Synthesis and study of a cyclic angiotensin II antagonist analogue reveals the role of pi*--pi* interactions in the C-terminal aromatic residue for agonist activity and its structure resemblance with AT(1) non-peptide antagonists.

The novel amide linked Angiotensin II (ANG II) cyclic analogue cyclo(3, 5) -[Sar(1)-Lys(3)-Glu(5)-Ile(8)] ANG II (18) has been designed, synthesized and bioassayed in anesthetized rabbits. The constrained cyclic analogue with a lactam amide bridge linking a Lys-Glu pair at positions 3 and 5 and possessing Ile at position 8, was synthesized by solution procedure using the maximum protection strategy. This analogue was found to be inhibitor of Angiotensin II. NMR spectroscopy coupled with computational analysis showed clustering between the side chains of the key aminoacids Tyr(4)-His(6)-Ile(8) similar to that observed with ANG II. The obtained data show that only pi*--pi* interactions observed in ANG II or its superagonist Sar(1) [ANG II] are missing. Therefore, it can be concluded that these interactions are essential for agonist activity. Conformational analysis comparisons between AT(1) antagonists losartan, eprosartan and irbesartan with C-terminal segment of cyclic compound 18 revealed structural similarities.     

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.     

The design and synthesis of a potent Angiotensin II cyclic analogue confirms the ring cluster receptor conformation of the hormone Angiotensin II

The novel amide linked Angiotensin II potent cyclic analogue, c-[Sar1,Lys3,Glu5] ANG II 19 has been designed and synthesized in an attempt to test the aromatic ring clustering and the charge relay bioactive conformation we have recently suggested for ANG II. This constrained cyclic analogue was synthesized by connecting the Lys3 amino and Glu5 carboxyl side chain groups, and it was found to be potent in the rat uterus assay and in anesthetized rabbits. The central part of the molecule is fixed covalently in the conformation predicted according to the backbone bend conformational model proposed for Angiotensin II. The obtained results using a combination of 2D NMR, 1D NOE spectroscopy and molecular modeling revealed a similar Tyr4-Ile5-His6 bend, a His6-Pro7 trans configuration and a side chain aromatic ring cluster of the key aminoacids Tyr4, His6, Phe8 for c-[Sar1,Lys3,Glu5] ANG II as it has been found for ANG II (Matsoukas, J. H.; Hondrelis, J.; Keramida, M.; Mavromoustakos, T.; Markriyannis, A.; Yamdagni, R.; Wu, Q.; Moore, G. J. J. Biol. Chem. 1994, 269, 5303). Previous study of the conformational properties of the Angiotensin II type I antagonist [Hser(gamma-OMe)8] ANG II (Matsoukas, J. M.; Agelis, G.; Wahhab, A.; Hondrelis, J.; Panagiotopoulos. D.; Yamdagni, R.; Wu, Q.; Mavromoustakos, T.; Maia, H.; Ganter, R.; Moore, G. J. J. Med. Chem. 1995, 38, 4660) using 1-D NOE spectroscopy coupled with the present study of the same type of lead antagonist Sarilesin revealed that the Tyr4-Ile5-His6 bend, a conformational property found in Angiotensin II is not present in type I antagonists. The obtained results provide an important conformational difference between Angiotensin II agonists and type I antagonists. It appears that our synthetic attempt to further support our proposed model was successful and points out that the charge relay system and aromatic ring cluster are essential stereoelectronic features for Angiotensin II to exert its biological activity.     

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.     

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.     

Different effects of phorbol ester on angiotensin II- and stable GTP analogue-induced activation of polyphosphoinositide phosphodiesterase in membranes isolated from rat renal mesangial cells.

Pretreatment with pertussis toxin inhibits angiotensin II-induced activation of polyphosphoinositide phosphodiesterase in rat renal mesangial cells [Pfeilschifter & Bauer (1986) Biochem. J. 236, 289-294]. Furthermore, activation of protein kinase C by the phorbol ester 12-O-tetradecanoylphorbol 13-acetate (TPA) and by 1-oleoyl-2-acetylglycerol (OAG) abolishes angiotensin II-induced formation of inositol trisphosphate (IP3) in mesangial cells [Pfeilschifter (1986) FEBS Lett. 203, 262-266]. Using membrane preparations of [3H]inositol-labelled mesangial cells we tried to obtain further insight as to the step at which protein kinase C might interfere with the signal transduction mechanism in mesangial cells. Angiotensin II (100 nM) stimulates IP3 formation from membrane preparations of [3H]inositol-labelled mesangial cells with a half-maximal potency of 1.1 nM. The angiotensin II-induced formation of IP3 is enhanced by GTP. This effect of angiotensin II is completely blocked by the competitive antagonist [Sar1,Ala8]angiotensin II. Guanosine 5'-[gamma-thio]triphosphate (GTP gamma S) and guanosine 5'-[beta gamma-imido]triphosphate (Gpp[NH]p), non-hydrolysable analogues of GTP, stimulate IP3 production in the absence of angiotensin II with Kd values of 0.19 microM and 2.4 microM, respectively. Angiotensin II augments the increase in IP3 formation induced by GTP gamma S. However, when mesangial cells were pretreated with TPA there was a dose-dependent inhibition of the synergistic action of angiotensin II on GTP gamma S-induced IP3 production. Comparable results are obtained with OAG, while the non-tumour-promoting phorbol ester 4 alpha-phorbol 12,13-didecanoate is without effect. These results suggest that activation of protein kinase C in mesangial cells does not impair phosphoinositide hydrolysis by stable GTP analogues but somehow seems to interfere with the stimulatory interaction of the occupied angiotensin II receptor with the transducing G-protein.     

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.     

Influence of polyfluorination of the phenylalanine ring of angiotensin II on conformation and biological activity

[Phe(F5)8]angiotensin II was synthesized by the solid phase method and purified by reverse-phase HPLC. In rat uterus and rabbit aorta bioassays the analogue had 10 and 50%, respectively, of the contractile activity of angiotensin II and demonstrated antagonist properties. These findings illustrate that inversion of the Phe8 ring quadrupole moment in angiotensin II decreases agonist activity and invokes antagonist properties. 1H-NMR studies at 400 MHz in DMSO-d6 demonstrated the presence of cis and trans isomers in the ratio 1:3 due to restricted rotation of the His-Pro bond. Downfield shifts of the His C2 and C4 protons in [Phe(F5)]ANG II compared to ANG II suggest that the Phe(F5) residue may be involved in a parallel-plate ring pairing interaction with the imidazole group. However heteronuclear NOE studies, carried out by measuring the proton difference spectrum before and after saturation of the fluorine resonances, showed the absence of any NOE enhancement illustrating that electrostatic influences of the Phe(F5) ring occur at relatively long range.     

Central hypertensive actions of angiotensin I, II and III in conscious rats

The effects of intracerebroventricular administrations of three natural angiotensins, angiotensin I (ANG I 3.8 X 10-11-9.4 X10-10 mol/kg body weight), II (9.6 X 10-12-2.4 X 10-10 mol/kg body weight) and III (2.7 X 10-10 2.5 X 10-9 mol/kg body weight) on systemic blood pressure were investigated in conscious rats. Angiotensin II (ANG II), ANG I and angiotensin III (ANG III), increased blood pressure in a dose-related manner. The order of potency of angiotensins was ANG II greater than ANG I greater than ANG III. The intraventricular administration of a converting enzyme inhibitor (SQ 14225, 6.9 X10-8 mol/kg) abolished the central effect of ANG I, while an angiotensin II analogue ([Sar1-Ala8]ANG II, 1.1 X 10-8 mol/kg) administered intraventricularly inhibited the central pressor effects of these three angiotensins. These results suggest that ANG II is a main mediator of the renin-angiotensin system in the central nervous system.     

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.     

Biological and conformational evaluation of angiotensin II lactam bridge containing analogues

Angiotensin II (AII) is the active octapeptide product of the renin enzymatic cascade, which is responsible for sustaining blood pressure. In an attempt to establish the AII-receptor-bound conformation of this octapeptide, we designed conformationally constrained analogues by scanning the entire AII sequence with an i-(i+2) and i-(i+3) lactam bridge consisting of an Asp-(Xaa)(n)-Lys scaffold. Most analogues presented low agonistic activity when compared to AII in the different bioassays tested. The exceptions are cyclo(0-1a) [Asp(0), endo-(Lys(1a))]-AII (1) and [Asp(0), endo-(Lys(1a))]-AII (2), both of which showed activity similar to AII. Based on peptide 1 and the analogue cyclo(3-5)[Sar(1), Asp(3), Lys(5)]-AII characterized by Matsoukas et al., we analyzed the agonistic and antagonistic activities, respectively, through a new monocyclic peptide series synthesized by using the following combinations of residues as bridgehead elements for the lactam bond formation: D- or L-Asp combined with D- or L-Lys or L-Glu combined with L-Orn. Six analogues showed an approximately 20% increase in biological activity when compared with peptide (1) and were equipotent to AII. In contrast, six analogues presented antagonistic activity. These results suggest that the position of the lactam bridge is more important than the bridge length or chirality for recognition of and binding to the angiotensin II AT1-receptor.     

Pharmacological profile of depressor response elicited by sarthran in rat ventrolateral medulla

Injection of sarthran, an angiotensin receptor antagonist, bilaterally into the rostral ventrolateral medulla (RVLM) of alpha-chloralose-anesthetized rats decreases arterial pressure (AP) to the same extent as total autonomic blockade. This response is not reproduced by selective AT(1) antagonists. To examine the pharmacological profile of the response elicited by [Sar(1), Thr(8)]ANG II (sarthran), the ability of angiotensin analogs to inhibit the effect of sarthran injected into the RVLM was tested. Coinjection of angiotensin II (ANG II) prevented the sarthran-evoked decrease in AP, but this action of ANG II was markedly attenuated by pretreatment of the RVLM with the aminopeptidase inhibitor amastatin. Coinjection of ANG(3-8) or a selective agonist of AT(4) receptors prevented the effect of sarthran injected into the RVLM. ANG(1-7) was also able to prevent the effect of sarthran. None of the angiotensin fragments tested substantially altered blood pressure when injected alone into the RVLM. These results suggest that the depressor action of sarthran injected into the RVLM is not dependent on ANG II receptors, though the nature of the site or sites of action of sarthran within the RVLM remains uncertain.     

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.     

The effects of sarmesin,an Angiotensin II analogue on seizure susceptibility,memory retention and nociception

The present research studies the effects of sarmesin [Sar(1)Tyr(OMe)(4)] Angiotensin II (ANG II), an analogue of ANG II, on the seizure susceptibility, memory activity and nociception. It was found that this octapeptide, administered i.c.v., dose-dependently decreased the seizure intensity (pentylenetetrazol (PTZ) generalized seizure model and PTZ kindling) and augmented PTZ seizure threshold in mice. Sarmesin impaired the memory upon re-testing of rats 24 h later in the passive avoidance test. It decreased the pain threshold in a paw pressure nociceptive assay in rats. ANG II exerted pronociceptive effect as well. Taken together, these results reveal sarmesin as a behaviorally active peptide in the studied experimental animal models.     

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.     

Differential Signal Transduction Efficacy and Biological Activity of Triprolyl and Pentasarcosyl Angiotensin II In Adrenal Cortex and Vascular Smooth Muscle

Abstract

Two synthetic analogues of angiotensin II (ANG II) with an extended N-terminus, (Sar)₅-ANG II and (Pro)₃-ANG II, have been tested in vitro for their ability to bind to ANG II receptors, to raise cytosolic free calcium concentration, (Ca⁺⁺]_i, and to induce a biological response in bovine adrenal zona glomerulosa cells and in cultured rat aortic smooth muscle cells. The results indicate that the two analogues did not behave identically In these two target cells for ANG II. On one hand, in the adrenal cortex, (Sar)₅-ANG II and (Pro)₃-ANG II were very weak agonists and (Sar)₅-ANG II could even be used as an antagonist of ANG II-induced aldosterone production. On the other hand, both peptides were almost as potent as ANG II in vascular smooth muscle cells, with respect to signal messenger generation and prostacyclin synthesis. Such peptides may be useful tools in the elucidation of the differences among ANG II receptors from various target tissues.     

Development of specific and non-specific somatostatin analogs

Biological activity of six somatostatin analogs has been investigated. In these analogs, disulfide bond is replaced by ethylene bond cyclized with alpha-amino suberic acid. In addition, they contain unique D-configuration in both Trp8 and Cys14 moiety with dicarba substitution. An analog of the short chain length, C omega 7-cyclo (Phe6-Phe7-D-Trp8-Lys9-Thr10-Phe11-D-Asu14) (analog 4) has suppressive effect for GH, but not for other hormones. Analog 6, C omega 9-cyclo(Asn5-Phe6-Phe7-D-Trp8-Lys9-Thr10-Ph e11-Thr12-D-Asu14), has suppressed GH and insulin secretion, but not for gastrin and glucagon. Analog 1, C omega 11-cyclo (Lys4-Asn5-Phe6-Phe7-D-Trp8-Lys9-Thr10-Phe11- Thr12-Ser13-D-Asu14] and 5, C omega 9-cyclo (Lys4-Asn5-Phe6-Phe7-D-Trp8-Lys9-Thr10-Phe11-D-+ ++Asu14) have broad suppressive effect for GH, gastrin, insulin and glucagon release after arginine infusion. The shortest analog, analog 2, C omega 5-cyclo (Phe7-D-Trp8-Lys9-Thr10-D-Asu14) has weak suppressive effect of GH, insulin and glucagon secretion, and it is suggested that Phe6 and Phe11 are necessary for the appearance of suppressive effect of GH. Specific analog, analog 4, may be useful for the future treatment for acromegaly and diabetic retinopathy. Nonspecific analogs, 1 and 5 are candidates for the clinical application of wide variety.     

Does angiotensin II have a significant tonic action on cardiovascular neurons in the rostral and caudal VLM?

The peptidic ANG II receptor antagonists [Sar(1),Ile(8)]ANG II (sarile) or [Sar(1),Thr(8)]ANG II (sarthran) are known to decrease arterial pressure and sympathetic activity when injected into the rostral part of the ventrolateral medulla (VLM). In anesthetized rabbits and rats, the profound depressor and sympathoinhibitory response after bilateral microinjections of sarile or sarthran into the rostral VLM was unchanged after prior selective blockade of angiotensin type 1 (AT(1)) and ANG-(1---7) receptors, although this abolished the effects of exogenous ANG II. Unlike the neuroinhibitory compounds muscimol or lignocaine, microinjections of sarile in the rostral VLM did not affect respiratory activity. Sarile or sarthran in the caudal VLM resulted in a large pressor and sympathoexcitatory response, which was also unaffected by prior blockade of AT(1) and ANG-(1---7) receptors. The results indicate that the peptidic ANG receptor antagonists profoundly inhibit the tonic activity of cardiovascular but not respiratory neurons in the VLM and that these effects are independent of ANG II or ANG-(1---7) receptors.     

Receptor interactions of the position 4 side chains of angiotensin II analogues: Importance of aromatic ring quadrupole

A triad of interacting group (TyrOH? His$ \underline\ominus$O₂C) in angiotensin II (ANG II) has been postulated to create the tyrosinate anion pharmacophore (tyanophore) responsible for receptor activation/triggering (Biochim. Biophys. Acta 1991, 1065, 21). In the present study we investigated the effects on bioactivity of substituting the Tyr⁴ residue in [Sar¹]ANG II with other anionic or electronegative amino acids, and with a number of aromatic amino acids lacking a hydroxyl group. [Sar¹ Nva(δ-OH)⁴]ANG II, [Sar¹ Nva(δ-OCH₃)⁴]ANG II, [Sar¹ Met⁴]ANG II, [Sar¹ Gln⁴]ANG II, [Sar¹ Glu⁴]ANG II and [Sar¹ DL -Alg⁴]ANG II had agonist activities in the rat isolated uterus assay of 4, 3, 19, 10, > 0.1 and > 0.1%, respectively, of that of ANG II. [Sar¹ Nal⁴]ANG II, [Sar¹ Pal⁴]ANG II, [Sar¹ DL -Phg(4′-F)⁴]ANG II, [Sar¹ Phe(4′-F)⁴]ANG II, [Sar¹ Phe(F₅)⁴]ANG II and [Sar¹ His⁴]ANG II had agonist activities of 4.5, 7, < 0.1, 0.2, 1 and 0.6%, respectively. All peptides investigated were devoid of measurable antagonist activity except [Sar¹] Phe(4′-F)⁴ ANG II (pA₂ = 7.7). These findings illustrate that anionic or electronegative aliphatic side chains replacing tyrosinate at position 4 can partially activate the angiotension receptor. For ANG II analogues containing an aromatic amino acid other than Tyr at position 4, ligand binding and agonist activity are not dependent on the electronegativity or dipole moment of the aromatic ring, or on the ability of the 4′ ring substituent to accept a proton. Modelling based on ab initio calculations of aromatic ring multipoles illustrate that the apparent binding affinity (PA₂) of ANG II analogues is associated with a perpendicular electrostatic interaction of the position 4 aromatic ring with a receptor-based group. In addition, intramolecular interactions providing for the conformation of the ligand as it approaches its receptor appear to have a role in determining agonist vs antagonist activity.     

Decreased angiotensin II binding affinity and binding capacity in the anterior pituitary gland of adult spontaneously hypertensive rats

Angiotensin II (ANG) binding sites were quantified in single pituitary glands from 4-week-old and 14-week-old male spontaneously hypertensive rats (SHR) and age-matched male normotensive Wistar-Kyoto (WKY) control rats after incubation with 125I-[Sar1]-ANG, autoradiography with computerized densitometry, and comparison to 125I-standards. The maximum binding capacity (Bmax) decreased while the dissociation constant (Kd) for ANG increased in 14-week-old SHR when compared to age-matched WKY control rats (Bmax: 265 +/- 9 and 224 +/- 4 fmol/mg protein; Kd: 0.79 +/- 0.04 and 1.14 +/- 0.08 10(-9) M in WKY and SHR, respectively). Conversely, no difference between rat strains was found in 4-week-old animals. Our results suggest that pituitary ANG binding sites may play a role in the pathophysiology of established genetic hypertension.