Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P20366 (substance P)
 21,176 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

[3H]Senktide, a highly selective tachykinin NK3 receptor agonist, was used to study tachykinin NK3 receptors of rat and guinea pig brain. Guinea pig brain membranes had a Kd of 3.9 +/- 0.5 nM and a Bmax of 42 fmol/mg. Dose-displacement experiments with neurokinins and selective tachykinin receptor agonists revealed the following order of potency: [MePhe7]neurokinin B > neurokinin B > substance P > neurokinin A. This order is typical for a tachykinin NK3 receptor. To further characterize the specificity of this receptor, the effects of unrelated compounds such as: bradykinin, angiotensin II, bombesin and their structural analogs were also evaluated on the binding of [3H]senktide. Unexpectedly, the angiotensin AT1 receptor antagonists, DuP 753 (2-n-butyl-4-chloro-5-hydroxymethyl-1-[2'-(1H-tetrazol-5-yl)bip hen yl-4-yl)methyl]imidazole potassium salt), L-158,809 (5,7-dimethyl-2-ethyl-3-[(2'-(1H-tetrazol-5-yl) [1,1'-biphenyl]-4-yl) methyl]-3H-imidazo[4,5-beta]pyridine H2O) and EXP 3174 (2-n-butyl-4-chloro-1-[2'-(1H-tetrazol-5-yl)biphenyl-4-yl)methyl]i midazole- 5-carboxylic acid), inhibited the binding of [3H]senktide to its receptor in the guinea pig brain membranes with IC50 values of 18 microM, 25 microM and 50 microM, respectively. Similar effects were also observed with rat brain membranes. Angiotensin II, saralasin ([Sar1,Val5,Ala8]angiotensin II, a peptide angiotensin AT1 receptor antagonist) and PD 123,319 (1-[4-(dimethylamino)3-methylphenyl]methyl-5-(diphenylacetyl)-4,5, 6,7- tetrahydro-1H-imidazo[4,5-c]pyridine-6-carboxylic acid, a known non-peptide angiotensin AT2 receptor antagonist) did not inhibit the binding of [3H]senktide to either type of membrane.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Non-peptide angiotensin receptor antagonists bind to tachykinin NK3 receptors of rat and guinea pig brain. 751 91

1. The cardiovascular and behavioural effects elicted by the intracerebroventricular (i.c.v.) injection of substance P (SP), neurokinin A (NKA), [MePhe7]neurokinin B ([MePhe7]NKB) or angiotensin II (AII) in the conscious rat were assessed before and 5 min after i.c.v. pretreatment with antagonists selective for angiotensin AT1 (losartan and its active metabolite EXP 3174), angiotensin AT2 (PD 123,319) or tachykinin NK3 (R 486) receptors. 2. I.c.v. administration of 25 pmol AII evoked an increase in mean arterial blood pressure (MAP) and water intake behaviour, accompanied by a transient bradycardia, whereas 25 pmol [MePhe7]NKB caused a transient increase in MAP and heart rate (HR) concurrently with marked wet dog shake behaviour. At the same dose, SP and NKA were more potent than [MePhe7]NKB in increasing MAP and HR, but did not produce water intake or wet dog shake behaviours. 3. Losartan (650 pmol, i.c.v.) reduced significantly the cardiovascular and behavioural responses to AII or [MePhe7]NKB, but not to SP or NKA. While 65 pmol losartan was inactive, 260 pmol inhibited selectively the central effects of AII. Whereas EXP 3174 (6.5 nmol) blocked both AII and [MePhe7]NKB-mediated responses, the dose of 650 pmol blocked only the responses to AII. 4. The central responses to AII and [MePhe7]NKB were not affected by PD 123,319 (650 pmol). On the other hand, the [MePhe7]NKB-induced central effects were significantly reduced by R 486 (650 pmol). The NK3-selective antagonist had no effect against AII. 5. This study provides functional evidence, to support earlier binding data, that losartan (and to some extent its active metabolite EXP 3174) interact with the tachykinin NK3 receptor in rat brain. However,the cardiovascular and behavioural responses induced by central tachykinin agonists (SP, NKA and[MePhe7]NKB) and All are mediated by unrelated mechanisms.
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PMID:Functional interaction between losartan and central tachykinin NK3 receptors in the conscious rat. 754 Dec 80

In this study we describe a new angiotensin antagonist [Asp1-Arg2-Val3-Tyr4-Ile5-His6-D-Ala7, (A-779)] selective for the heptapeptide angiotensin-(1-7) [Ang-(1-7)]. A-779 blocked the antidiuretic effect of Ang-(1-7) in water-loaded rats and the changes in blood pressure produced by Ang-(1-7) microinjection into the dorsal-medial and ventrolateral medulla. In contrast, A-779 did not change the dipsogenic, pressor, or myotropic effects of angiotensin II (Ang II). Also, A-779 did not affect the antidiuretic effect of vasopressin or the contractile effects of angiotensin III, bradykinin, or substance P on the rat ileum. In the rostral ventrolateral medulla, the pressor effect produced by Ang-(1-7) microinjection was completely blocked by A-779 but not by AT1 or AT2 receptor antagonists (DUP 753 and CGP 42112A, respectively). Conversely, the pressor effect produced by Ang II was not changed by A-779 but was completely blocked by DUP 753. Binding studies substantiated these observations: A-779 did not compete significantly for 125I-Ang II binding to adrenocortical membranes at up to a 1 microM concentration. Low affinity binding was also observed in adrenomedullary membranes with an IC50 greater than 10 microM. Our results show that A-779 is a potent and selective antagonist for Ang-(1-7). More importantly, our data indicate that specific angiotensin receptors mediate the central and peripheral actions of Ang-(1-7).
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PMID:Characterization of a new angiotensin antagonist selective for angiotensin-(1-7): evidence that the actions of angiotensin-(1-7) are mediated by specific angiotensin receptors. 785 Apr 77

1. The contractile responses to angiotensin II, angiotensin III and two synthetic analogues, [Lys2]angiotensin II and [Sar1]angiotensin II, in the guinea-pig isolated longitudinal muscle preparation of small intestine have been characterized in vitro. 2. Tachyphylaxis to the angiotensin analogues was reduced by use of a Krebs-Henseleit solution containing a raised (sub-contractile) concentration of potassium (11.2 mM). Under these conditions. reproducible cumulative concentration-response curves to all agonists were established. The pD2 estimates for angiotensin II, [Lys2]angiotensin II, angiotensin III and [Sar1]angiotensin II were 9.15 +/- 0.14, 7.42 +/- 0.06, 7.69 +/- 0.18 and 9.50 +/- 0.15 respectively and the maximum responses achieved were not significantly different. 3. The contractile responses to angiotensin II, angiotensin III and [Sar1]angiotensin II were reduced by greater than 80% by tetrodotoxin (TTX; 0.1 microM). However, the responses to [Lys2]angiotensin II were reduced by only 63 +/- 5%. Atropine (0.1 microM) also reduced the responses to angiotensin II, angiotensin III and [Lys2]angiotensin II, although its effect was less than that produced by TTX. Furthermore, while responses to these agonists were not significantly modified by the NK1 receptor antagonist (+/-)-CP-96,345 (30 nM) alone, the combined pre-incubation with both atropine and (+/-)-CP-96,345 reduced maximum agonist responses to a level not significantly different from those produced by TTX. 4. Indirect and direct contractile responses to angiotensin II and [Lys2]angiotensin II (in the presence of TTX) respectively were characterized by use of the selective AT1 receptor antagonist, losartan and the AT2 receptor antagonist, PD123177. Losartan produced parallel rightward displacement of the concentration-response curve to angiotensin II and [Lys2]angiotensin II, with an estimated pKB of 8.56(8.42-8.68) and 9.18 (8.63-9.50) respectively. The AT2 receptor antagonist, PD123177 (3 microM) failed to modify the contractile responses to either angiotensin II or [Lys2]angiotensin II.5. We conclude that two populations of angiotensin II receptors exist in the guinea-pig longitudinal muscle of small intestine, one located neuronally mediating the release of both acetylcholine and substance P and the other located on the smooth muscle mediating direct contractile responses. The neuronal component provides the major contribution to the agonist responses. Both receptor populations are of the AT1 receptor subtype.
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PMID:Pharmacological characterization of the contractile responses to angiotensin analogues in guinea-pig isolated longitudinal muscle of small intestine. 848 24

There is increasing evidence that neuropeptides have trophic functions during embryogenesis. We examined the ability of angiotensin II, substance P, somatostatin-28 and luteinising hormone-releasing hormone to influence neurite outgrowth from embryonic chick sympathetic neurons in culture. Nanomolar concentrations of angiotensin II inhibited neurite outgrowth, whereas the other peptides had no effect at similar concentrations. The effect of angiotensin II on neurite outgrowth is likely to be mediated by an atypical angiotensin receptor, as it was only weakly inhibited by [sar1,ala8]angiotensin II, and was not inhibited by losartan, an inhibitor of mammalian AT1 receptors, or PD123319, an AT2 inhibitor. Neurite outgrowth was also inhibited by angiotensin III and angiotensin IV but not by angiotensinogen I1-14. The study provides further evidence that angiotensin peptides, like classical neurotransmitters, may have trophic functions during embryogenesis.
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PMID:A novel action of angiotensin peptides in inhibiting neurite outgrowth from isolated chick sympathetic neurons in culture. 880 32

Phase I human studies can be used to differentiate a novel agent from existing drugs that influence the same pathway (eg, angiotensin-converting enzyme [ACE] inhibitors). Human forearm vasculature provides a useful experimental model for such studies because antagonism of local effects of agonists on resistance vasculature can be quantified, unconfounded by reflex cardiovascular responses to systemically applied agonists. In this model, inhibition of ACE with enalapril (given orally) or its active metabolite enalaprilat (given into the brachial artery) influences responses to some, but not all, vasoactive peptides that are substrates of ACE in vitro. Vasoconstrictor responses to angiotensin I (A I) are antagonized, while vasodilator responses to bradykinin are potentiated. Responses to vasoactive intestinal peptide (VIP), substance P (SP), and atrial natriuretic peptide (ANP) are unaltered by ACE inhibition. Vasodilator responses to bradykinin are antagonized by the B2-receptor icatibant and are blunted (but not abolished) by inhibition of the L-arginine/NO pathway with L-NG-monomethyl arginine. In contrast to inhibition of ACE with enalapril, blockade of the AT1 receptor with losartan results in similar inhibition of vasoconstrictor responses to both A I and angiotensin II but has no significant effect on the vasodilator action of bradykinin. The implication is that losartan provides more specific blockade of the renin-angiotensin pathway than does inhibition of ACE. The in vivo methods described in the study confirm the mechanistically relevant differentiation between AT1-receptor antagonism and ACE inhibition in humans.
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PMID:Angiotensin II-receptor (AT1) blockade in the human forearm. 891 43

The effect on thermonociceptive threshold of intrathecally (i.t.) administered angiotensin II (Ang II) was assessed in the rat tail-flick test. Rats were pretreated, 15 min earlier, with i.t. naloxone (opiate antagonist), losartan (Ang II selective antagonist at AT1 receptor) or [Sar1, Leu8] Ang II (non selective Ang II receptor antagonist) to define the mechanism of action and the nature of the receptor subtype. Ang II (0.65-6.5 nmol) induced antinociceptive effects that peaked at 1 min post-injection and returned to baseline after 5-10 min. Naloxone (10 microg) completely inhibited the response to 6.5 nmol Ang II. Losartan (65 pmol) and [Sar1, Leu8] Ang II (6.5 nmol) blocked the antinociception induced by Ang II but were inactive against [MePhe7]neurokinin B. Furthermore, losartan failed to affect the hyperalgesic responses induced by substance P (6.5 nmol) or [beta-Ala8]neurokinin A (6.5 nmol). This study provides the first functional evidence that Ang II inhibits the transmission of thermal nociceptive information through an endogenous opioid mechanism and the activation of an AT1 receptor in the rat spinal cord.
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PMID:Effect of angiotensin II on a spinal nociceptive reflex in the rat: receptor and mechanism of action. 924 20

Activation of the renin-angiotensin-aldosterone system (RAAS) in left ventricular systolic dysfunction is a critically important determinant in the pathophysiologic processes that lead to progression of heart failure and sudden death. Angiotensin II, acting at the specific angiotensin receptor (AT1-R), activates a series of intracellular signaling sequences which are ultimately expressed within the cardiovascular system as vasoconstriction and associated vascular hypertrophy and remodeling. Angiotensin converting enzyme (ACE) inhibition leads to increases in the vasodilatory peptides bradykinin and substance P and at least an initial reduction in angiotensin II concentrations. AT1-R blocking drugs prevent access of angiotensin II to the AT1-R and thus prevent cellular activation. ACE inhibitors have clearly been demonstrated through a large number of clinical trials to increase survival in congestive heart failure, primarily by reducing the rate of progression of left ventricular dilatation and decompensation. However, this beneficial effect diminishes over time. Preliminary short-term clinical studies evaluating the efficacy of AT1-R blocking drugs in the treatment of heart failure have suggested that they elicit similar hemodynamic and neuroendocrine effects as do the ACE inhibitors. The combination ACE inhibitors and AT1-R blocking drugs offer the theoretical advantage of increasing bradykinin while blocking the actions of angiotensin II, and thus possibly show a synergistic effect. Again, preliminary studies have yielded encouraging results that are difficult to interpret because neither ACE inhibitor nor the AT1-R blocking drug doses were titrated to tolerance. Pharmacological manipulation of the RAAS has led to better understanding of its role in heart failure and improved clinical outcomes.
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PMID:Angiotensin-converting enzyme inhibitors and angiotensin II receptor antagonists in the treatment of heart failure caused by left ventricular systolic dysfunction. 1036 49

In both diabetic and nondiabetic renal disease, reducing blood pressure with antihypertensive therapy has beneficial effects on renal function. The key role of the renin-angiotensin system in blood pressure and volume homeostasis has long been established, but its importance for the overall normal functioning of the kidney itself is also increasingly being recognized. Angiotensin-converting enzyme (ACE) inhibitors, widely and successfully used in the treatment of hypertension, may also provide renal protection independent of blood pressure reduction; however, their relatively nonspecific mode of action in blocking an early metabolic step entails major clinical disadvantages, such as accumulation of bradykinin and substance P, that may cause the characteristic ACE-inhibitor side effects of persistent dry cough and, more rarely, angioneurotic edema. Angiotensin II antagonists or receptor blockers, a new class of antihypertensive agent, selectively antagonize the AT1 receptor subtype and, because of greater specificity, do not give rise to the side effects associated with ACE inhibitors. More important, these new drugs may have mechanistic advantages over other antihypertensives, including ACE inhibitors.
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PMID:Valsartan and the kidney: review of preclinical and clinical data. 1144 69

1. The present review provides an update on evidence of the neurotransmitter pathways and location of receptors within the nucleus tractus solitarii (NTS) mediating the baroreflex and other haemodynamic actions of angiotensin (Ang) II. 2. A series of studies suggests a significant role for substance P in the acute cardiovascular and carotid sinus chemoreceptor facilitatory actions of AngII in the NTS. The use of antisense oligonucleotides to AT1 receptors indicates both pre- and post-synaptic AngII receptors are likely to be involved in these actions. 3. With respect to baroreceptor reflex actions, it is clear that endogenous AngII impairs the gain for operation of the baroreceptor reflex, because AT1 receptor antagonists facilitate reflex function. This effect is either independent of substance P or involves inhibition of release. Moreover, initial data obtained using antisense oligonucleotides to AT1 receptors suggest that, in the NTS, the effect of endogenous AngII on the baroreceptor reflex is mainly due to presynaptic actions on vagal or carotid sinus afferent fibres. In contrast, the level of endogenous AngII within the NTS appears to have variable effects on activation of cardiopulmonary vagal afferent fibres by phenylbiguanide. These results indicate a divergence of effects of AngII on reflexes evoked by these two different types of sensory input. 4. Use of transgenic rats with alterations in brain angiotensin peptides allowed us to assess the effect of long-term alterations in brain Ang peptides on reflex function. We studied (mRen2)27 transgenic rats (TGR(mRen2)) with high brain medulla AngII levels and transgenic rats with angiotensinogen (Aogen) antisense linked to glial fibrillary acidic protein promoter (TGR(ASrAogen)) with greatly reduced brain Aogen. The reflex evoked by activation of cardiac vagal chemosensitive afferent fibres was enhanced in TGR(ASrAogen), whereas the baroreceptor reflex control of heart rate was attenuated in TGR(mRen2), further confirming a divergence of effects of AngII on these two sensory modalities. 5. The overall results are consistent with a sustained inhibitory effect of AngII on the baroreceptor reflexes, with dose-dependent or activation-dependent effects on cardiac vagal afferent fibre activation. Moreover, alterations in substance P pathways may contribute to the actions of AngII on reflex function.
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PMID:Angiotensin peptides as neurotransmitters/neuromodulators in the dorsomedial medulla. 1201 Jan 95


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