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Query: UMLS:C0004135 (
ATM
)
13,001
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The murine neuroblastoma N1E-115 cell line possesses type 1 and type 2 angiotensin II (AngII) receptor subtypes. In vitro differentiation of these cells substantially increases the density of the AT2-receptor subtype, whereas the density of the
AT1
receptors remains unchanged. In the present study, we report that the zwitterionic detergent 3-[(3-cholamidopropyl)dimethylammonio]-1-propanesulfonate (
CHAPS
) selectively solubilized AT2 receptors from N1E-115 cell membranes and that these receptors could be purified further to near homogeneity by affinity chromatography. More specifically, the presence of an agonist (AngII) during affinity purification of AT2 receptors resulted in the elution of high (110-kDa) and low (66-kDa) molecular mass proteins as determined by gel electrophoresis under nonreducing conditions. In contrast, when the nonselective antagonist Sar1,Ile8-AngII was used during purification, only the lower 66-kDa protein was observed. Affinity purification in the presence of the peptide and nonpeptide AT2-receptor antagonists CGP42112A and PD123319 also resulted in elution of the same 66-kDa protein, but unlike that in the presence of Sar1,Ile8-AngII, some of the high molecular weight site was observed as well. On the other hand, Losartan, an
AT1
-receptor antagonist, was completely ineffective in eluting any AngII receptors from the affinity column, further confirming their AT2 identity. After agonist elution, the 110-kDa band dissociated into two low molecular mass bands of 66 kDa and 54 kDa when sodium dodecyl sulfate-gel electrophoresis was run under reducing conditions.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Affinity purification of angiotensin type 2 receptors from N1E-115 cells: evidence for agonist-induced formation of multimeric complexes. 826 26
1. We showed earlier that NO inhibition caused a left-shift and augmented Emax of the concentration-response curve of
AT1
-mediated (angiotensin II)-induced vasoconstrictions (AII-VC) in the rat kidney. The 0.01-0.1 nM AII-VC unmasked by the potentiating effect of NO inhibition, were sensitive not only to
AT1
(L158809), but also to AT2 receptor (PD123319) antagonists. We now demonstrate the role of endothelium and eicosanoids in the NO-masked
AT1
/AT2-mediated component of the AII-VC in isolated indomethacin-perfused kidneys of the rat. 2. L-NAME increased 0.1 nM AII-VC 7.2 fold. Pretreatment of the kidneys with factor VIII antibody/complement or with the detergent
CHAPS
to damage endothelium, decreased carbachol-induced vasodilatation and blunted by 60 and 30% respectively, the enhancement of AII-VC during NO inhibition. 3. L-NAME also increased 3 microM noradrenaline (NA)-induced vasoconstriction (NA-VC) 8.1 fold. In contrast to AII-VC, endothelium damage was without effect on the enhancement of NA-VC by L-NAME, suggesting a dominant role of endothelium-derived NO in the enhancement of NA-VC. 4. During NO inhibition, ETYA (2 microM; an inhibitor of all arachidonic acid derived pathways) and alpha-naphtoflavone (10 microM; an inhibitor of the cytochrome P450 isozymes), decreased by 85% the 0.1 nM AII-VC. 5. In conclusion, during NO inhibition, the
AT1
-mediated constriction to low concentrations of AII, which is sensitive to AT2 antagonists, depends on intact endothelium, and can be blocked by inhibition of eicosanoid synthesis. The results suggest that the AII-mediated vasoconstriction through
AT1
receptors is potentiated in the absence of NO, by the release of eicosanoids from the endothelium through AT2 receptors.
...
PMID:AT2 antagonist-sensitive potentiation of angiotensin II-induced constriction by NO blockade and its dependence on endothelium and P450 eicosanoids in rat renal vasculature. 969 80
Peptide delivery toward its targets in an intact organ is equally as important as its routing from the systemic circulation to cell surface receptor sites. A physical model pertinent to a heart perfusion technique in Sprague-Dawley rats is presented describing reversible binding of angiotensin II and/or antagonist (DUP 753, losartan) with the microvascular endothelial receptor subtypes as well as with the cardiac myocyte receptor subtypes that are exposed to the perfusate by
CHAPS
-treatment. Analysis of the collected effluents are curve-fitted with a conservation equation and a first-order Bessel function. The results suggest that angiotensin II delivery and binding to the pool of receptor subtypes both at the level of the microvascular endothelium and cardiac myocyte sites differ marginally in binding affinities. The findings postulate that angiotensin II can have access to the myocyte site in an intact heart by an endothelial angiotensin II-receptor-internalization process. In addition, considering that the
AT1
- and AT2-receptor subtypes are present in equal proportions and have equal binding affinities with angiotensin II, the results of the 3H-DUP 753 binding indicated approximately 3-3.5 times higher affinity to the
AT1
-receptors subtype than angiotensin II at both the endothelial and myocyte sites. In the presence of losartan, angiotensin II binding showed higher affinity with the exposed unopposed AT2-receptor subtype than with the receptor pool, which could be due to alterations in the AT2-receptor structure and configuration. This increase in the binding affinity of angiotensin II with the AT2-receptor subtype may be categorized under the direct effect of the
AT1
-antagonist modality in producing cardioprotective effects.
...
PMID:Angiotensin II delivery and binding at the microvascular endothelium and cardiac myocyte surfaces in perfused rat hearts. 981 91
