1H-NMR studies of [Sar1]angiotensin II conformation by nuclear Overhauser effect spectroscopy in the rotating frame (ROESY): clustering of the aromatic rings in dimethylsulfoxide

The conformational properties of the octapeptide [Sar1]ANG II in dimethylsulfoxide-d6 were investigated by rotating frame nuclear Overhauser effect spectroscopy (ROESY). Interresidue ROESY interactions were observed between Tyr ortho and Phe ring protons, between Phe ring and Pro C gamma protons, and also between His C alpha and Pro C delta protons. A weak connectivity was also observed between the Sar N-CH3 protons and a Tyr ortho proton. Intraresidue interactions between alpha and beta protons in Tyr, His and Phe indicated restricted rotation for the side-chains of the three aromatic residues. These findings suggest that [Sar1]ANG II takes up a folded conformation in DMSO in which the three aromatic rings form a cluster. Connectivities between the His C alpha proton and the two Pro C delta protons illustrated a preferred conformation for angiotensin II in DMSO in which the His-Pro bond exists as the trans isomer. The NMR spectroscopic evidence is consistent with the presence of a Tyr charge relay system in the biologically active conformation of angiotensin II and with the postulated role of the Tyr hydroxyl group in angiotensin II for receptor activation.     

Synthesis and biological activities of angiotensin II and Sarmesin analogues containing cyclohexylalanine

Analogues of angiotensin II with cyclohexylalanine (Cha) at position 4 or 8, and analogues of the competitive (type II) angiotensin antagonist [Sar1,Tyr(Me)4]ANG II (Sarmesin) with Cha at position 8, have been prepared by the solid phase method and purified by reversed-phase HPLC. Analogues of ANG II with Cha at position 8 in which the position 1 residue was substituted with sarcosine (Sar) or amino-isobutyric acid (Aib) or was deleted (Des), were slowly reversing (Type I) antagonists with "pA2" values in the rat isolated uterus assay of approximately 8.5. The additional substitution of Tyr(Me) for Tyr at position 4 of these peptides gave reversible competitive (Type I/II) antagonists with pA2 values of 6.7, 5.8, and less than 5, while substitution of Phe for Tyr gave pA2 values of 7.4, 6.7, and less than 5, respectively. All 19 peptides synthesized in this study had low intrinsic agonist activity in the rat isolated uterus assay except for the type I antagonists [Sar1, Cha8]ANG II (7%), [Aib1, Cha8]ANG II (12%) and [Des1, Cha8]ANG II (20%). These data illustrate that the substitution of Cha at position 8 of ANG II analogues produces potent antagonists; however, Type I antagonists retain significant agonist activity whereas Type I/II antagonists do not. In contrast, substitution of Cha at position 4 in a variety of ANG II analogues resulted in severely diminished biological activity, illustrating that the presence of an aromatic ring quadrupole at position 4 is obligatory for receptor binding and activity.     

Proton magnetic resonance studies of angiotensin II conformation: cis-trans isomerism in sarcosine7-containing analogs

1H-NMR spectra for the angiotensin agonist sarcosine-(Sar)Arg-Val-Tyr-Ile-His-Sar-Phe [( Sar1,Sar7]Ang II) and the antagonist Sar-Arg-Val-Tyr-Ile-His-Sar-Ile in dimethylsulfoxide-d6 were examined at 400 MHz. Splitting of the resonances for Tyr, His, and Sar protons revealed that the His6-Sar7 peptide bond existed in both cis and trans forms, with one isomer predominating in the ratio 5:1 in both peptides. Comparison of the chemical shifts for the His6 and Phe8 ring protons in these peptides suggested a His/Phe stacking interaction in [Sar1,Sar7]Ang II which is important for agonist activity.     

1H-NMR studies of sarmesin and [des1]sarmesin conformation in dimethylsulfoxide by nuclear Overhauser effect (NOE) enhancement spectroscopy: folding of the N- and C-terminal domains

The conformational properties of the competitive angiotensin II antagonist sarmesin [Sar-Arg-Val-Tyr(Me)-His-Pro-Phe] and its heptapeptide analogue [des1]sarmesin in dimethylsulphoxide-d6 were investigated by nuclear Overhauser effect (NOE) enhancement studies. Assignment of all backbone and side-chain protons was possible by combining information from intraresidue NOE studies with two-dimensional correlated spectroscopy (COSY) studies. Saturation of the His C alpha proton of sarmesin produced essentially the same interresidue NOE enhancement of the two Pro C delta protons, illustrating the presence of the trans His-Pro bond. Saturation of the Sar N-methyl group caused enhancement of one of the His C beta protons, suggesting the presence of a turn in the N-terminal region of the molecule. Saturation of His C2 in sarmesin and [des1]sarmesin enhanced the Tyr(Me) methyl signal. Saturation of the Tyr(Me) methyl protons in [des1]sarmesin produced NOE enhancement of the His C2 and C4 protons, and saturation of the His C2 proton enhanced the Tyr(Me) meta and ortho proton signals. Interresidue interactions between the Tyr(Me) and His protons in sarmesin and [des1]sarmesin illustrate that these two side-chains remain in close proximity even in the absence of the postulated hydrogen bond between Tyr hydroxyl and the His imidazole ring in angiotensin II. The data suggest a preferred conformation for sarmesin in DMSO in which the peptide backbone is S-shaped and similar to that for angiotensin II.     

Structure-desensitization relationships of angiotensin analogues in the rat isolated uterus

The desensitizing potencies of angiotensin II (ANG II) analogues modified at positions 1, 2, 4, 7, and 8 have been examined in the rat isolated uterus assay by determining the time of recovery of the half-maximal concentration (EC50) response to angiotensin II after treatment of the tissues with a high dose (10(-5) M) of each analogue for 2 min. The magnitude of the desensitization effect was substituent dependent in the following manner: position 1, sarcosine (Sar) greater than Asp greater than des-Asp; position 2, Arg greater than Sar; position 4, Tyr greater than Tyr(Me) approximately Phe; position 7, 3,4-dehydroproline (Dpr) greater than Pro greater than thioproline (Tpr) greater than Sar; position 8, Ile greater than D-Trp greater than Ala greater than Phe. The "additivity" rule applied to these structure-desensitization relationships and the most potent desensitizer, requiring 3 h for reestablishment of the EC50 response, was [Sar1, Dpr7, Ile8]-ANG II. The desensitizing potencies of these analogues did not correlate with agonist or antagonist activities and demonstrated that the angiotensin-mediated tissue desensitization process has unique structural determinants. Methylation or elimination of the tyrosine hydroxyl group of strong desensitizers virtually eliminated the desensitization effect, implicating the phenoxyl moiety in the mechanism of desensitization. The initial phase of recovery of angiotensin responsiveness after desensitization by several analogues appeared to obey first-order kinetics. The results are discussed in the contexts of both one- and two-site receptor models.     

Comparative studies of angiotensin II and its analog [Sar1Ala8]angiotensin II on the density of cellular monolayer of cell cultures from green monkey kidney

The effects of the octapeptide angiotensin II (AT II) and its analog [Sar1Ala8]AT II on the cell density in cell culture from green monkey kidney (GMK) were studied. AT II and [Sar1Ala8]AT II provoked a decrease of the number of living cells depending on the concentration (0.001, 0.01 and 0.1 nM) and time of incubation (24, 48 and 72 hours), both peptides having a very similar activity. These data indicate that AT II and [Sar1Ala8]AT II may act on the same class of angiotensin receptors in GMK cells.     

Photoaffinity labeling of the angiotensin II receptor; pharmacology of the labeling peptides in the dark.

The biological activities of photoaffinity labeling analogs of angiotensin II (ATII) and their precursors were measured in rabbit aorta strips in the dark. Most of the analogs behave as reversible, specific agonists, one as a competitive inhibitor. The activities are discussed in line with the current view of structural requirements. The modifications consisted of substitutions on the aromatic nuclei of Tyr4 and Phe8 in [Sar1]ATII with (4'-NO2) Phe, (4'-NH2)Phe, (4'N3)Phe, (4'-N2 +)Phe, and (4'-NH2-3', 5'-I2)Phe. It is shown that the affinity of the ATII analogs modified in position 4 depends on the electronegativity and not on space-filling properties of the aromatic residue; rising electronegativity lowers the affinity, i.e. [sar1, (4'-NO2)Phe4]ATII has no more measurable activity. Substituting the aromatic side chain in position 8 of [Sar1]ATII gives well-binding analogs with intrinsic activities from 0 to 100% and activity seems to depend only on stereochemical requirements. Agonists and partial agonists bear rather small groups like -NH2, -N3, -NO2, and -N2 +. The only antagonist [Sar1, (4'-NH2-3',5'-I2)Phe8]ATII resembles the antagonist E1Sar1, Leu8]ATII in competitivity and binding.     

Importance of the N-terminal domain of the type I angiotension II antagonist [Sar1,Ile8]ANG II for receptor blockade

Analogues of the Type I angiotensin (ANG) antagonist, [Sar1,Ile8]ANG II, in which the N-terminal dipeptide was modified were synthesized by the solid phase method and purified by reversed-phase HPLC. Antagonist potencies (pA2) of the peptides were determined on the rat isolated uterus using ANG II as the agonist. Substitution of the Arg residue occupying position 2 of [Sar1,Ile8]ANG II (pA2 8.1) by Gly, Ala, Nle, Phe, Pro or Sar reduced the antagonist potency to pA2 = 7.0, 6.8, 6.7, 6.8, 5.8 and 5.3, respectively. Deletion of the N-terminal Sar residue in these same peptides gave pA2 = 6.8, 5.7, 5.5, 5.9, 6.1 and 7.5, respectively. The characteristically long duration of action of [Sar1,Ile8] was absent for all of these analogues including (des1, Sar2, Ile8]ANG II. These findings demonstrate that the antagonist potencies of Type I angiotensin antagonists for smooth muscle receptors, and also the long duration of action, are dependent on the location of positive charges within the peptide and on the conformation of the molecule in determining favorable electrostatic interactions with the receptor. A model is proposed in which the two positively charged loci on the angiotensin molecule (N-terminus and Arg) interact with two corresponding anionic binding sites on the smooth muscle receptor. The possibility that the prolonged duration of action of [Sar1, Ile8]ANG II results from binding to a different site on the angiotensin receptor from that occupied by ANG II is discussed in relation to the present findings.     

Sar1Ile7]angiotensin III, a new selective antagonist of the pressor effect of angiotensin III in conscious rats

Two analogues of angiotensin III were compared as antagonists of the pressor response to angiotensin II (ANG II) and angiotensin III (ANG III) in conscious, unrestrained rats. Dose-mean arterial pressure (MAP) response curves were obtained for ANG II and ANG III in the absence or presence of [Ile7]ANG III (1.3 x 10(-7) mol/kg) or [Sar1 Ile7]ANG III (1.2 x 10(-7) mol/kg). In the presence of [Ile7]ANG III, the dose-MAP response curves for ANG II and ANG III were significantly displaced to the right. [Ile7]ANG III behaved as a partial agonist on ANG II but not ANG III receptors. In the presence of [Sar1 Ile7]ANG III, the dose-MAP response curve for ANG III but not ANG II was significantly displaced to the right. This suggests that [Sar1 Ile7]ANG III is a selective antagonist of ANG III in the vasculature. [Ile7]ANG III, on the other hand, antagonizes both ANG II and ANG III receptors. Our results support the hypothesis of the existence of a sub-class of angiotensin receptors activated by ANG III in the vascular smooth muscle.     

Des-aspartate-angiotensin I and angiotensin AT1 receptors in rat cardiac ventricles

The binding of 125I-[Sar1,Ile8]angiotensin II and 125I-angiotensin II to ventricular membranes of rat heart was studied. Displacement of bound 125I-[Sar1,Ile8]angiotensin II by its cold equivalents, angiotensin I, angiotensin II, angiotensin III, des-aspartate-angiotensin I, losartan, PD123319 and CGP42112B supports the presence of the AT1 and the near absence of the AT2 angiotensin receptor in adult rat ventricle. The presence of binding sites for des-aspartate-angiotensin I could account for its reported cardioprotective actions. Binding of 125I-angiotensin II but not that of 125I-[Sar1,Ile8]angiotensin II was partially displaced by GppNHp suggesting that a portion of the receptor population was in the active state with dissociated G-protein. Saturation experiments carried out in the absence and presence of 1 mM GppNHp showed similar magnitude of decrease in the number of receptors (Bmax from 26.2+/-1.3 to 15.7+/-1.1 fmol/mg protein) in [125I]-angiotensin II binding. However, the guanine nucleotide had no effect on the binding of 125I-[Sar1,Ile8]angiotensin II as has also been reported elsewhere, and may suggest that Sar1-Ile8-angiotensin II, being a partial agonist, binds to both the G-protein coupled and uncoupled states of the angiotensin receptors. The present study demonstrates that des-aspartate-angiotensin I binds to angiotensin receptors in the heart, and provides further evidence for its involvement in the pathophysiology of the organ.     

Short term memory in the calcium messenger system. Evidence for a sustained activation of protein kinase C in adrenal glomerulosa cells.

If adrenal glomerulosa cells are treated with angiotensin II for a period of 20-30 min, their subsequent response to either a rechallenge with the same concentration of angiotensin II or treatment with BAY K 8644, a calcium channel agonist, differs from the responses of control cells. Perifusion of control cells with 10 nM-angiotensin II leads to an increase in aldosterone secretory rate from 44 +/- 7 to 166 +/- 9 pg/min per 10(6) cells, but perifusion of cells pretreated for a 20 min period with angiotensin II leads to an increase in secretory rate from 51 +/- 9 to 209 +/- 18 pg/min per 10(6) cells. Likewise, treatment of control cells with 10 nM-BAY K 8644 leads to no significant increase in aldosterone secretory rate, but treatment of previously exposed cells to angiotensin II leads to an increase in rate from 51 +/- 9 to 130 +/- 11 pg/min per 10(6) cells. This memory effect is time-dependent in two ways: cells must be exposed to angiotensin II for 20 min or more before it is apparent; the longer the time between removal of angiotensin II and the rechallenge, the less effect these agents have on aldosterone secretory rate. When cells are exposed to angiotensin II for 20 min and then treated with [Sar1,Ala8]angiotensin II, a competitive antagonist of angiotensin II action, the aldosterone secretory rate falls to basal with a half time of 5-7 min. If BAY K 8644 is added simultaneously with [Sar1,Ala8]angiotensin II, the secretory rate falls with a halftime of 35-60 min. BAY K 8644 increases Ca2+ influx rate to the same extent in the presence or absence of [Sar1,Ala8]angiotensin II, and does not alter the effect of either angiotensin II or [Sar1,Ala8]angiotensin II on the production of inositol tris-, bis-, or mono-phosphate. In cells treated with 10 nM-angiotensin II for either 20, 30 or 45 min, the extent of phosphorylation of four cellular proteins is increased. If cells treated for 20 min with angiotensin II are then treated with [Sar1,Ala8]angiotensin II, and examined 15 min later (35 min), there is no longer an increase in the extent of phosphorylation of any of the four proteins. If such cells are then treated with 10 nM-BAY K 8644 and re-examined 5 min later (40 min), all four patients show an increase in the extent of phosphorylation.(ABSTRACT TRUNCATED AT 400 WORDS)     

Angiotensin II receptors in the human placenta are type AT1

Membrane angiotensin II receptors were measured in human placenta by means of 125I [Sar1 Ile8] All (angiotensin II antagonist) and characterized by using 2 other antagonists of angiotensin II: Dup 753 and CGP 42112A. These are specific and selective ligands which enable identification of AT1 and AT2 receptor subtypes respectively. The [Sar1 Ile8] All affinity is similar (Kd approximately 1 nmol.l-1) in the 3 different placental structures examined. However, the Bmax of villous tissues is approximately 9 times higher than that observed in chorionic plate but remains near that found in basal plate. In the central area of the placenta, mean values of 125I [Sar1 Ile8] All binding observed at a single concentration of 0.15 nmol.l-1 are 242 +/- 31 fmol/mg proteins in basal plate, 300 +/- 35 in villous tissues and 36 +/- 8 in chorionic plate. The umbilical vein and arteries respectively have 8.8 +/- 4.8 and 4.0 +/- 1.7 fmol/mg protein. The subtype analysis shows that only AT1 receptor is present in placental tissues. The Bmax values as well as those obtained by the relative measurement performed at a fixed 125I [Sar1 Ile8] All concentration of 0.15 nmol.l-1 indicate that the highest concentrations of angiotensin II receptors are found in placental villous tissues.     

Angiotensin receptors in resting smooth muscle are the low affinity sites observed in binding studies

Angiotensin receptors in rat uterine smooth muscle have been investigated by [125I]angiotensin II binding studies in membrane preparations. Scatchard analysis of binding data has demonstrated the presence of low and high affinity angiotensin binding sites with KLD = 3.0 X 10(-8) and KHD = 5.0 X 10(-10)M respectively. These values are identical to our previously reported values for the EC50 and dissociation constant, respectively, obtained from bioassays on intact uterine tissues. The antagonist [Sar1, Ile8]angiotensin II also demonstrates a binding affinity in uterine membranes (pKD = 8.7) which is not significantly different from its apparent binding affinity (pA2 = 8.6) in responding tissues. Taken in conjunction with our previously published bioassay data the present binding studies suggest that the resting state of the angiotensin receptor in smooth muscle is a low affinity state, and that interaction with ANG II induces a portion of the receptors into a high affinity "excited" state. The antagonist [Sar1, Ile8]angiotensin II apparently binds with higher affinity than angiotensin II to the low affinity (resting) state of the receptor.     

Analysis of the adrenal angiotensin II receptor with the photoaffinity labeling method

The angiotensin II (Asp-Arg-Val-Tyr-Ile-His-Pro-Phe, AT) receptor of bovine adrenocortex has been investigated with photosensitive analogues of AT. In a first series of experiments, we have shown that isolated cortical cells secrete aldosterone in a permanent and specific manner if they have been photolyzed in the presence of the photolabel [Sar1,(4'-N3)Phe8]AT. This permanent stimulation is in contrast to the smooth muscle assays where under similar conditions a permanent and specific block was always observed. It is assumed that the irreversible occupation of the AT receptor produces this effect. In a second type of experiment, we have shown that the AT binding site on adrenocortical membranes can be specifically and irreversibly occupied under similar conditions and that this occupation can be prevented in a competitive manner by the presence of nonphotosensitive hormone. Using a radioactive label, [Sar1,(3'-125I)Tyr4,(4'-N3)Phe8]AT, we have identified the AT receptor as a 300-kDa protein by means of gel filtration under nonreducing and nondenaturating conditions. Under reducing and denaturing conditions, a subunit of 60 kDs was found by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and gel filtration. The AT receptor is proposed to be a 300-kDa protein with one binding subunit of 60 kDa.     

Effect of tyrosine ionization upon biological activities of angiotensin II and two new peptide analogues.

The role of the tyrosine side-chain in the smooth muscle contracting activity of angiotensin III was investigated by determining intrinsic activities and ED50 values of [4-(3-chlorotyrosine)]angiotensin II and [4-(3-benzyltyrosine)]angiotensin II in the isolated guinea-pig ileum and rat uterus. [4-(3-chlorotyrosine)]angiotensin II activity was compared with that of angiotensin II at different pH values, in which the ratio of their degrees of phenolic ionization varied. The results indicated that deprotonation of the phenolic group hinders binding to smooth muscle cell receptors, but not triggering of the response by the hormone-receptor complex. Steric hindrance by the benzyl substituent in [4-(3-benzyltyrosine)]angiotensin II reduced both receptor-binding and triggering of the response.     

Formation of angiotensin-(1-7) from angiotensin II by the venom of Conus geographus

The binding of [3H]angiotensin II to AT(1) receptors on Chinese Hamster Ovary cells expressing the human AT(1) receptor (CHO-AT(1) cells) is potently inhibited by venoms of the marine snails Conus geographus and C. betulinus. On the other hand, the binding of the nonpeptide AT(1) receptor-selective antagonist [3H]candesartan is not affected but competition binding curves of angiotensin II and the peptide antagonist [Sar(1),Ile(8)]angiotensin II (sarile) are shifted to the right. These effects resulted from the breakdown of angiotensin II into smaller fragments that do not bind to the AT(1) receptor. In this context, angiotensin-(1-7) is the most prominent fragment and angiotensin-(1-4) and angiotensin-(1-5) are also formed but to a lesser extent. The molecular weight of the involved peptidases exceeds 50 kDa, as determined by gel chromatography and ultrafitration.     

The effect of iron on ferritin turnover in rat liver

125I-labelled angiotensin II (A II) specifically binds to solubilized receptors extracted from rat isolated glomeruli using CHAPS (3-[3-( cholamidopropyl ) dimethylammonio ]-1-propanesulfonate). The yield of solubilization of the binding sites was 3.3%. Equilibrium was reached after 15-20 min and specific binding represented 75% of total binding. Dissociation of the hormone-receptor complex after addition of an excess of A II was very slow in the presence of Ca2+ and Mg2+. [Sar1 Ala8] A II and [Sar1 Ile8] A II were more potent as competitive inhibitors of 125I-labelled A II than A II itself and its heptapeptide. These basic features of 125I-labelled A II binding to the extracted material were similar to those observed previously with untreated glomeruli.     

Rapid polyphosphoinositide decrease is an early event in the steroidogenic response of bovine adrenocortical fasciculata cells to angiotensin II

Addition of angiotensin II (0.3 microM) to bovine adrenal fasciculata cell suspensions prelabeled with [32P] induced a rapid (15 seconds) and marked decrease of the radioactivity from phosphatidylinositol 4,5-biphosphate (62%) and phosphatidylinositol 4-monophosphate (35%). This effect was concentration-dependent and specifically inhibited in the presence of (Sar1-Ala8)-angiotensin II; it was also completely prevented in the absence of extracellular calcium. The present data appear to illustrate the earliest biological response detectable in bovine fasciculata cells under angiotensin II challenge.     

Quantitative distribution of angiotensin II binding sites in rat brain by autoradiography

Angiotensin II binding sites were localized and quantified in individual brain nuclei from single rats by incubation of tissue sections with 1 nM 125I-[Sar1]-angiotensin II, [3H]-Ultrofilm autoradiography, computerized microdensitometry and comparison with 125I-standards. High angiotensin II binding was present in the circumventricular organs (organon vasculosum laminae terminalis, organon subfornicalis and area postrema), in selected hypothalamic nuclei (nuclei suprachiasmatis, periventricularis and paraventricularis) and in the nucleus tractus olfactorii lateralis, the nucleus preopticus medianus, the dorsal motor nucleus of the vagus and the nucleus tractus solitarii. High affinity (KA from 0.3 to 1.5 X 10(9) M-1) angiotensin II binding sites were demonstrated in the organon subfornicalis, the nucleus tractus solitarii and the area postrema after incubation of consecutive sections from single rat brains with 125I-[Sar1]-angiotensin II in concentrations from 100 pM to 5 nM. These results demonstrate and characterize brain binding sites for angiotensin II of variable high affinity binding both inside and outside the blood-brain barrier.     

Identification of the angiotensin II receptor in rat mesenteric artery.

Specific binding sites of high affinity and low capacity for 125I-angiotensin II have been identified in a membrane fraction derived from arterial arcades of the rat mesentery. Heterogeneity of binding sites and extensive tracer degradation necessitated the use of nonlinear regression methods for the analysis of radioligand binding data. Forward and reverse rate constants for the high affinity sites obtained by three experimental approaches were in good agreement and gave a dissociation equilibrium constant (Kd) of 19-74 pM (95% confidence interval). Affinities for a number of angiotensin-related peptides calculated from competitive binding curves were in the order 125I-angiotensin II = angiotensin II greater than angiotensin III greater than [Sar1,Ile8]angiotensin II greater than [Sar1,Gly8]angiotensin II. Angiotensin I and biochemically unrelated peptides had virtually no effect on binding of tracer angiotensin II. The divalent cations Mn2+, Mg2+ and Ca2+ stimulated 125I-angiotensin II binding at concentrations of 2-10 mM, as did Na+ at 50-100 mM. In the presence of Na+ or Li+, K+ had a biphasic effect. The chelating agents EDTA and EGTA were inhibitory, as were the thiol reagents dithiothreitol and cysteine. This study defined angiotensin II binding sites in a vascular target tissue of sufficiently high affinity to interact rapidly with plasma angiotensin II at physiological concentrations.