with controls, unless they received captopril in combination. The low level of AT1 receptor expression was associated with an attenuated rise of cytosolic calcium in response to angiotensin II. Angiotensin-converting enzyme activity in glomeruli and angiotensin II concentration in renal cortex were increased (p < 0.05) in rats receiving L-NAME alone, whereas aminopeptidase A activity was not modified. To better discriminate between the direct and indirect effects of nitric oxide deficiency, rat mesangial cells were exposed or not for 24 h to S-nitroso-N-acetyl penicillamine, a nitric oxide donor. Angiotensin II binding, AT1 mRNA expression and calcium response to angiotensin II were decreased in presence of the nitric oxide donor (p < 0.01). These results suggest that the decrease of AT1 receptor expression after 1 month of L-NAME treatment does not depend on a direct effect of nitric oxide deficiency but results from the high local angiotensin II concentration due to the stimulated angiotensin-converting enzyme activity. They also show that the renin-angiotensin dependence of this model of hypertension does not result from the overexpression of AT1 receptors.
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PMID:AT1 receptor expression in glomeruli from NO-deficient rats. 1464 64

Angiotensin III is the biological active peptide from the angiotensin family, which play the important role in several cellular processes. Ang III is the product of reaction catalyzed by aminopeptidase A and in turn can be a substrate for aminopeptidase N, enzyme which converts Ang III to shorter fragment, Ang IV. Aminopeptidase N is specifically inhibited by PC18. Ang III can act by binding to receptors AT1, AT2 or other type of receptors, which are not well recognized. The connection of Ang III to AT1 and AT2 receptors could be inhibited by losartan or PD123319, respectively. The aim of this study was to investigate what is the influence of angiotensin III on protein tyrosine kinase activity in rat pituitary and what is the possible place of interaction of Ang III with target cells. The obtained results show that Ang III can modify tyrosine kinase activity in concentration dependent manner but Ang IV appeared more effective. In presence of PC18 Ang III caused the same changes as Ang III alone that suggests that Ang III, not its metabolite modify tyrosine kinase activity. Losartan and PD123319 given together with Ang III enhanced the changes induced by Ang III. It suggests that the investigated peptide has an effect on protein tyrosine kinase activity in a different way than via AT1 and AT2 receptors.
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PMID:The effect of angiotensin III on protein tyrosine kinase activity in rat pituitary. 1591 7

The renin-angiotensin system is a coordinated hormonal cascade critical for the regulation of blood pressure (BP) and kidney function. Angiotensin (Ang) II, the major angiotensin effector peptide, binds to two major receptors, namely AT1 and AT2 receptors. The AT1 receptors engender antinatriuresis and raise BP, whereas AT2 receptors oppose these effects, inducing natriuresis and reducing BP. There is high AT2 receptor expression in the adult kidney, especially in the proximal tubule. In AT2 receptor-null mice, long-term AngII infusion results in pressor and antinatriuretic hypersensivivity compared with responses in wild-type mice. The major endogenous receptor ligand for AT2 receptor-mediated natriuretic responses appears to be des-aspartyl(1) -AngII (AngIII) instead of AngII. Recent studies have demonstrated that AngII requires metabolism to AngIII by aminopeptidase A to induce natriuresis and that inhibition of aminopeptidase N increases intrarenal AngIII and augments AngIII-induced natriuresis. The renal dopaminergic system is another important natriuretic pathway. Renal proximal tubule the D1 and D5 receptor subtypes (D1 -like receptors (D1LIKE R)) control approximately 50% of basal sodium excretion. Recently, we have found that natriuresis induced by proximal tubule D1LIKE R requires AT2 receptor activation and that D1LIKE R stimulation induces recruitment of AT2 receptors to the apical plasma membrane via a cAMP-dependent mechanism. Initial studies using the potent AT2 receptor non-peptide agonist Compound 21 demonstrate natriuresis in both the presence and absence of AT1 receptor blockade, indicating the therapeutic potential of this compound in fluid-retaining states and hypertension.
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PMID:Role of angiotensin AT(2) receptors in natriuresis: Intrarenal mechanisms and therapeutic potential. 2333 17

There is a gap in the knowledge regarding regulation of local renin-angiotensin system (RAS) in skeletal muscle during development of obesity and insulin resistance in vivo. This study evaluates the obesity- and age-related changes in the expression of local RAS components. Since RAS affects skeletal muscle remodelling, we also evaluated the muscle fibre type composition, defined by myosin heavy chain (MyHC) mRNAs and protein content. Gene expressions were determined by qPCR and/or Western blot analysis in musculus quadriceps of 3- and 8-month-old male obese Zucker rats and their lean controls. The enzymatic activity of aminopeptidase A (APA) was determined flourometrically. Activation of renin receptor (ReR)/promyelocytic leukaemia zinc finger (PLZF) negative feedback mechanism was observed in obesity. The expression of angiotensinogen and AT1 was downregulated by obesity, while neutral endopeptidase and AT2 expressions were upregulated in obese rats with aging. Skeletal muscle APA activity was decreased by obesity, which negatively correlated with the increased plasma APA activity and plasma cholesterol. The expression of angiotensin-converting enzyme (ACE) positively correlated with MyHC mRNAs characteristic for fast-twitch muscle fibres. The obesity- and age-related alterations in the expression of both classical and alternative RAS components suggest an onset of a new equilibrium between ACE/AngII/AT1 and ACE2/Ang1-7/Mas at lower level accompanied by increased renin/ReR/PLZF activation. Increased APA release from the skeletal muscle in obesity might contribute to increased plasma APA activity. There is a link between reduced ACE expression and altered muscle MyHC proportion in obesity and aging.
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PMID:Obesity and aging affects skeletal muscle renin-angiotensin system and myosin heavy chain proportions in pre-diabetic Zucker rats. 3119 49