Hypertensive end-organ damage and premature mortality are p38 mitogen-activated protein kinase-dependent in a rat model of cardiac hypertrophy and dysfunction.

BACKGROUND: Numerous pathological mediators of cardiac hypertrophy (eg, neurohormones, cytokines, and stretch) have been shown to activate p38 MAPK. The purpose of the present study was to examine p38 MAPK activation and the effects of its long-term inhibition in a model of hypertensive cardiac hypertrophy/dysfunction and end-organ damage. METHODS AND RESULTS: In spontaneously hypertensive stroke-prone (SP) rats receiving a high-salt/high-fat diet (SFD), myocardial p38 MAPK was activated persistently during the development of cardiac hypertrophy and inactivated during decompensation. Long-term oral treatment of SFD-SP rats with a selective p38 MAPK inhibitor (SB239063) significantly enhanced survival over an 18-week period compared with the untreated group (100% versus 50%). Periodic echocardiographic analysis revealed a significant reduction in LV hypertrophy and dysfunction in the SB239063-treatment groups. Little or no difference in blood pressure was noted in the treatment or vehicle groups. Basal and stimulated (lipopolysaccharide) plasma tumor necrosis factor-alpha concentrations were reduced in the SB239063-treatment groups. In vitro vasoreactivity studies demonstrated a significant preservation of endothelium-dependent relaxation in animals treated with the p38 MAPK inhibitor without effects on contraction or NO-mediated vasorelaxation. Proteinuria and the incidence of stroke (53% versus 7%) were also reduced significantly in the SB239063-treated groups. CONCLUSIONS: These results demonstrate a crucial role for p38 MAPK in hypertensive cardiac hypertrophy and end-organ damage. Interrupting its function with a specific p38 MAPK inhibitor halts clinical deterioration.

Identification of a selective nonpeptide antagonist of the anaphylatoxin C3a receptor that demonstrates antiinflammatory activity in animal models.

The anaphylatoxin C3a is a potent chemotactic peptide and inflammatory mediator released during complement activation which binds to and activates a G-protein-coupled receptor. Molecular cloning of the C3aR has facilitated studies to identify nonpeptide antagonists of the C3aR. A chemical lead that selectively inhibited the C3aR in a high throughput screen was identified and chemically optimized. The resulting antagonist, N(2)-[(2,2-diphenylethoxy)acetyl]-L-arginine (SB 290157), functioned as a competitive antagonist of (125)I-C3a radioligand binding to rat basophilic leukemia (RBL)-2H3 cells expressing the human C3aR (RBL-C3aR), with an IC(50) of 200 nM. SB 290157 was a functional antagonist, blocking C3a-induced C3aR internalization in a concentration-dependent manner and C3a-induced Ca(2+) mobilization in RBL-C3aR cells and human neutrophils with IC(50)s of 27.7 and 28 nM, respectively. SB 290157 was selective for the C3aR in that it did not antagonize the C5aR or six other chemotactic G protein-coupled receptors. Functional antagonism was not solely limited to the human C3aR; SB 290157 also inhibited C3a-induced Ca(2+) mobilization of RBL-2H3 cells expressing the mouse and guinea pig C3aRS: It potently inhibited C3a-mediated ATP release from guinea pig platelets and inhibited C3a-induced potentiation of the contractile response to field stimulation of perfused rat caudal artery. Furthermore, in animal models, SB 290157, inhibited neutrophil recruitment in a guinea pig LPS-induced airway neutrophilia model and decreased paw edema in a rat adjuvant-induced arthritis model. This selective antagonist may be useful to define the physiological and pathophysiological roles of the C3aR.

Differential vasoconstrictor activity of human urotensin-II in vascular tissue isolated from the rat, mouse, dog, pig, marmoset and cynomolgus monkey.

1. Urotensin-II (U-II) and its G-protein-coupled receptor, GPR14, are expressed within mammalian cardiac and peripheral vascular tissue and, as such, may regulate mammalian cardiovascular function. The present study details the vasoconstrictor profile of this cyclic undecapeptide in different vascular tissues isolated from a diverse range of mammalian species (rats, mice, dogs, pigs, marmosets and cynomolgus monkeys). 2. The vasoconstrictor activity of human U-II was dependent upon the anatomical origin of the vessel studied and the species from which it was isolated. In the rat, constrictor responses were most pronounced in thoracic aortae and carotid arteries: -log[EC(50)]s 9.09+/-0.19 and 8.84+/-0.21, R(max)s 143+/-21 and 67+/-26% 60 mM KCl, respectively (compared, for example, to -log[EC(50)] 7.90+/-0.11 and R(max) 142+/-12% 60 mM KCl for endothelin-1 [ET-1] in thoracic aortae). Responses were, however, absent in mice aortae (-log[EC(50)] <6.50). These findings were further contrasted by the observation that U-II was a 'coronary-selective' spasmogen in the dog (-log[EC(50)] 9.46+/-0.11, R(max) 109+/-23% 60 mM KCl in LCX coronary artery), yet exhibited a broad spectrum of vasoconstrictor activity in arterial tissue from Old World monkeys (-log[EC(50)]s range from 8.96+/-0.15 to 9.92+/-0.13, R(max)s from 43+/-16 to 527+/-135% 60 mM KCl). Interestingly, significant differences in reproducibility and vasoconstrictor efficacy were seen in tissue from pigs and New World primates (vessels which responded to noradrenaline, phenylephrine, KCl or ET-1 consistently). 3. Thus, human U-II is a potent, efficacious vasoconstrictor of a variety of mammalian vascular tissues. Although significant species/anatomical variations exist, the data support the hypothesis that U-II influences the physiological regulation of mammalian cardiovascular function.

Pharmacological characterization of the uroselective alpha-1 antagonist Rec 15/2739 (SB 216469): role of the alpha-1L adrenoceptor in tissue selectivity, part I.

Alpha adrenoceptor antagonists have been convincingly shown to be beneficial in reducing both subjective and objective indices of urethral obstruction in benign prostatic hyperplasia. Rec 15/2739 (SB 216469) is a novel alpha-1 adrenoceptor (alpha-1 AR) antagonist currently being developed for benign prostatic hyperplasia. When evaluated in radioligand binding assays with expressed animal or human alpha-1 ARs, Rec 15/2739 shows marked to moderate selectivity for the alpha-1a AR subtype. Its affinity for the recombinant alpha-2 AR subtypes or native dopaminergic D2 receptor was about 100-fold lower than that for alpha-1a AR subtype. In canine tissues, Rec 15/2739 was 20-fold more potent as an inhibitor of [3H]prazosin binding to prostate vis-a-vis aorta. Functional studies in isolated rabbit tissues also confirmed the uroselectivity of Rec 15/2739, with substantially higher affinity (Kb = 2-3 nM) being observed in urethra and prostate, compared with ear artery and aorta (Kb = 20-100 nM). The in vitro selectivity observed with Rec 15/2739 was confirmed in vivo in the anesthetized dog, comparing potency against norepinephrine- or hypogastric nerve stimulation-induced urethral contraction with its ability to reduce diastolic blood pressure. In this model, Rec 15/2739 had greater selectivity than any other alpha-1 AR antagonist examined, including terazosin and tamsulosin. Based on the low potency of prazosin and some of its structural analogs in the rabbit and dog lower urinary tract tissues, it appears that norepinephrine contracts these tissues via activation of the alpha-1L AR. Hence this alpha-1 AR subtype, rather than the alpha-1A AR, may mediate the contraction in vivo.

Pharmacological characterization of the uroselective alpha-1 antagonist Rec 15/2739 (SB 216469): role of the alpha-1L adrenoceptor in tissue selectivity, part II.

The aim of the present work was to investigate whether or not the uroselectivity of Rec 15/2739 and several other alpha-1 adrenoceptor (alpha1-AR) antagonists observed in the anesthetized dog could be related to selectivity of these compounds for a particular alpha-1 AR subtype. The binding affinity of the tested compounds for canine prostate alpha-1 ARs and their in vitro functional affinity for the alpha-1 ARs of rabbit urethra and prostate correlated with their functional affinity for the alpha-1L AR subtype, but not with the binding affinity for recombinant animal and human alpha-1a, alpha-1b and alpha-1d AR subtypes. Similar results were obtained when the in vivo potency on urethral pressure was correlated with the affinity for the alpha-1 AR subtypes; also in this case alpha-1L AR gave the best correlation. No correlation was obtained by considering the other alpha-1 AR subtypes. The in vivo hypotensive effects observed in dog after i.v. administration of the considered compounds correlated only with the binding affinity for the animal and human alpha-1d subtype. In conclusion, the results shown in the present paper indicate that the potencies of different alpha-1 antagonists against the contractions induced by norepinephrine on tissues of the lower urinary tract of rabbits and dogs are better correlated with their affinity for the putative alpha-1L subtype than for the alpha-1a subtype. Only the compounds showing selectivity for the alpha-1L subtype versus the alpha-1d subtype proved highly selective in vivo for the lower urinary tract versus the vascular tissues.

Liposome encapsulation attenuates hemoglobin-induced vasoconstriction in rabbit arterial segments.

Free hemoglobin (Hb) induces a potent vasoconstrictor response that may limit its therapeutic application as a red blood cell replacement. We have investigated whether encapsulation of stroma-free Hb (SFHb) or cross-linked Hb (alpha alpha-Hb) in liposomes modulates Hb vasoactivity in isolated blood vessels. Relaxation of rabbit thoracic vessels was measured before and after exposure to acellular SFHb, alpha alpha-Hb, and liposome-encapsulated SFHb or alpha alpha-Hb. SFHb and alpha alpha-Hb caused significant inhibition of carbachol-induced relaxation at 0.5 mg/dl, whereas encapsulation inhibited vessel relaxation at 30- to 60-fold higher Hb concentrations. The contractile response of rabbit ear arterial segments to electrical stimulation in the presence of acellular alpha alpha-Hb resulted in a 150% increase (EC150) in contractile amplitude at 0.23 mg/dl, whereas the EC150 for encapsulated alpha alpha-Hb was 13.7 mg/dl. Mechanistic studies of the vasoconstrictor activity of Hb demonstrated that acellular alpha alpha-Hb had no effect on norepinephrine release in the rabbit ear artery. In addition, neither acellular nor encapsulated alpha alpha-Hb preparations inhibited endothelial nitric oxide (NO) synthase activity isolated from bovine pulmonary artery. However, inhibition of vessel relaxation by acellular or encapsulated alpha alpha-Hb was reversed by the NO donor S-nitrosylpenacillamine, implicating Hb-NO binding as a possible mechanism for the vasoconstrictor response. In vitro stopped-flow kinetic studies of Hb-NO binding showed similar rates of reaction for conversion of oxyhemoglobin to methemoglobin (metHb; < 2 ms), followed by rapid conversion of metHb to NO-Hb (300 ms) for both acellular and encapsulated alpha alpha-Hb, demonstrating that liposome encapsulation does not retard NO-Hb binding. The attenuated vasoactivity of encapsulated Hb may, therefore, result from the limited access of encapsulated Hb to NO imposed by the physical size of the liposome and reduced penetration of Hb across the vascular endothelium.

Identification, characterization, and functional role of phosphodiesterase type IV in cerebral vessels: effects of selective phosphodiesterase inhibitors.

The role of the phosphodiesterase type IV isozyme (PDE IV) in the regulation of cerebrovascular tone was investigated in the canine basilar artery in vitro and in vivo. The PDE isozymes extracted from the canine basilar artery were isolated by diethylaminoethanol (DEAE)-Sepharose affinity chromatography and identified based on sensitivity to isozyme-selective PDE inhibitors. [3H]cAMP hydrolysis was observed in one major and one minor peak of activity. The predominant peak was inhibited by the addition of cGMP (25%), siguazodan (26%), rolipram (39%), and the combination of siguazodan and rolipram (95%). Selective PDE IV inhibitors BRL 61063, rolipram, and denbufylline were equieffective inhibitors of [3H]-ccAMP hydrolysis mediated by PDE IV isolated from the canine basilar artery [concentrations producing 50% inhibition (IC50S) = 0.21 +/- 0.05 microM, 0.67 +/- 0.23 microM, and 0.73 +/- 0.16 microM, respectively]. In precontracted isolated ring segments of the canine basilar artery, selective PDE IV inhibitors produced potent and complete relaxation (IC50S < 150 nM). In contrast, zaprinast (a selective PDE V inhibitor) and siguazodan (a selective PDE III inhibitor) produced only weak relaxation of the basilar artery (IC50S = 4.5 microM and > 10 microM, respectively). Vasorelaxation produced by PDE IV inhibitors was not altered by removing the endothelium, 1-NAME, or adenosine receptor antagonism. In a canine model of acute cerebral vasospasm, all three selective PDE IV inhibitors reversed basilar artery spasm produced by autologous blood without altering mean arterial blood pressure. In contrast, prolonged treatment with BRL 61063 failed to alter the development of basilar spasm in the two hemorrhage canine models of chronic cerebral vasospasm. Denbufylline-induced relaxation in vitro was also significantly impaired in basilar arteries obtained from the model of chronic vasospasm. In conclusion, PDE IV appears to be the predominant isozyme regulating vascular tone mediated by cAMP hydrolysis in cerebral vessels. In addition, vasorelaxation modulated by PDE IV is compromised in chronic cerebral vasospasm associated with subarachnoid hemorrhage.

"Vinylogs" and "acetylenylogs" of beta-adrenergic agents.

Vinylogous (Groups III and V) and acetylenologous (Group IV) analogs of the classical beta-adrenergic agents--stimulants and blockers--were prepared in order to evaluate the effect of degree of saturation, position of unsaturation and rigidity of the chain linking the aromatic ring and the amino containing functional group on biological activity. Derivatives from Group III, which represent 4-aryl-3-butenyl-2-ol-amine analogs of Group II, retained beta 1-adrenoceptor antagonist activity albeit substantially less potent (50-200-fold) than that possessed by their aryloxy counterparts. Consistent with the SAR for Group II compounds, substitution at position 2 of the aromatic ring yielded the most potent antagonists (5a, 5d, 5g), with KB's ranging from 73-93 nM while 3,4-dichloro substitution (5e) markedly reduced antagonist potency (KB = 2,400 nM). Agonist activity was also noted for 5b and 5d, suggesting that these compounds may be best classified as partial agonists. Representatives from Groups IV and V were inactive as antagonists at the beta 1-adrenoceptor confirming the importance of the spatial relationship between the hydroxyl and the amino nitrogen.

Discovery of adrenomedullin in rat ischemic cortex and evidence for its role in exacerbating focal brain ischemic damage.

Focal brain ischemia is the most common event leading to stroke in humans. To understand the molecular mechanisms associated with brain ischemia, we applied the technique of mRNA differential display and isolated a gene that encodes a recently discovered peptide, adrenomedullin (AM), which is a member of the calcitonin gene-related peptide (CGRP) family. Using the rat focal stroke model of middle cerebral artery occlusion (MCAO), we determined that AM mRNA expression was significantly increased in the ischemic cortex up to 17.4-fold at 3 h post-MCAO (P < 0.05) and 21.7-fold at 6 h post-MCAO (P < 0.05) and remained elevated for up to 15 days (9.6-fold increase; P < 0.05). Immunohistochemical studies localized AM to ischemic neuronal processes, and radioligand (125I-labeled CGRP) displacement revealed high-affinity (IC50 = 80.3 nmol) binding of AM to CGRP receptors in brain cortex. The cerebrovascular function of AM was studied using synthetic AM microinjected onto rat pial vessels using a cranial window or applied to canine basilar arteries in vitro. AM, applied abluminally, produced dose-dependent relaxation of preconstricted pial vessels (P < 0.05). Intracerebroventricular (but not systemic) AM administration at a high dose (8 nmol), prior to and after MCAO, increased the degree of focal ischemic injury (P < 0.05). The ischemia-induced expression of both AM mRNA and peptide in ischemic cortical neurons, the demonstration of the direct vasodilating effects of the peptide on cerebral vessels, and the ability of AM to exacerbate ischemic brain damage suggests that AM plays a significant role in focal ischemic brain injury.

Nonpeptide endothelin antagonist. Cerebrovascular characterization and effects on delayed cerebral vasospasm.

BACKGROUND AND PURPOSE: (+/-)-SB 209670, a potent nonpeptide endothelin (ET) receptor antagonist, was used to investigate the potential role of ET in cerebral vasospasm associated with subarachnoid hemorrhage. METHODS: The effects of (+/-)-SB 209670 were evaluated in isolated segments of canine posterior cerebral arteries in vitro, vascular smooth muscle cells in culture, and in the canine two-hemorrhage model of delayed cerebral vasospasm in vivo. RESULTS: In the canine basilar and anterior spinal arteries, (+/-)-SB 209670 caused a dose-related inhibition of contractile responses mediated by ET (KB = 4.6 nmol/L and apparent KB = 2.7 nmol/L, respectively). The effects of (+/-)-SB 209670 were mediated by inhibition of ETA receptors since the ETB selective agonist sarafotoxin 6c did not contract these posterior cerebral vessels. (+/-)-SB 209670 also produced a concentration-dependent inhibition (IC50 = 1 nmol/L) of the mitogenic response induced by ET-1 in vascular smooth muscle cell culture. In the canine model of delayed cerebral vasospasm, animals received intracisternal vehicle (saline) or (+/-)-SB 209670 (360 +/- 10 micrograms/d) via osmotic minipump for 7 days. On day 7, the cross-sectional areas in the (+/-)-SB 209670 group were significantly greater than those in the vehicle group in both the basilar artery (68% versus 27%) and anterior spinal artery (78% versus 38%). No differences in blood pressure or heart rate were noted in the two groups, and the vasospasm in the vehicle group did not differ from that of historic controls in this model. CONCLUSIONS: The results suggest that ET plays a significant role in the development of delayed cerebral vasospasm via an interaction with ETA receptors. Furthermore, ETA receptor antagonists may represent a novel therapeutic approach to the treatment of subarachnoid hemorrhage.

The antihypertensive effect of the angiotensin II receptor antagonist DuP 753 may not be due solely to angiotensin II receptor antagonism.

The angiotensin II (AII) receptor antagonist, DuP 753 (10 mg/kg intraduodenal), produced a sustained and long-lasting antihypertensive effect in conscious renin-dependent hypertensive rats. Blood pressures were still reduced markedly 24 to 72 hr after administration of a single dose of DuP 753. However, pressor responses elicited by either angiotensin I or AII were not blocked at these times despite the continued antihypertensive effect of DuP 753. In a model of orthostatic hypotension, DuP 753 and the selective alpha-1 adrenoceptor antagonist prazosin produced a marked orthostatic hypotension response in renin-dependent hypertensive rats as demonstrated by potentiation of the decrease in blood pressure induced by a 90 degrees tilt. The nonpeptide AII receptor antagonist SK&F 108566 (10 mg/kg intraduodenal) did not produce orthostatic hypotension and the angiotensin converting enzyme inhibitor enalapril produced only a slight orthostatic response to tilting. In conscious spontaneously hypertensive rats (SHR), allowed 3 to 4 days to recover from surgery, administration of either enalapril (1 mg/kg i.v.) or SK&F 108566 (10 mg/kg i.v.) did not significantly effect blood pressure. In SHR tested within 24 hr of surgery, enalapril was effective in lowering blood pressure. In contrast, in surgically recovered SHR, DuP 753 (10 mg/kg i.v.) produced an antihypertensive effect that was slow in onset, sustained and extremely long in duration. Blood pressures did not return to predrug levels until 48 hr after administration of DuP 753. Stimulation of the thoracolumbar sympathetic outflow in pithed rats produced frequency-dependent pressor responses that were significantly potentiated by continuous infusion of a subpressor dose of AII.(ABSTRACT TRUNCATED AT 250 WORDS)

Pharmacological profile of G619, a new platelet aggregation inhibitor.

G619, a 4-OH-isophthalic acid derivative, was studied for its capacity to inhibit platelet aggregation. G619 dose-dependently inhibited U46619, collagen, ADP, PAF, thrombin and epinephrine-induced platelet aggregation in vitro. The IC50 values for inhibition of U46619-induced human and rabbit platelet aggregation were 39 and 43 microM, respectively. G619, at 100 microM, inhibited high concentration collagen (10 micrograms/ml)-induced aggregation of rabbit platelets pretreated with indomethacin and increased the level of cAMP in washed rabbit platelets by 30% (p less than 0.01 vs basal). However, G619, did not inhibit fibrinogen binding to GPIIb/IIIa receptor, phosphodiesterase, U46619-induced contractile responses on canine saphenous vein or rabbit aorta, calcium-induced vasoconstriction and thrombin or PAF-induced elevation of [Ca++]i in platelets in vitro. In vivo, the U46619-induced maximal thrombocytopenia in rats was reduced from 40% (vehicle) to 22% and 18% by 10 and 30 mg/kg of G619 i.v., respectively. G619 (30 mg/kg) had no effect on the U46619-induced vasopressor response or sudden death in rats, and had no effect on TxB2 formation. Our results indicate that G619 is a broad-spectrum platelet aggregation inhibitor and may have its effect on a common mechanism for platelet aggregation besides an effect on the thromboxane A2 receptor.

Additional evidence for functional subclassification of alpha-2 adrenoceptors based on a new selective antagonist, SK&F 104856.

SK&F 104856 (2-vinyl-7-chloro-3,4,5,6-tetrahydro-4-methyl-thieno[4,3,2ef][3] benzazepine) shows a similar selectivity profile to the previously reported alpha adrenoceptor antagonist, SK&F 104078 (6-chloro-9-[(3-methyl-2-butenyl)oxy]-3-methyl-1H-2,3,4,5-tetrahydro-3- benzazepine), having the ability to block alpha-1 and postjunctional alpha-2 adrenoceptors, although having little or no activity at most prejunctional alpha-2 adrenoceptors. SK&F 104856 is more potent than SK&F 104078, and lacks the 5-hydroxytryptamine receptor antagonist activity associated with the earlier compound. The postjunctional vs. prejunctional selectivity of SK&F 104856 at alpha-2 adrenoceptors in the same tissue preparation was demonstrated in both canine and human saphenous vein. Concentrations substantially higher than those required to block postjunctional alpha-2 adrenoceptor-agonist induced vasoconstriction had no effect on the ability of norepinephrine, acting on prejunctional alpha-2 adrenoceptors, to inhibit stimulation evoked transmitter overflow in the human tissue, and only a small effect in the canine vein. As observed with SK&F 104078, SK&F 104856 has some prejunctional alpha-2 adrenoceptor antagonist activity in the rat vas deferens, although the receptor dissociation constant is nearly 50-fold higher than that at the postjunctional alpha-2 adrenoceptor in the canine saphenous vein. The results obtained with SK&F 104856 provide additional evidence to support the premise that alpha-2 adrenoceptors can be functionally differentiated. Because SK&F 104856 can selectively antagonize certain alpha-2 adrenoceptor-mediated responses, this agent may be a useful tool to evaluate the functional roles of the multiple alpha-2 adrenoceptor subtypes that have been identified in biochemical and molecular studies.

Lack of a pharmacological distinction between alpha-1 adrenoceptors mediating intracellular calcium-dependent and independent contractions to sympathetic nerve stimulation in the perfused rat caudal artery.

The contractile response of the rat caudal artery to field stimulation occurred in two phases; an initial rapidly developing contraction (phasic) and a subsequent more slowly developing contraction (tonic). Phenoxybenzamine, an irreversible antagonist, and prazosin, a competitive antagonist at the alpha-1 adrenoceptor, nonselectively inhibited both contractile phases. Ryanodine, an inhibitor of intracellular calcium release, selectively inhibited the phasic component, whereas nifedipine, a membrane calcium channel blocker, selectively inhibited the tonic component. These data demonstrate that both contractile phases are mediated by alpha-1 adrenoceptors and the phases are distinguished by the calcium source mobilized; intracellular stores of calcium are mobilized during the phasic component and extracellular calcium is mobilized during the tonic component. Inasmuch as alpha-1 adrenoceptors on nonvascular smooth muscle may be divided into alpha-1A and alpha-1B subtypes based on ability to open membrane calcium channels or ability to stimulate intracellular calcium release, respectively, we characterized the alpha-1 adrenoceptor mediating the contraction to determine whether a specific subtype was coupled to each phase. WB4101, a marginally alpha-1A adrenoceptor selective antagonist, 5-methyl-urapidil, a highly alpha-1A adrenoceptor selective antagonist and chloroethylclonidine, a highly alpha-1B adrenoceptor selective antagonist, all inhibited both contractile phases. These findings indicate that endogenous norepinephrine contracts the rat caudal artery via alpha-1 adrenoceptors that mobilize both the release of intracellular calcium and the influx of calcium through membrane channels.(ABSTRACT TRUNCATED AT 250 WORDS)

Cardiovascular effects of SK&F 104078, a novel alpha-adrenoceptor antagonist, in normotensive and hypertensive rats.

SK&F 104078 is a novel alpha-adrenoceptor antagonist derived from the 3-benzazepine alpha 2-adrenoceptor antagonist SK&F 86466. SK&F 104078 will block both alpha 1- and vascular postjunctional alpha 2-adrenoceptors but does not block most prejunctional alpha 2-adrenoceptors. Intravenous (i.v.) administration of SK&F 104078 decreased blood pressure (BP) in both spontaneously hypertensive and DOCA-salt hypertensive rats. SK&F 104078 potentiated the hypotensive response to tilt in anesthetized spontaneously hypertensive rats (SHR). Although SK&F 104078 had no effect on BP in normotensive rats, the tilt-induced decrease in BP in these animals was also potentiated. In this regard, SK&F 104078 resembled the selective alpha 1-adrenoceptor antagonist prazosin, rather than the alpha 2-adrenoceptor antagonists rauwolscine or SK&F 86466. Oral administration of SK&F 104078 had no significant effect on BP in SHR unless extremely high doses were administered. This was consistent with low plasma concentrations of SK&F 104078 observed after oral administration. After i.v. administration, the clearance of SK&F 104078 from plasma was 123 ml/min/kg, the steady-state volume of distribution was 17 L/kg, and the fraction excreted unchanged in urine was less than 1%. The low oral bioavailability of SK&F 104078 did not appear to be due to high first-pass oxidative metabolism, since pretreatment of SHR with the suicide substrate inhibitor of cytochrome P-450, 1-aminobenzotriazole (ABT), did not result in increased oral efficacy. SK&F 101253, a close structural analogue of SK&F 104078, was an effective antihypertensive when administered orally. Comparison of the stability of SK&F 101253 and SK&F 104078 in acid media showed SK&F 104078, but not SK&F 101253, to be rapidly degraded.(ABSTRACT TRUNCATED AT 250 WORDS)

The interaction of the enantiomers of carvedilol with alpha 1- and beta 1-adrenoceptors.

The stereoselectivity of carvedilol, a novel beta-adrenoceptor antagonist and vasodilator with one asymmetric carbon atom, was examined at alpha 1- and beta 1-adrenoceptors in vitro and in vivo. (-)-(S)-Carvedilol is a potent, competitive antagonist of the beta 1-adrenoceptor-mediated positive chronotropic response to isoproterenol in guinea pig atrium, with a dissociation constant (KB) of 0.4 nM. (+)-(R)-Carvedilol was more than 100-fold less potent than the (-)-S-enantiomer as an antagonist of beta 1-andrenoceptors, having a KB of approximately 45 nM. Consistent with these findings (-)-(S)-carvedilol (0.1 mg/kg, i.v.) produced a 25-fold rightward shift in the beta 1-adrenoceptor-mediated positive chronotropic response to isoproterenol in pithed rats, whereas the (+)-R-enantiomer had no beta 1-adrenoceptor blocking activity in vivo at this dose. In contrast to the marked degree of stereoselectivity observed at beta 1-adrenoceptors, both (-)-(S)- and (+)-(R)-carvedilol produced equal antagonism of the alpha 1-adrenoceptor-mediated vasoconstrictor response to norepinephrine in rabbit aorta, with KB values of 14 and 16 nM, respectively. Furthermore, in the pithed rat, the alpha 1-adrenoceptor-mediated pressor dose-response curve to cirazoline was shifted approximately 6-fold to the right by both the (+)-R- and (-)-S-enantiomers of carvedilol at a dose of 1 mg/kg, i.v. In anesthetized spontaneously hypertensive rats, (-)-(S)-carvedilol was 6-fold more potent as an antihypertensive than (+)-(R)-carvedilol.(ABSTRACT TRUNCATED AT 250 WORDS)

SK&F 89124, a potent and selective agonist at prejunctional dopamine receptors.

SK&F 89124 (4-[2-(N,N-di-n-propylamino)ethyl]-7-hydroxy-2(3H) indolone) can be considered as a derivative of N,N-di-n-propyldopamine (DPDA) in which the meta-hydroxyl is replaced by a cyclic amide function. SK&F 89124 is at least one order of magnitude more potent than DPDA as an agonist at peripheral inhibitory prejunctional dopamine receptors (DA2 receptors) in the isolated perfused rabbit ear artery. A potent agonist action of SK&F 89124 at the DA2 receptor can also be demonstrated by inhibition of radioactive overflow from prelabelled canine coronary artery or saphenous vein, and in the anesthetized dog as an inhibition of the tachycardia induced by cardioaccelerator nerve stimulation or the increase in hind-limb perfusion pressure induced by stimulation of the lumbar sympathetic chain. SK&F 89124 is a potent inhibitor of the binding of [3H]spiroperidol to D2 receptors in bovine pituitary homogenates. High concentrations of SK&F 89124 do not activate the adenylate cyclase D1 receptor in rat caudate homogenates, nor produce activation of alpha 2-adrenoceptors or H2-histamine receptors in the guinea pig atrium. Although some alpha 1-adrenoceptor mediated vasoconstriction is produced in the rabbit ear artery and rabbit aorta, the concentrations required are several orders of magnitude higher than those active at the DA2 receptor. From these data it is evident that this structural modification can increase both the potency and selectivity of DPDA as a DA2 receptor agonist. The potency and selectivity of SK&F 89124 make this agent a useful tool for determination of the functional role of the DA2 receptor.

In vitro pharmacologic profile of the novel beta-adrenoceptor antagonist and vasodilator, carvedilol.

The pharmacologic profile of the novel beta-adrenoceptor antagonist/vasodilator, carvedilol, has been investigated in vitro. Carvedilol produced competitive antagonism of the beta 1-adrenoceptor mediated positive chronotropic response to isoproterenol in guinea pig atria, and the beta 2-adrenoceptor mediated relaxation to isoproterenol in carbachol (1 mumol/l) precontracted guinea pig trachea, with a dissociation constant (KB) for beta 1-adrenoceptors of 0.8 nmol/l and beta 2-adrenoceptors of 1.3 nmol/l. At slightly higher concentrations, carvedilol produced competitive inhibition of the alpha 1-adrenoceptor mediated contractile response to norepinephrine in rabbit aorta with a KB of 11 nmol/l. Carvedilol had no significant effect on the contractile response to angiotensin II in rabbit aorta at concentrations up to 10 mumol/l, thus demonstrating the lack of nonspecific vasodilator actions in arteries. In canine saphenous vein, carvedilol produced noncompetitive blockade of alpha 2-adrenoceptor mediated vasoconstriction, indicative of some additional activity. In estrogen-primed rat uterus precontracted by depolarization with KCl (70 mmol/l), carvedilol produced concentration-dependent relaxation (IC50 of 7.6 mumol/l), consistent with the notion that carvedilol may be a calcium channel antagonist. Support for this hypothesis was obtained in KCl (70 mmol/l) depolarized rabbit aorta where carvediol (10 mumol/l) produced a 10-fold parallel rightward shift in the concentration-response curve to calcium chloride. These studies demonstrate that carvedilol is a potent beta 1-, beta 2- and alpha 1-adrenoceptor antagonist, and a moderately potent calcium channel antagonist. These multiple activities of carvedilol may contribute to the antihypertensive activity of the compound.

Pharmacologic characterization of SK&F 104078, a novel alpha-2 adrenoceptor antagonist which discriminates between pre- and postjunctional alpha-2 adrenoceptors.

SK&F 104078 has been reported to be a moderately potent antagonist at postjunctional alpha-2 adrenoceptors in canine saphenous vein, rabbit saphenous vein and canine saphenous artery (KB = 76-150 nM). In contrast, SK&F 104078 has been found to have essentially no affinity for prejunctional alpha-2 adrenoceptors in the guinea pig atrium. To characterize further the pharmacology of SK&F 104078 we have examined its effects in several additional alpha-2 adrenoceptor models and on several non alpha adrenoceptor-mediated vascular responses. SK&F 104078 does not block the neuroinhibitory effect of alpha methylnorepinephrine in the guinea pig ileum. In contrast, in the rat vas deferens, high concentrations of SK&F 104078 (3-30 microM) antagonized the neuroinhibitory effect of UK 14,304; however, the antagonism was not competitive. At concentrations up to 1 microM, SK&F 104078 did not potentiate [3H]overflow from guinea pig vas deferens or guinea pig atrium prelabeled with [3H]norepinephrine, indicating no prejunctional alpha-2 adrenoceptor blocking activity in these tissues. SK&F 104078 is a competitive antagonist at alpha-1 adrenoceptors, and at 5-hydroxytryptamine2 receptors, as demonstrated by blockade of norepinephrine- and serotonin-induced contraction in the rabbit aorta, with KB values of 155 and 20 nM, respectively. At concentrations up to 10 microM, SK&F 104078 does not depress angiotensin II-induced contraction of rabbit aorta. At 1 microM, no depression of the response to Ca++ in depolarized rabbit aorta is observed, although a significant inhibition of this response is seen at 10 microM.(ABSTRACT TRUNCATED AT 250 WORDS)

Evidence for heterogeneity between pre- and postjunctional alpha-2 adrenoceptors using 9-substituted 3-benzazepines.

A series of alpha adrenoceptor antagonists, including both reference compounds and the novel benzazepine antagonists, SK&F 86466 (6-chloro-2,3,4,5-tetrahydro-3-methyl-1H-3-benzazepine) and two of its 9-substituted derivatives, SK&F 101253 and SK&F 104078, were tested in vitro for affinity at central and peripheral alpha adrenoceptor subtypes. Peripheral alpha-1 adrenoceptor antagonist potency of these agents, as assessed by the receptor dissociation constant (KB) against norepinephrine-induced contraction in the rabbit aorta, correlated with the Ki value for inhibition of [3H]prazosin binding to central alpha-1 adrenoceptors in rat brain homogenates. Central alpha-2 adrenoceptor affinity, measured as the Ki for inhibition of [3H]rauwolscine binding to rat brain homogenates, correlated well with antagonist activity at peripheral postjunctional alpha-2 adrenoceptors as reflected by the KB against B-HT 920-induced contraction in canine saphenous vein. The 9-substituted benzazepines, SK&F 101253 and SK&F 104078, produce preferential blockade of postjunctional vs. prejunctional alpha-2 adrenoceptors in peripheral models. The high affinity of SK&F 104078 for postjunctional alpha-2 adrenoceptors in the canine saphenous vein was confirmed by its ability to inhibit [3H]rauwolscine binding to postjunctional alpha-2 adrenoceptors in this tissue. The observation that the Ki values for these antagonists against [3H] rauwolscine binding correlate with their KB values at the postjunctional alpha-2 adrenoceptors, rather than those at the prejunctional neuroinhibitory alpha-2 adrenoceptor, suggests a pharmacologic similarity between the postjunctional vascular alpha-2 adrenoceptors and the central [3H]rauwolscine binding site.(ABSTRACT TRUNCATED AT 250 WORDS)