Angiotensin-II subtype 2 receptor agonist (CGP-42112) inhibits catecholamine biosynthesis in cultured porcine adrenal medullary chromaffin cells

Angiotensin II subtype 2 receptor (AT(2)-R) is abundantly expressed in adrenal medullary chromaffin cells. However, the physiological roles of AT(2)-R in chromaffin cells remain to be clarified. Therefore, we investigated the effects of CGP42112 (AT(2)-R agonist) on catecholamine biosynthesis in cultured porcine adrenal medullary cells. We initially confirmed AT(2)-R was predominantly expressed in porcine adrenal medullary cells by [(125)I]-Ang II binding studies. CGP42112 (>==1 nM) significantly inhibited cGMP production from the basal value. Tyrosine hydroxylase (TH) is a rate-limiting enzyme in the biosynthesis of catecholamine, and its activity is regulated by both TH-enzyme activity and TH-synthesis. CGP42112 (>==1 nM) significantly inhibited TH-enzyme activity from the basal value. These inhibitory effects of CGP42112 on TH-enzyme activity and-cGMP production were abolished by PD123319 (AT(2)-R antagonist) while CV-11974 (AT(1)-R antagonist) was ineffective. We also tested whether decrease of cGMP is involved in the inhibitory effect of CGP42112 on TH-enzyme activity. Pretreatment of 8-Br-cGMP (membrane-permeable cGMP analogue) prevented the inhibitory effect of CGP 42112 on TH-enzyme activity. Similar to that of TH-enzyme activity, CGP42112 (>==1 nM) significantly reduced TH-mRNA and TH-protein level from the basal value, and these inhibitory effects were abolished by PD123319 but not CV-11974. These findings demonstrate that CGP 42112 reduces both TH-enzyme activity and TH-synthesis and that these inhibitory effects could be mediated by decrease of cGMP production.     

Renal effects of angiotensin II receptor subtype 1 and 2-selective ligands injected into the paraventricular nucleus of conscious rats.

We determined the effects of losartan and CGP42112A (selective ligands of the AT1 and AT2 angiotensin receptors, respectively) and salarasin (a relatively nonselective angiotensin receptor antagonist) on urinary volume and urinary sodium and potassium excretion induced by administration of angiotensin II (ANG II) into the paraventricular nucleus (PVN) of conscious rats. Both the AT1 and AT2 ligands and salarasin administered in the presence of ANG II elicited a concentration-dependent inhibition of urine excretion, but losartan inhibited only 75% of this response. The IC50 for salarasin, CGP42112A, and losartan was 0.01, 0.05, and 6 nM, respectively. Previous treatment with saralasin, CGP42112A and losartan competitively antagonized the natriuretic responses to PVN administration of ANG II, and the IC50 values were 0.09, 0.48, and 10 nM, respectively. The maximum response to losartan was 65% of that obtained with saralasin. Pretreatment with saralasin, losartan, and CGP42112A injected into the PVN caused shifts to the right of the concentration-response curves, but the losartan concentrations were disproportionately greater compared with salarasin or CGP42112A. The IC50 values were 0.06, 0.5, and 7.0 for salarasin, CGP42112A, and losartan, respectively. These results suggest that both AT1 and AT2 receptor subtypes in the PVN are involved in ANG II-related urine, sodium, and potassium excretion, and that the inhibitory responses to AT2 blockade are predominant.     

Characterization of angiotensin II receptor subtypes in the rat spleen.

Quantitative autoradiography was used to determine the subtype of ANG receptors in the red pulp of the rat spleen. The AT1 antagonist DuP 753 competed for ANG binding with high affinity; binding was abolished by dithiothreitol. The AT2 competitor CGP 42112 A showed lower affinity, and the AT2 competitor PD 123177 did not affect binding at 10(-5) M. These data indicated the presence of only AT1 receptors. AT1 receptor number was similar in immature (2 weeks old) and adult (8 weeks old) rats. Binding was sensitive to guanine nucleotides, suggesting an association with G-proteins. Angiotensin II, at a dose of 10(-7) M, stimulated inositol phosphate formation 33% over control values in spleen from 8-week-old rats. This effect was significantly blocked by 10(-5) M DuP 753. We suggest a possible role of AT1 receptors in the regulation of splenic volume, blood flow, and lymphocyte function.     

DuP 753, the selective angiotensin II receptor blocker, is a competitive antagonist to human platelet thromboxane A2/prostaglandin H2 (TP) receptors.

DuP 753 is a potent, selective angiotensin II type 1 (AT1) receptor antagonist. The possibility was investigated that DuP 753 may crossreact with thromboxane A2/prostaglandin H2 (TP) receptors. DuP 753 inhibited the specific binding of the TP receptor antagonist [3H]SQ 29,548 (5 nM) in human platelets with kd/slope factor values of 9.6 +/- 1.4 microM/1.1 +/- 0.02. The AT2-selective angiotensin receptor ligand, PD 123,177 was a very weak inhibitor of specific [3H]SQ 29,548 binding in platelets (Kd/slope factor:200 microM/0.86). [3H]SQ 29,548 saturation binding in the absence and presence of DuP 753 resulted in an increase in equilibrium affinity constant (Kd: 9.3, 22, 33 nM, respectively) without a concentration-dependent reduction in binding site maxima (Bmax: 3597, 4597, 3109 fmol/mg protein, respectively). Platelet aggregation induced by the TP receptor agonist U 46,619 was concentration-dependently inhibited by DuP 753 (IC50 = 46 microM). These data indicate for the first time that DuP 753 is a weak but competitive antagonist at human platelet TP receptors.     

Functional involvement of angiotensin AT2 receptor in adrenal catecholamine secretion in vivo.

The aim of the present study was to analyse modulations of adrenal catecholamine secretion from the adrenal gland of anesthetized dogs in response to locally administered angiotensin II (AngII) in the presence of either PD 123319 or CGP 42112, both of which are highly specific and selective ligands to angiotensin AT2 receptor. Plasma concentrations of epinephrine and norepinephrine in adrenal venous and aortic blood were quantified by a high performance liquid chromatography coupled with electrochemical detection (HPLC-EC) method. Adrenal venous blood flow was measured by gravimetry. Local administration of AngII (0.05 microg, 0.1 microM) to the left adrenal gland increased adrenal gland catecholamine output more than 30 times that found in nonstimulated states. Administration of either PD 123319 (0.085 microg (0.23 microM) to 8.5 microg (23 microM)) or CGP 42112 (0.005 microg (0.01 microM) to 5 microg (10 microM)) did not affect the basal catecholamine output significantly. The increase in adrenal catecholamine output in response to AngII was inhibited by approximately 80% following the largest dose of PD 123319. CGP 42112 significantly attenuated the catecholamine response to AngII by approximately 70%. PD 123319 and CGP 42112 were devoid of any agonist actions with respect to catecholamine output by the adrenal gland in vivo. Furthermore, both PD 123319 and CGP 42112 inhibited the increase in adrenal catecholamine secretion induced by local administration of AngII. The present study suggests that AT2 receptors play a role in mediating catecholamine secretion by the adrenal medulla in response to AngII receptor agonist administration in vivo.     

DuP 753, the selective angiotensin II receptor blocker, is a competitive antagonist to human platelet thromboxane A2/prostaglandin H2 (TP) receptors

DuP 753 is a potent, selective angiotensin II type 1 (AT1) receptor antagonist. The possibility was investigated that DuP 753 may crossreact with thromboxane A₂/prostaglandin H₂ (TP) receptors. DuP 753 inhibited the specific binding of the TP receptor antagonist [³H]SQ 29,548 (5 nM) in human platelets with k_d/slope factor values of 9.6±1.4 μM/1.1±0.02. The AT2-selective angiotensin receptor ligand, PD 123,177 was a very weak inhibitor of specific [³H]SQ 29,548 binding in platelets (K_d/slope factor:200 μM/0.86). [³H]SQ 29,548 saturation binding in the absence and presence of DuP 753 resulted in an increase in equilibrium affinity constant (K_d: 9.3, 22, 33 nM, respectively) without a concentration-dependent reduction in binding site maxima (B_max: 3597, 4597, 3109 fmol/mg protein, respectively). Platelet aggregation induced by the TP receptor agonist U 46,619 was concentration-dependently inhibited by DuP 753 (IC₅₀=46 μM). These data indicate for the first time that DuP 753 is a weak but competitive antagonist at human platelet TP receptors.     

Effects of angiotensin II antagonists on the contractile and hydrosmotic effect of AT II and AT III in the toad (Bufo arenarum)

The effects of peptide and non-peptide angiotensin II receptor antagonists on the responses to angiotensin II were examined using aortic rings and skin isolated from the toad. The contractile responses of aortic rings to (Ala-Pro-Gly) angiotensin II were inhibited by the angiotensin II analogue Leu⁸ angiotensin II, with a pA₂ value of 7.6. Similarly, the concentration response curve for (Ala-Pro-Gly) angiotensin II was displaced to the right by the specific angiotensin receptor subtype antagonist DuP 753, with a pA₂ value of 6.0. In contrast, the angiotensin receptor subtype 2 antagonists PD 123177 and CGP 42112A did not modify the contractile response to (Ala-Pro-Gly) angiotensin II. None of the antagonists was able to alter the contractile response to norepinephrine. Both Leu⁸ angiotensin II (10^-8 mol·l^-1) and DuP 753 (10^-6 mol·l^-1) partially inhibited angiotensin III-induced contractions in toad aorta. Angiotensin III, in turn, exhibited lower activity than [Asn¹-Val⁵] angiotensin II in this preparation, its molar potency ratio being 0.293. Previous work from this laboratory reported that osmotic water permeability in the skin of the toad Bufo arenarum was increased by angiotensin II, the effect being blocked by the peptide antagonist Leu⁸ angiotensin II. The hydrosmotic response to [Asn¹-Val⁵] angiotensin II (10^-7 mol·l^-1) was significantly inhibited by DuP 753 (10^-6 and 5×10^-6 mol·l^-1), whereas the response was not inhibited by a tenfold higher concentration of either PD 123177 or CGP 42112A. DuP 753 (10^-6 mol·l^-1) also inhibited the hydrosmotic response to angiotensin III (10^-7 mol·l^-1). These results suggest that receptors for angiotensin II present in isolated toad aorta and skin exhibit pharmacological features similar to those characterized as angiotensin subtype 1 in mammalian tissues.Abbreviations AT ₁ angiotensin receptor subtype 1 - AT ₂ angiotensin receptor subtype 2 - AT II angiotensin II - AT III angiotensin III - CDRC cumulative doseresponse curve(s) - NE norepinephrine - SCC short-circuit current     

Effects of peptide and non-peptide antagonists of angiotensin II receptors on drinking behavior in rats.

The effects of the non-peptide selective angiotensin II AT1 receptor antagonist DuP 753 and its metabolite EXP 3174, of the peptide ANGII analogues saralasin and sarmesin and of the newly synthesized imidazole compound (1-methyl-4,5-diphenylimidazole) on ANGII-induced drinking in rats were investigated. The effect of the AT2 selective antagonist PD 123319 on ANGII-induced drinking in rats was also studied. DuP 753, EXP 3174, saralasin and sarmesin (peptides and non-peptides) dose-dependently inhibited ANGII-induced water intake. The ID50 values of these drugs showed the following order of potency: EXP 3174 > saralasin > sarmesin > DuP 753 indicating their ability to block central AT1 receptors. The imidazole compound increased ANGII-induced water intake suggesting its AT1 receptor agonistic properties. PD 123319 inhibited ANGII-induced water intake at a higher dose (64 nmol), allowing to assume AT1 receptor agonistic properties.     

AT1 Angiotensin Receptors Mobilize Intracellular Calcium in a Subclone of NG108–15 Neuroblastoma Cells

The effects of angiotensin II (AII) and related peptides on the mobilization of internal Ca2+ were studied in a subclone of NG 108-15 cells. The subclone, C1, was prepared by fluorescence-activated cell cloning using a rapid response kinetics and a large response magnitude following stimulation by AII as the selection criteria. Angiotensin I, AII, and angiotensin III (AIII) stimulated Ca2+ mobilization in the C1 cells in a concentration-dependent manner (1 nM-100 microM), yielding EC50 values of 437 +/- 80 nM (n = 4; slope = 1.6 +/- 0.3), 57 +/- 8 nM (n = 12; slope = 1.5 +/- 0.3), and 36 +/- 5 nM (n = 7; slope = 1.4 +/- 0.3), respectively. AIII was significantly more potent than AII (p less than 0.05). In contrast, Des-Phe8-AII, AII-hexapeptide (AII 3-8), and p-NH2-Phe6-AII (1-10 microM) were inactive as agonists. Although the effects of AII and AIII in C1 and parent NG108-15 cells were totally inhibited by the AT1 receptor-selective nonpeptide antagonist, DUP-753 (0.3-1 microM), the AT2-selective antagonists, EXP-655 and CGP42112A (1-10 microM), failed to block the effects of AII. DUP-753 (0.3-100 nM) produced dextral shifts of the AII-induced concentration-response curves and yielded an estimated affinity constant (pA2) of 8.5 +/- 0.2 (n = 16) using single-point analysis involving different concentrations of DUP-753. These data compared well with those obtained for the inhibition of AII-induced aortic contractions by DUP-753 (pA2 = 8.5) reported previously by others.(ABSTRACT TRUNCATED AT 250 WORDS)     

Characterization and coupling of angiotensin-II receptor subtypes in cultured bovine adrenal fasciculata cells.

Angiotensin-II (A-II) receptor subtypes and their potential coupling mechanisms were investigated in bovine adrenal fasciculata cells (BAC) in culture, by the use of selective antagonists for AT1 (DUP 753 or Losartan) and AT2 (PD 123177 and CGP 42112A) sites. Competition for [125I]A-II specific binding with AT1 or AT2 selective ligands produced a biphasic displacement curve, suggesting two distinct A-II binding sites. In the presence of PD 123177 (10(-5) M), a concentration at which most of the AT2 sites were saturated, DUP 753 displaced [125I]A-II specific binding in a monophasic manner with an IC50 of 6.2 +/- 1.4 x 10(-7) M. In the presence of DUP 753 (10(-5) M), the displacement produced by CGP 42112A and PD 123177 was also monophasic, with IC50s of 8 +/- 3 x 10(-10) and 4.6 +/- 2.1 x 10(-7) M, respectively. The reducing agent dithio-1,4-erythritol inhibited the binding of [125I]A-II to AT1 (DUP 753 sensitive) sites, but increased its binding to AT2 sites 2-fold. The IC50 values for these two effects were about 0.5 and 3 mM, respectively. The biological effects of A-II in BAC, phosphoinositide hydrolysis and cortisol production, were inhibited in a dose-dependent manner by DUP 753, but not by AT2 antagonists. Similarly, the potentiating action of A-II on corticotropin-induced cAMP production was blocked by DUP 753, but not by AT2 antagonists. These data indicate that BAC contain both receptor subtypes, but that all the known effects of A-II in BAC were induced via the AT1 receptor subtype.     

A role for the angiotensin IV/AT4 system in mediating natriuresis in the rat

Angiotensin II (AngII) or Angiotensin IV (AngIV) was infused into the renal artery of anesthetized rats while renal cortical blood flow was measured via laser Doppler flowmetry. The infusion of AngII produced a significant elevation in mean arterial pressure (MAP) with an accompanying decrease in cortical blood flow, glomerular filtration rate (GFR), urine volume, and urine sodium excretion. The infusion of AngIV induced significant increases in renal cortical blood flow and urine sodium excretion, without altering MAP, GFR, and urine volume. Pretreatment infusion with a specific AT1 receptor antagonist, DuP 753, blocked or attenuated the subsequent AngII effects, while pretreatment infusion with the specific AT4 receptor antagonist, Divalinal-AngIV, blocked the AngIV effects. These results support distinct and opposite roles for AngII and AngIV, i.e. AngII acts as an anti-natriuretic agent, while AngIV acts as a natriuretic agent.     

Molecular cloning of a ferret angiotensin II AT(1) receptor reveals the importance of position 163 for Losartan binding

A complementary DNA for the angiotensin II (AngII) type 1 (AT(1)) receptor from Mustela putorius furo (ferret) was isolated from a ferret atria cDNA library. The cDNA encodes a protein (fAT(1)) of 359 amino acids having high homologies (93-99%) to other mammalian AT(1) receptor counterparts. When fAT(1) was expressed in COS-7 cells and photoaffinity labeled with the photoactive analogue (125)I-?Sar(1), Bpa(8)AngII, a protein of 100 kDa was detected by autoradiography. The formation of this complex was specific since it was abolished in the presence of the AT(1) non-peptidic antagonist L-158,809. Functional analysis indicated that the fAT(1) receptor efficiently coupled to phospholipase C as demonstrated by an increase in inositol phosphate production following stimulation with AngII. Binding studies revealed that the fAT(1) receptor had a high affinity for the peptide antagonist ?Sar(1), Ile(8)AngII (K(d) of 5. 8+/-1.4 nM) but a low affinity for the AT(1) selective non-peptidic antagonist DuP 753 (K(d) of 91+/-15.6 nM). Interestingly, when we substituted Thr(163) with an Ala residue, which occupies this position in many mammalian AT(1) receptors, we restored the high affinity of this receptor for Dup 753 (11.7+/-5.13 nM). These results suggest that position 163 of the AT(1) receptor does not contribute to the overall binding of peptidic ligands but that certain non-peptidic antagonists such as Dup 753 are clearly dependent on this position for efficient binding.     

Effects of angiotensin II microinjected into medial amygdala on male sexual behavior in rats

Research was undertaken to study the role of central angiotensin in the modulation of male sexual behavior, testing the effect of angiotensin II (Ang II) injections into the medial amygdaloid nucleus (MeA). The sexual behavior of adult male Wistar rats was evaluated, 15 min after bilateral intra-amygdaloid microinjection (0.3 microl) of saline and 5 doses of Ang II: 10; 25; 50; 100, and 150 fmol. The effects of the Ang II receptor blockade were also studied. We tested the effect of coinjection of Ang II (50 fmol) with the AT1 antagonist, losartan (20 pmol) and the AT2 antagonist, CGP 42112 (1 pmol). Ang II inhibited sexual behavior and this inhibition was prevented by the coinjection of AT1 antagonist, losartan, or the AT2 antagonist, CGP 42112. Results show that Ang II has a powerful effect on male sexual behavior, which may be mediated by both AT1 and AT2 receptors.     

Nephrectomy and a newly identified binding site for angiotensin II in the rat adrenal cortex.

Angiotensin II (Ang II) binding sites in adrenal glands of nephrectomized rats were investigated by in vitro autoradiography using 125I-[Sar1,Ile8]Ang II as ligands. Ang II binding site was increased to 161% in the cortex and decreased to 67% in the medulla 48 h after nephrectomy. In the medulla, the AT2 antagonist (PD123177, 5 microM) inhibited specific binding by 90% whereas the AT1 antagonist (DuP753, 5 microM) inhibited by only 10%. In contrast, in the cortex, neither DuP753 (5 microM) nor PD123177 (5 microM) substantially inhibited the binding. Binding in the presence of either the AT1 or AT2 antagonist was abolished by the simultaneous presence of both antagonists. These results suggest the presence of a new Ang II binding site with unique pharmacological properties and differing from currently known subtypes of Ang II receptors, in the adrenal cortex after nephrectomy.     

Effects of angiotensin II and its selective antagonists on inferior olivary neurones.

On the basis of biochemical and autoradiographic studies it has been shown that the inferior olivary nucleus (ION) contains predominantly angiotensin II (Ang II) receptors of the subtype 2 (AT2). In the present investigation we used microiontophoretic techniques to test the effect of Ang II on the spontaneous firing rate of rat neurones in the ION in vivo. Ang II excited the majority of histologically identified ION neurones. Furthermore, the antagonism of this angiotensin-induced excitation by selective angiotensin receptor blockers of subtype 1 and 2 (AT1 and AT2) was examined. The excitation could be blocked by low doses of the AT2-antagonists PD 123177 and CGP 42112A, whereas the AT1-antagonist DuP 753 was ineffective even at high doses. On a few occasions, however, ejection of the AT1-antagonist resulted in a potentiation of angiotensin-induced excitation. The results suggest that Ang II has an excitatory effect on a considerable number of ION neurones and that this effect is mediated by AT2-receptors.     

Effects of angiotensins on cellular hypertrophy and c-fos expression in cultured arterial smooth muscle cells.

An increase in cell size and protein content was observed when quiescent arterial smooth muscle cells in culture were incubated with either angiotensin II or III. These effects were inhibited by the specific angiotensin type-1 receptor antagonist losartan (DuP753) but not by CGP42112A. In parallel, a transient and dose-dependent induction of c-fos was demonstrated not only with angiotensins II and III but also with angiotensin I. Both angiotensins II and III exerted their maximal effect at 1 microM, while angiotensin I needed a tenfold-higher concentration to exert an identical effect. As for hypertrophy, losartan also inhibits angiotensin-induced c-fos expression, suggesting that this gene may be involved into the hypertrophic process. Angiotensin-I-mediated c-fos induction is partially inhibited by the angiotensin-converting enzyme inhibitors captopril and trandolaprilate; given that an angiotensin-converting enzyme activity was detected in these smooth muscle cell cultures, these results suggest that angiotensin-I-induced c-fos expression is mediated in part via angiotensin-I conversion to angiotensin II, but also by other unidentified pathway(s). Angiotensin I could essentially induce smooth muscle cell hypertrophy by indirect mechanisms, while angiotensins II and III act directly on smooth muscle cells.     

Down-Regulation of Angiotensin II Receptor Subtypes and Desensitization of Cyclic GMP Production in Neuroblastoma N1E-115 Cells

Abstract: Murine neuroblastoma N1E-115 cells possess membranous receptors for the octapeptide angiotensin II (AngII) whose density is substantially increased by in vitro differentiation. Incubation of differentiated N1E-115 cells with AngII produced a rapid decrease in receptor density, but did not alter the affinity of these receptors for either ¹²⁵I-AngII or the high-affinity antagonist ¹²⁵I-[Sarc¹,Ile⁸]-AngII. This apparent down-regulation was dose related with an ED₅₀ of 1 nM, and maximal decreases of ～90% were obtained with 100 nM AngII. Receptor loss from differentiated cell membranes was unaffected by incubations of membranes obtained from agonist-exposed cells with non-hydrolyzable analogues of GTP for 60 min at 37°C to ensure dissociation of the ligand. Partial loss of AngII receptors was apparent within 5 min of agonist exposure, whereas maximal declines were not observed until 30 min. This temporal pattern resulted from a preferential decrease in the AT₁ receptor subtype during the first 5 min, followed by a decline in both AT₁ and AT₂ receptors with longer periods of agonist exposure. The loss of membranous receptors was reversible with partial recovery observed after 4 h, and with nearly full recovery observed 18 h after exposure of the cells to AngII. However, the long-term recovery of receptor density was blocked by the protein synthesis inhibitor, cycloheximide. The heptapeptide angiotensin III produced a similar down-regulation of receptors, and the high-affinity antagonist [Sarc¹, Thr⁸]-AngII blocked agonist-induced down-regulation. Finally, the apparent loss of cell surface Angll receptors decreased the ability of AngII to stimulate cyclic GMP production within intact N1E-115 cells. These results suggest that differentiated N1E-115 cells are an excellent cell line in which to examine the factors regulating the expression of AngII receptor subtypes in the nervous system.     

Intracisternal galanin/angiotensin II interactions in central cardiovascular control

The aim of this work was to investigate the interactions between angiotensin II (Ang II) and galanin(1-29) [GAL(1-29)] or its N-terminal fragment galanin(1-15) [GAL(1-15)] on central cardiovascular control. The involvement of angiotensin type1 (AT1) receptor subtype was analyzed by the AT1 antagonist, DuP 753. Anesthesized male Sprague-Dawley rats received intracisternal microinjections of Ang II (3 nmol) with GAL(1-29) (3 nmol) or GAL(1-15) (0.1 nmol) alone or in combination. The changes in mean arterial pressure (MAP) and heart rate (HR) recorded from the femoral artery were analyzed. The injection of Ang II and GAL(1-15) alone did not produce any change in MAP. However, coinjections of both Ang II and GAL(1-15) elicited a significant vasopressor response. This response was blocked by DuP 753. Ang II and GAL(1-15) alone produced an increase in HR. The coinjections of Ang II with GAL(1-15) induced an increase in HR not significantly different from the tachycardia produced by each peptide. The presence of DuP 753 counteracted this response. GAL(1-29) alone elicited a transient vasopressor response that disappeared in the presence of Ang II. The coinjections of Ang II with GAL(1-29) and with DuP 753 restored the transient vasopressor effect produced by GAL(1-29). GAL(1-29) produced a slight but significant tachycardic effect that was not modified in the presence of Ang II. The presence of DuP 753 did not modify the tachycardic response produced by Ang II and GAL(1-29). These results give indications for the existence of a differential modulatory effect of Ang II with GAL(1-15) and GAL(1-29) on central blood pressure response that might be dependent on the activity of the angiotensin AT1 receptor subtype.     

Angiotensin-II-induced expression of proto-oncogene (c-fos, jun-B and c-jun) mRNA in bovine adrenocortical fasciculata cells (BAC) is mediated by AT-1 receptors.

We have shown previously that angiotensin-II (A-II) controls proto-oncogene (c-fos, jun-B and c-jun) mRNA accumulation in bovine adrenal fasciculata cells (BAC). Since BAC contain both subtypes (AT-1 and AT-2) of the A-II receptor, we have investigated which subtype was involved in the effect of A-II on proto-oncogene mRNA by using a selective antagonist for AT-1 (DUP 753) and for AT-2 (CGP 42112A). DUP 753, but not CGP 42112A, inhibited the stimulatory effect of A-II on proto-oncogene mRNA, with ID50s of 4 x 10(-7) M, 7 x 10(-7) M and 2 x 10(-6) M for c-fos, jun-B and c-jun, respectively. Neither of the two antagonists by themselves had a direct effect on proto-oncogene mRNA. As the A-II AT-1 receptors are coupled to the phospholipase C system in BAC, we have investigated whether the A-II effects on the proto-oncogenes were mediated by protein kinase C (PKC) or by Ca2+ calmodulin. First, activation of PKC by the phorbol ester, PMA, increased the level of three proto-oncogene mRNAs, whereas calcium ionophore had no effect. Second, staurosporine, a specific inhibitor of PKC, reduced the stimulatory action of A-II on proto-oncogene mRNA by 80-90%, whereas trifluoroperazine, an inhibitor of calmodulin, had no significant effect. These results demonstrate that the effects of A-II on proto-oncogene mRNA are mediated by AT1 receptor subtypes, mainly through activation of the PKC pathway.     

Angiotensin II type 2 receptor correlates with therapeutic effects of losartan in rats with adjuvant‐induced arthritis

The angiotensin II type 1 receptor (AT1R) blocker losartan ameliorates rheumatoid arthritis (RA) in an experimental model. In RA, AT2R mainly opposes AT1R, but the mechanism by which this occurs still remains obscure. In the present study, we investigated the role of AT2R in the treatment of rats with adjuvant-induced arthritis (AIA) by losartan. Adjuvant-induced arthritis rats were treated with losartan (5, 10 and 15 mg/kg) and methotrexate (MTX; 0.5 mg/kg) in vivo from day 14 to day 28. Arthritis was evaluated by the arthritis index and histological examination. Angiotensin II, tumour necrosis factor-α, and VEGF levels were examined by ELISA. The expression of AT1R and AT2R was detected by western blot and immunohistochemistry analysis. After stimulation with interleukin-1β in vitro, the effects of the AT2R agonist {"type":"entrez-protein","attrs":{"text":"CGP42112","term_id":"874777115","term_text":"CGP42112"}}CGP42112 (10⁻⁸–10⁻⁵ M) on the chemotaxis of monocytes induced by 10% foetal calf serum (FCS) were analysed by using Transwell assay. Subsequently, the therapeutic effects of {"type":"entrez-protein","attrs":{"text":"CGP42112","term_id":"874777115","term_text":"CGP42112"}}CGP42112 (5, 10 and 20 μg/kg) were evaluated in vivo by intra-articular injection in AIA rats. After treatment with losartan, the down-regulation of AT1R expression and up-regulation of AT2R expression in the spleen and synovium of AIA rats correlated positively with reduction in the polyarthritis index. Treatment with {"type":"entrez-protein","attrs":{"text":"CGP42112","term_id":"874777115","term_text":"CGP42112"}}CGP42112 inhibited the chemotaxis of AIA monocytes in vitro, possibly because of the up-regulation of AT2R expression. Intra-articular injection with {"type":"entrez-protein","attrs":{"text":"CGP42112","term_id":"874777115","term_text":"CGP42112"}}CGP42112 (10 and 20 μg/kg) ameliorated the arthritis index and histological signs of arthritis. In summary, the present study strongly suggests that the up-regulation of AT2R might be an additional mechanism by which losartan exerts its therapeutic effects in AIA rats.