Time-dependent blockade of neurogenic plasma extravasation in dura mater by 5-HT1B/D agonists and endopeptidase 24.11.

1. The delayed effects of stimulating the trigeminal ganglion unilaterally in rats and guinea-pigs were assessed by measuring the leakage of radiolabelled albumin from blood into the dura mater at intervals for up to 120 min after a 5 min stimulation period (5 Hz, 0.6 mA, 5 ms). 2. [125I]-albumin (50 microCi kg-1) was injected i.v. as a tracer 0, 20, 50, 80 or 110 min after stimulation and the animals were killed 10 min later. Extravasation of plasma protein developed for up to 90 min poststimulation. 3. To examine the mechanism underlying delayed plasma protein extravasation, CP-93,129 (5-HT1B receptor agonist, 460 nmol.kg-1), sumatriptan (5-HT1B/D receptor agonist, 24 nmol kg-1), or neutral endopeptidase 24.11 (1 nmol kg-1) were administered 45 or 75 min after trigeminal stimulation and 5 min before radiolabelled albumin. The extravasation response was reduced at 45 min. CP-23,129 also blocked extravasation when injected 25 min after capsaicin administration (1 mumol kg-1). 4. If the tracer was injected 5 min prior to electrical trigeminal stimulation, endopeptidase 24.11 (1 nmol kg-1) given 10 min before stimulation blocked the leakage (as reported previously for CP-93,129 or sumatriptan). All three compounds blocked the leakage when administered 30 min (but not 60 min) poststimulation in this paradigm. 5. The data support the previously made contention that neuropeptide release from sensory fibres mediates the plasma extravasation response following trigeminal ganglion stimulation, and that release and plasma leakage continue many minutes beyond the stimulation period.(ABSTRACT TRUNCATED AT 250 WORDS)     

Modulation by neuropeptide Y of parasympathetic nerve-evoked nasal vasodilatation via Y2 prejunctional receptor.

1. In pentobarbitone anaesthetized dogs, preganglionic stimulation of the superior cervical sympathetic nerve (15V, 1 ms, 10 Hz) induced marked reduction of nasal arterial blood flow, whereas parasympathetic nerve stimulation (5 V, 1 ms, 10-30 Hz) evoked frequency-dependent vasodilatation. 2. Sympathetic nerve stimulation for 3 min at 10 Hz evoked significant (P < 0.05) and prolonged attenuation of the vasodilator response to subsequent parasympathetic stimulation. Pretreatment with phentolamine (0.5 mg kg-1 h-1), propranolol (1 mg kg-1) and atropine (0.5 mg kg-1) reduced the vasoconstrictor effect of sympathetic stimulation by 35 +/- 4% whereas the parasympathetic nerve-evoked vasodilatation was not significantly modified. Atropine-resistant parasympathetic vasodilatation remained significantly attenuated for more than 30 min after non-adrenergic sympathetic nerve-evoked vasoconstriction. 3. Vasodilator effects of exogenous vasoactive intestinal polypeptide and peptide histidine isoleucine and vasoconstrictor effects of exogenous neuropeptide Y (NPY) and the NPY analogue [Leu31, Pro34] NPY (Y1-receptor agonist, 8 nmol kg-1), were not altered by adrenoceptor antagonists and atropine f1p4eas the effects of exogenous noradrenaline and acetylcholine were virtually abolished. Attenuation of parasympathetic-evoked vasodilatation could be mimicked by exogenous NPY (8 nmol kg-1) and the NPY analogue, N-acetyl [Leu28, Leu31] NPY 24-36 (Y2-receptor agonist, 20 nmol kg-1) but not by exogenous Y1-receptor agonist. The Y2-receptor agonist did not show significant vasoconstrictor action. 4. It is concluded that sympathetic nerve stimulation attenuates parasympathetic vasodilatation via NPY release acting on prejunctional Y2 receptors.     

Effects of a selective neuropeptide Y Y2 receptor antagonist, BIIE0246, on Y2 receptors at peripheral neuroeffector junctions

1. This study investigated the effects of BIIE0246, a novel neuropeptide Y (NPY) Y2 receptor antagonist, on the inhibition of cholinergic neuroeffector transmission in rat heart and guinea-pig trachea and purinergic neuroeffector transmission in guinea-pig vas deferens produced by the NPY Y2 receptor agonist, N-acetyl [Leu28,31] NPY 24-36. 2. In pentobarbitone anaesthetized rats, supramaximal stimulation every 30 s, of the vagus nerve innervating the heart, increased pulse interval by approximately 100 ms. This response was attenuated by intravenous administration of N-acetyl [Leu28,31] NPY 24-36 (10 nmol x kg(-1)). 3. Transmural stimulation of segments of guinea-pig trachea at 1 min intervals with 5 s trains of stimuli at 0.5, 5, 10, 20 and 40 Hz evoked contractions which were reduced in force by N-acetyl [Leu28,31] NPY 24-36 (2 microM). 4. In guinea-pig vasa deferentia, the amplitude of excitatory junction potentials evoked by trains of 20 stimuli at 1 Hz was reduced in the presence of N-acetyl [Leu28,31] NPY 24-36 (1 microM). 5. In all preparations BIIE0246 attenuated the inhibitory effect of N-acetyl [Leu28,31] NPY 24-36 but had no effect when applied alone. 6. The findings support the view that the nerve terminals of postganglionic parasympathetic and sympathetic neurones possess neuropeptide Y Y2 receptors which, when activated, reduce neurotransmitter release.     

The antimigraine drug, sumatriptan (GR43175), selectively blocks neurogenic plasma extravasation from blood vessels in dura mater.

1. We describe the actions of GR43175, a 5-hydroxytryptamine1 (5-HT1)-like receptor agonist, on neurogenically-mediated plasma protein extravasation within an important pain-sensitive intracranial tissue, the dura mater. 2. GR43175 markedly attenuated extravasation of 125I-albumin from blood vessels within ipsilateral dura mater when administered to rats (100 micrograms kg-1) fifteen minutes before unilateral electrical trigeminal stimulation (1.2 mA, 5 Hz, 5 ms, 5 min); the ratio (stimulated/unstimulated sides) decreased from 1.81 to 1.23, P less than 0.005). 3. GR43175 (100 micrograms kg-1, i.v., rats; 30 micrograms kg-1, guinea-pigs) decreased the leakage of radiolabelled albumin from 163% to 119% (P less than 0.005, guinea-pig) or from 174 to 118% (P less than 0.05, rat) above vehicle-treated controls when injected ten minutes before systemic capsaicin treatment (0.5 or 1 mumol kg-1, i.v.). 4. GR43175 (30-300 micrograms kg-1) did not block plasma protein extravasation within extracranial tissues of rats and guinea-pigs innervated by the trigeminal nerve (conjunctiva, eyelid and lip). 5. The protein leakage which followed the i.v. administration of 5-HT (1 mumol kg-1) or neuropeptides which mediate neurogenic plasma extravasation, substance P (0.3 nmol kg-1 or 1 nmol kg-1) and neurokinin A (1 nmol kg-1), was not blocked by GR43175 (100, 300 micrograms kg-1) despite the presence of leakage in amounts equivalent to that following neurogenic stimulation. 6. GR43175 (100 micrograms kg-1) decreased bradykinin (10 mumol kg-1)-induced extravasation from 142 to 115% above vehicle-treated animals (P less than 0.05).(ABSTRACT TRUNCATED AT 250 WORDS)     

Evidence for two neuropeptide Y receptors mediating vasoconstriction.

The presence of receptor subtypes mediating the vascular and prejunctional effects of neuropeptide Y (NPY) was investigated using the Y2 receptor agonist, NPY-(13-36), and the Y1 agonist, [Leu31,Pro34]NPY. NPY-(1-36) and [Leu31,Pro34]NPY administered i.v. to anesthetized pigs evoked dose-dependent increases in mean arterial blood pressure and splenic and renal vascular resistance, and a decrease in heart rate. The potency of [Leu31,Pro34]NPY was 10-30% that of NPY-(1-36). In the spleen, NPY-(13-36) evoked vasoconstriction similar to that evoked by [Leu31,Pro34]NPY, but did not significantly increase renal vascular resistance or mean arterial blood pressure. Local intra-arterial administration of [Leu31,Pro34]NPY caused an increase in nasal mucosal vascular resistance with a potency similar to that of NPY-(13-36) evoked only a minor (17%) increase in nasal mucosal vascular resistance. The NPY analogues were further characterized in receptor binding studies on pig spleen membranes. Compared to NPY-(1-36), 800 times higher concentrations of [Leu31,Pro34]NPY, and 7 times higher concentrations of NPY-(13-36) were required to achieve the same 50% displacement of [125I]NPY-(1-36). Electrically evoked contractions in rat vas deferens were inhibited by 50% by 0.05 microM NPY-(1-36) and 0.3 microM NPY-(13-36), while [Leu31,Pro34]NPY only slightly attenuated the contractions (by 24% at 1 microM). The present data suggest the existence of subtypes of NPY receptors mediating vasoconstriction. Thus, the splenic vascular bed of the pig contains both Y1 and Y2 receptors while the Y1 subtype predominates in the kidney, nasal mucosa and for blood pressure control. The prejunctional receptor in rat vas deferens seems to be of the Y2 subtype.     

Behavioral effects of neuropeptide Y receptor agonists in the elevated plus-maze and fear-potentiated startle procedures

Evidence from animal studies has led to the proposal that neuropeptide Y (NPY) has anxiolytic-like effects in rats after intracerebroventricular (i.c.v.) administration. The purpose of the present study was to extend these observations by examining the behavioral effects of a series of NPY receptor agonists including NPY, peptide YY (PYY), the NPY fragment 2-36 (NPY(2-36)), the Y(1) agonist [Leu(31), Pro(34)]-NPY and the Y(2) agonist NPY fragment 13-36 (NPY(13-36)), in two established anxiety models in rats: the elevated plus-maze and the fear-potentiated startle procedures. In the elevated plus-maze procedure, i.c.v. PYY (0.07-2.3nmol), NPY (0.07-2.3nmol), NPY(2-36) (0.07-2.3nmol). [Leu(31), Pro(34)]-NPY (0.7-7nmol), but not NPY(13-36) (0.7-7nmol), increased preference for the open arms of the plus-maze in a dose-dependent manner. In an acoustic startle paradigm, NPY, PYY and NPY(2-36) inhibited fear-potentiated startle over the dose-range of 0.23-2.3nmol. [Leu(31), Pro(34)]-NPY (2.3-13.2nmol) also attenuated fear-potentiated startle, whereas NPY(13-36) (up to 13.2nmol) had no effect. Taken together, these findings demonstrate that NPY, PYY and NPY(2-36) have anxiolytic-like effects that are likely mediated by Y(1) receptors.     

Characterization of vascular neuropeptide Y receptors.

1. In the present study we compared neuropeptide Y (NPY) and NPY-related analogues for their ability to activate or bind to vascular NPY receptors in four experimental set-ups. Previous results have suggested the existence of different receptor subtypes, Y1 receptors requiring full-length NPY (1-36) or [Pro34]-NPY, and Y2 receptors recognizing also N-terminally truncated forms of NPY but not [Pro34]-NPY. 2. NPY 1-36 and [Pro34]-NPY dose-dependently increased arterial pressure in the anaesthetized rat with a similar magnitude and potency. NPY 2-36 was much less potent than NPY 1-36. NPY 4-36 and NPY 11-36 were inactive even at a dose as high as 10 nmol kg-1. 3. NPY 1-36, [Pro34]-NPY, NPY 2-36 and NPY 5-36 concentration-dependently increased the coronary resistance in the Langendorff preparation of the rat. NPY 1-36 and [Pro34]-NPY were equipotent, while NPY 2-36 and NPY 5-36 were about 7 and 20 times less potent. At 0.3 microM, NPY 11-36, NPY 20-36 and NPY 22-36 induced a slight contraction while NPY 23-36 was inactive. 4. NPY 1-36, [Pro34]-NPY, NPY 2-36, NPY 4-36, NPY 5-36 and NPY 11-36 evoked concentration-dependent contractions in the isolated inferior caval vein of the rat and guinea-pig. [Pro34]-NPY was more potent than NPY 1-36. NPY 2-36 was equipotent with NPY 1-36, while NPY 4-36, NPY 5-36 and NPY 11-36 were approximately 30 times less potent.(ABSTRACT TRUNCATED AT 250 WORDS)     

Characterization of neuropeptide Y (NPY) receptors in human cerebral arteries with selective agonists and the new Y1 antagonist BIBP 3226.

1. We have characterized pharmacologically the receptor subtype(s) responsible for the neuropeptide Y (NPY)-induced vasoconstriction in human cerebral arteries. NPY, PYY and several of their derivatives with well defined affinities at the known Y1 and Y2 receptor subtypes were used. Moreover, we tested the ability of the new Y1 receptor antagonist, BIBP 3226, to antagonize the NPY-induced cerebral vasoconstriction. 2. NPY, PYY and their agonists with high affinities at the Y1 receptor subtype ([Leu31-Pro34]-NPY and [Leu31-Pro34]-PYY) elicited strong, long lasting and concentration-dependent contractions of human cerebral arteries. Compounds with Y2 affinity such as PYY3-36 or NPY13-36 either elicited a submaximal contraction at high concentrations or failed to induce any significant vasomotor response. Also, the application of NPY or the specific Y1 agonist, [Leu31-Pro34]-NPY, to human cerebral vessels pretreated with the Y1 agonist, NPY13-36, resulted in contractile responses identical to those obtained when these compounds were tested without prior application of NPY13-36. 3. The order of agonist potency at the human cerebrovascular receptor was: [Leu31-Pro34]-NPY = [Leu31-Pro34]-PYY > or = NPY > PYY > PYY3-36 > > > NPY13-36, which corresponded to that reported previously at the neuronal and vascular Y1 receptors. 4. Increasing concentrations (10(-9)-10(-6) M) of the Y1 receptor antagonist, BIBP 3226, to human cerebral vessels caused a parallel and rightward shift in the NPY dose-response curves without any significant change in the maximal contractile response.(ABSTRACT TRUNCATED AT 250 WORDS)     

Heterogeneity of the neuropeptide Y (NPY) contractile and relaxing receptors in horse penile small arteries

The distribution of neuropeptide Y (NPY)-immunorective nerves and the receptors involved in the effects of NPY upon electrical field stimulation (EFS)- and noradrenaline (NA)-elicited contractions were investigated in horse penile small arteries. NPY-immunoreactive nerves were widely distributed in the erectile tissues with a particularly high density around penile intracavernous small arteries. In small arteries isolated from the proximal part of the corpora cavernosa, NPY (30 nM) produced a variable modest enhancement of the contractions elicited by both EFS and NA. At the same concentration, the NPY Y(1) receptor agonist, [Leu(31), Pro(34)]NPY, markedly potentiated responses to EFS and NA, whereas the NPY Y(2) receptor agonist, NPY(13-36), enhanced exogenous NA-induced contractions. In arteries precontracted with NA, NPY, peptide YY (PYY), [Leu(31), Pro(34)]NPY and the NPY Y(2) receptor agonists, N-acetyl[Leu(28,31)]NPY (24-36) and NPY(13-36), elicited concentration-dependent contractile responses. Human pancreatic polypeptide (hPP) evoked a biphasic response consisting of a relaxation followed by contraction. NPY(3-36), the compound 1229U91 (Ile-Glu-Pro-Dapa-Tyr-Arg-Leu-Arg-Tyr-NH2, cyclic(2,4')diamide) and eventually NPY(13-36) relaxed penile small arteries. The selective NPY Y(1) receptor antagonist BIBP3226 ((R)-N(2)-(diphenacetyl)-N-[(4-hydroxyphenyl)methyl]D-arginineamide) (0.3 microM) shifted to the right the concentration-response curves to both NPY and [Leu(31), Pro(34)]NPY and inhibited the contractions induced by the highest concentrations of hPP but not the relaxations observed at lower doses. In the presence of the selective NPY Y(2) receptor antagonist BIIE0246 ((S)-N2-[[1-[2-[4-[(R,S)-5,11-dihydro-6(6h)-oxodibenz[b,e]azepin-11-y1]-1-piperazinyl]-2-oxoethyl]cyclo-pentyl-N-[2-[1,2-dihydro-3,5 (4H)-dioxo-1,2-diphenyl-3H-1,2, 4-triazol-4-yl]ethyl]-argininamide) (0.3 microM), the Y(2) receptor agonists NPY(13-36) and N-acetyl[Leu(28,31)]NPY (24-36) evoked potent slow relaxations in NA-precontracted arteries, under conditions of nitric oxide (NO) synthase blockade. Mechanical removal of the endothelium markedly enhanced contractions of NPY on NA-precontracted arteries, whereas blockade of the neuronal voltage-dependent Ca(2+) channels did not alter NPY responses. These results demonstrate that NPY can elicit dual contractile/relaxing responses in penile small arteries through a heterogeneous population of postjunctional NPY receptors. Potentiation of the contractions evoked by NA involve both NPY Y(1) and NPY Y(2) receptors. An NO-independent relaxation probably mediated by an atypical endothelial NPY receptor is also shown and unmasked in the presence of selective antagonists of the NPY contractile receptors.     

Neuropeptide Y inhibits potassium-stimulated glutamate release through Y2 receptors in rat hippocampal slices in vitro.

1. We investigated the effects of neuropeptide Y (NPY), peptide YY (PYY), NPY13-36, NPY18-36, [Leu31][Pro34]NPY and of pancreatic polypeptide Y (PPY) on calcium-dependent, potassium-stimulated glutamate release in superfused rat hippocampal slices. 2. NPY, PYY and the Y2 receptor agonist NPY13-36 equipotently inhibited the release of glutamate. The half-maximal response was observed at about 10 nM in a dose-dependent manner (3 to 100 nM). Maximal inhibition of 50 to 60% was obtained at 100 nM. At higher concentrations of the peptides (300 nM and 1 microM) this inhibition was partially or entirely reversed. Porcine NPY13-36 and NPY18-36 inhibited glutamate release by about 44% at 100 nM. 3. The specific Y1 receptor agonist, [Leu31][Pro34]NPY, caused an insignificant increase in glutamate release at 100 to 300 nM concentrations. PPY had no effect on potassium-evoked glutamate release in hippocampal slices at concentrations of 30 nM to 1 microM. 4. The experiments support previous electrophysiological data. They suggest a potent inhibitory action of NPY through NPY-Y2 receptors on the release of the excitatory amino acid glutamate in rat hippocampus. Especially under conditions of increased NPY synthesis, such as in epilepsy, this mechanism may be of pathophysiological relevance.     

Neuropeptide Y receptor subtypes in the basolateral nucleus of the amygdala modulate anxiogenic responses in rats

The behavioral effects induced by intra-amygdala stimulation of the neuropeptide Y (NPY) Y(2) and the NPY Y(5) receptor subtypes were assessed in the social interaction (SI) test. Microinjections of NPY(3-36), an NPY Y(2) preferring agonist, into the basolateral nucleus of the amygdala (BLA) produced bi-directional dose-response curve. At low doses NPY(3-36) has an anxiogenic effect while at higher doses it produced an anxiolytic effect. Pretreatment with the NPY Y(5) receptor antagonist Novartis 1(1 nmol), an analog of CGP71683A synthesized by Eli Lilly and Company, IN, blocked the anxiolytic effects of NPY(3-36) (80 pmol), while pretreatment with BIBO 3304 (200 pmol), a Y(1) antagonist, had no effect, suggesting that the Y(5), but not the Y(1) receptor was involved in the anxiolytic behavior produced following intra-amygdalar NPY(3-36) administration. In addition, the Y(5) antagonist had no behavioral effect when given alone at 1.0 nmol. These findings support the hypothesis that amygdalar Y(2) receptors may play a role in mediating anxiogenic effects, while Y(5) receptors may be involved in the anxiolytic behaviors of NPY.     

Reversal by NPY, PYY and 3-36 molecular forms of NPY and PYY of intracisternal CRF-induced inhibition of gastric acid secretion in rats.

1. The Y receptor subtype involved in the antagonism by neuropeptide Y (NPY) of intracisternal corticotropin-releasing factor (CRF)-induced inhibition of gastric acid secretion was studied in urethane-anaesthetized rats by use of peptides with various selectivity for Y1, Y2 and Y3 subtypes: NPY, a Y1, Y2 and Y3 agonist, peptide YY (PYY), a Y1 and Y2 agonist, [Leu31, Pro34]-NPY, a Y1 and Y3 agonist, NPY(3-36) and PYY(3-36), highly selective Y2 agonists and NPY(13-36) a weak Y2 and Y3 agonist. Peptides were injected intracisternally 10 min before intracisternal injection of CRF (10 micrograms) and gastric acid secretion was measured by the flushed technique for 1 h before and 2 h after pentagastrin-(10 micrograms kg-1 h-1, i.v.) infusion which started 10 min after CRF injection. 2. Intracisternal injection of CRF (10 micrograms) inhibited by 56% gastric acid secretion stimulated by pentagastrin. Intracisternal injection of NPY and PYY (0.1-0.5 microgram) did not influence the acid response to pentagastrin but blocked CRF-induced inhibition of pentagastrin-stimulated acid secretion. NPY(3-36) (0.5 microgram) and PYY(3-36) (0.25 and 0.5 microgram) also completely blocked the inhibitory action of CRF on pentagastrin-stimulated acid secretion. 3. [Leu31, Pro34]-NPY (0.5-5 micrograms) and NPY(13-36) (0.5-5 micrograms) injected intracisternally did not modify gastric acid secretion induced by pentagastrin or CRF inhibitory action. 4. The sigma antagonist, BMY 14802 (1 mg kg-1, s.c.) did not influence the acid response to pentagastrin but prevented the antagonism by PYY(3-36) (0.5 microgram) of the CRF antisecretory effect. 5. These results show that both PYY and NPY and the 3-36 forms of PYY and NPY are equipotent in blocking central CRF-induced inhibition of pentagastrin-stimulated gastric acid secretion. The structure-activity profile suggests a mediation through Y2 receptor subtype and the involvement of sigma binding sites.     

Vascular pharmacology of BIIE0246, the first selective non-peptide neuropeptide Y Y(2) receptor antagonist, in vivo

BIIE0246, a recently introduced non-peptide neuropeptide Y (NPY) Y(2) receptor antagonist, was pharmacologically characterized in vivo, on vascular responses evoked in the anaesthetized pig. The NPY Y(2) receptor agonist N-acetyl[Leu(28)Leu(31)]NPY(24-36) evoked dose-dependent vasoconstriction in spleen. These vascular responses were potently and dose-dependently antagonized by BIIE0246. Significant inhibition was seen already at 1 nmol kg(-1), whereas at 100 nmol kg(-1) of BIIE0246 these responses were completely abolished. The ID(50) value for this antagonism was 2.1 nmol kg(-1). Peptide YY (PYY) evoked dose-dependent vasoconstriction in both kidney and spleen, vascular responses mediated by the NPY Y(1) receptor and both NPY Y(1) and Y(2) receptors, respectively. Only the splenic response was inhibited by BIIE0246, the effect of which reached significance at 1 nmol kg(-1). Already 30 min after the last dose of BIIE0246 there was a significant recovery of the PYY-evoked splenic vasoconstriction, and a further 60 min later, this response was no longer significantly inhibited compared to control. BIIE0246 (100 nmol kg(-1)) did not affect renal and splenic vasoconstrictor responses either to the NPY Y(1) receptor agonist [Leu(31)Pro(34)]NPY, the alpha(1)-adrenoceptor agonist phenylephrine, the P2X(1)-purinoceptor agonist alpha,beta-methylene ATP or angiotensin II, demonstrating both selectivity and specificity for the NPY Y(2) receptor in vivo. It is concluded that BIIE0246 is a highly potent and selective NPY Y(2) receptor antagonist, albeit with rather short duration of action, in vivo. BIIE0246 thus represents the first interesting tool for studies on NPY Y(2) receptor-mediated transmission in vivo.     

Demonstration of a 'septide-sensitive' inflammatory response in rat skin.

1. Measurement of plasma protein extravasation induced by the natural tachykinins following intradermal administration in rat skin indicated equipotency between substance P (SP), neurokinin A (NKA) and neurokinin B (NKB). The selective NK1 receptor agonist, [Sar9]SP sulphone was 10-100 times more potent than SP. The synthetic hexapeptide, septide, [pGlu6, Pro9]SP-(6-11), which has been proposed to act on a distinct NK1 receptor subtype/binding site was equipotent with [Sar9]SP sulphone. 2. The selective NK2 receptor agonist [beta Ala8]NKA(4-10) (0.1-1 nmol) and the selective NK3 receptor agonist, senktide (0.1-1 nmol) were both ineffective in producing oedema. The selective NK2 receptor antagonist, SR 48, 968 (0.3 mumol kg-1) had no significant inhibitory effects upon oedema induced by approximately equiactive doses of SP (0.2 nmol), septide (0.002 nmol), [Sar9]SP sulphone (0.002 nmol), or NKB (0.3 nmol). These results together suggest that neither NK2 nor NK3 receptors are involved in oedema formation in rat skin. 3. The non-peptide tachykinin NK1 receptor antagonist, RP 67,580 (1-3 mumol kg-1), inhibited plasma protein extravasation induced by septide (0.002 nmol) to a greater extent than that to SP (0.2 nmol). RP 67,580 (1 mumol kg-1) produced a significant inhibition of approximately 66% of the response to septide (0.002 nmol) only. Increasing the dose of RP 67,580 3 fold resulted in inhibition of the response to SP (0.2 nmol) and [Sar9]SP sulphone (0.002 nmol) by approximately 66% and 64% respectively with the response to septide being inhibited by approximately 70%.(ABSTRACT TRUNCATED AT 250 WORDS)     

Different neuropeptide Y receptor subtypes in rat and rabbit vas deferens.

Prejunctional neuropeptide Y (NPY) receptors that inhibit the contractions evoked in rat and rabbit vas deferens by field stimulation were investigated by using NPY, [Leu31,Pro34]NPY and the fragments, NPY-(13-36) and NPY-(18-36). NPY, and especially [Leu31,Pro34]NPY, were more potent agonists on the twitch response of the rabbit vas deferens. In contrast the NPY C-terminal fragments, NPY-(13-36) and NPY-(18-36), inhibited the twitch response at lower concentrations in the rat vas deferens. These results indicate that distinct NPY receptor subtypes mediate the biological effect in these two tissues. We suggest that prejunctional receptors in the rat vas deferens are of the Y2-subtype and those in rabbit vas deferens of the Y1-subtype.     

Neuropeptide Y inhibits double peaked vasoconstrictor responses to periarterial nerve stimulation primarily through prejunctional Y2 receptor subtype in canine splenic arteries

1 The effects of BIIE 0246, a novel and non-peptide neuropeptide Y (NPY) Y2 receptor antagonist on sympathetic vasoconstriction of the canine splenic artery were investigated. 2 The vasoconstrictor response to periarterial electrical nerve stimulation was described to be a double peaked vasoconstriction consisting of an initial transient, dominantly P2X purinoceptor-mediated constriction followed by a prolonged, mainly alpha1 adrenoceptor-induced response. 3 BIIE 0246 at a concentration of 0.1-1 microM dose-dependently potentiated double peaked constrictions at low frequencies (1 and 4 Hz), whereas at high frequency (10 Hz), it failed to affect these responses. BIIE 0246 (1 microM) also enhanced double peaked responses even in the presence of rauwolscine (0.1 microM). NPY (13-36) (1-100 nM), a selective Y2 receptor agonist reduced these two peaked responses in a dose-related manner. The vasoconstriction to noradrenaline (0.1-10 nmol) or adenosine triphosphate (0.01-1 micromol) was not significantly influenced by either 1 microM BIIE 0246 or 100 nM NPY (13-36). Exposure of tissues to 1 microM BIIE 0246 almost completely prevented the suppression of double peaked constrictions by NPY (13-36) (10 nM) or by NPY (10 nM). 4 We conclude that NPY inhibits sympathetic purinergic and adrenergic vasoconstrictions through an activation of prejunctional Y2 receptor subtype in the neurovascular junction of the canine splenic artery.     

Neuropeptide Y2 receptors are involved in enhanced neurogenic vasoconstriction in spontaneously hypertensive rats

1. The present study addressed the role of neuropeptide (NPY) Y2 receptors in neurogenic contraction of mesenteric resistance arteries from female spontaneously hypertensive rats (SHR). Arteries were suspended in microvascular myographs, electrical field stimulation (EFS) was performed, and protein evaluated by Western blotting and immunohistochemistry. 2. In vasopressin-activated endothelium-intact arteries, NPY and fragments with selectivity for Y1 receptors, [Leu31,Pro34]NPY, Y2 receptors, NPY(13-36), and rat pancreatic polypeptide evoked more pronounced contractions in segments from SHR than in Wistar Kyoto (WKY) arteries, even in the presence of the Y1 receptor antagonist, BIBP3226 (0.3 microM, (R)-N(2)-(diphenacetyl)-N-[(4-hydroxyphenyl)methyl]D-arginineamide). 3. In the presence of prazosin and during vasopressin activation, EFS-evoked contractions were larger in arteries from SHR compared to WKY. EFS contractions were enhanced by the Y2 receptor selective antagonist BIIE0246TF (0.5 microM, (S)-N2-[[1-[2-[4-[(R,S)-5,11-dihydro-6(6h)-oxodibenz[b,e]azepin-11-y1]-1-piperazinyl]-2-oxoethyl]cyclo-pentyl-N-[2-[1,2-dihydro-3,5 (4H)-dioxo-1,2-diphenyl-3H-1,2,4-triazol-4-yl]ethyl]-argininamide), reduced by BIBP3226, and abolished by the combination of BIBP3226 and BIIE0246TF. 4. Immunoblotting showed NPY Y1 and Y2 receptor expression to be similar in arteries from WKY and SHR, although a specific Y2 receptor band at 80 kDa was detected only in arteries from WKY. 5. Immunoreaction for NPY was enhanced in arteries from SHR. In contrast to arteries from WKY, BIIE0246TF increased NPY immunoreactivity in EFS-stimulated arteries from SHR. 6. The present results suggest that postjunctional neuropeptide Y1 and Y2 receptors contribute to neurogenic contraction of mesenteric small arteries. Moreover, both enhanced NPY content and altered neuropeptide Y1 and Y2 receptor activation apparently contribute to the enhanced neurogenic contraction of arteries from SHR.     

Involvement of tachykinins in plasma extravasation induced by bradykinin and low pH medium in the guinea-pig conjunctiva.

1. The effect of bradykinin, capsaicin, substance P and low pH medium on plasma extravasation in the guinea-pig conjunctiva has been studied. Evans blue dye was measured in the conjunctiva after local instillation of the agents into the conjunctival sac. 2. Bradykinin (2-50 nmol), capsaicin (20-50 nmol) and substance P (0.5-5 nmol) caused a dose-dependent increase in plasma extravasation with the following order of potency: substance P > bradykinin = capsaicin. The effect of capsaicin (50 nmol) and substance P (5 nmol) was abolished by the tachykinin NK1 receptor antagonist, CP-99,994 (8 mumol kg-1, i.v.) (P < 0.01), whereas CP-100,263 (8 mumol kg-1, i.v.) the inactive enantiomer of CP-99,994 was without effect. CP-99,994 inhibited by 70% (P < 0.01) the effect of bradykinin. 3. The kinin B2 receptor antagonist, Hoe 140 (icatibant, 10 nmol kg-1, i.v.) abolished the response to bradykinin (50 nmol) (P < 0.01), but did not affect the responses to capsaicin (50 nmol) or substance P (5 nmol). Plasma extravasation induced by low pH medium (pH 1) was abolished by CP-99,994 (P < 0.01) and by Hoe 140 (P < 0.01). 4. The present findings suggest that: endogenous or exogenous tachykinins increase plasma extravasation in the guinea-pig conjunctiva by activation of NK1 receptors; bradykinin-induced plasma extravasation is mediated by tachykinin release from sensory nerve endings; low pH media cause plasma extravasation via release of kinins that by activation of B2 receptors release tachykinins from sensory nerve endings.     

BIIE0246, a potent and highly selective non-peptide neuropeptide Y Y(2) receptor antagonist

1. BIIE0246, a newly synthesized non-peptide neuropeptide Y (NPY) Y(2) receptor antagonist, was able to compete with high affinity (8 to 15 nM) for specific [(125)I]PYY(3 - 36) binding sites in HEK293 cells transfected with the rat Y(2) receptor cDNA, and in rat brain and human frontal cortex membrane homogenates. 2. Interestingly, in rat brain homogenates while NPY, C2-NPY and PYY(3 - 36) inhibited all specific [(125)I]PYY(3 - 36) labelling, BIIE0246 failed to compete for all specific binding suggesting that [(125)I]PYY(3 - 36) recognized, in addition to the Y(2) subtype, another population of specific NPY binding sites, most likely the Y(5) receptor. 3. Quantitative receptor autoradiographic data confirmed the presence of [(125)I]PYY(3 - 36)/BIIE0246-sensitive (Y(2)) and-insensitive (Y(5)) binding sites in the rat brain as well as in the marmoset monkey and human hippocampal formation. 4. In the rat vas deferens and dog saphenous vein (two prototypical Y(2) bioassays), BIIE0246 induced parallel shifts to the right of NPY concentration-response curves with pA(2) values of 8.1 and 8.6, respectively. In the rat colon (a Y(2)/Y(4) bioassay), BIIE0246 (1 microM) completely blocked the contraction induced by PYY(3 - 36), but not that of [Leu(31), Pro(34)]NPY (a Y(1), Y(4) and Y(5) agonist) and hPP (a Y(4) and Y(5) agonist). Additionally, BIIE0246 failed to alter the contractile effects of NPY in prototypical Y(1) in vitro bioassays. 5. Taken together, these results demonstrate that BIIE0246 is a highly potent, high affinity antagonist selective for the Y(2) receptor subtype. It should prove most useful to establish further the functional role of the Y(2) receptor in the organism.     

Inhibition of sympathetic vasoconstriction in pigs in vivo by the neuropeptide Y-Y1 receptor antagonist BIBP 3226.

1. Recently, a potent non-peptide antagonist of neuropeptide Y (NPY)-Y1 receptors has been developed. In this study, the selectivity of this compound, BIBP 3226, as a functional Y1 receptor antagonist, and the possible role of endogenous NPY in sympathetic vasoconstriction in different vascular beds have been investigated in anaesthetized pigs. 2. BIBP 3226 specifically displaced [125I]-NPY binding with an IC50 value of 7 nM in membranes of pig renal arteries, which also were responsive to a Y1 receptor agonist, but had only minor effects in the pig spleen (IC50 55 microM), where instead [125I]-NPY binding was markedly inhibited by a Y2 receptor agonist. IC50 values in the same nM range for BIBP 3226 were also observed in rat and bovine cortex and dog spleen. 3. In anaesthetized control pigs in vivo BIBP 3226 (1 and 3 mg kg-1) markedly inhibited the vasoconstrictor effects of the Y1 receptor agonist [Leu31, Pro34] NPY(1-36), without influencing the responses to the Y2 receptor agonist N-acetyl [Leu28, Leu31] NPY(24-36), or to noradrenaline, phenylephrine, alpha,beta-methylene adenosine triphosphate or angiotensin II. 4. High frequency stimulation of the sympathetic trunk in control pigs caused a biphasic vasoconstrictor response in nasal mucosa, hind limb and skin: there was an immediate, peak response, followed by a long-lasting vasoconstriction. BIBP 3226 (1 and 3 mg kg-1) reduced the second phase by about 50% but had no effect on the peak response. In the spleen, kidney and mesenteric circulation (which lack the protracted response) BIBP 3226 was likewise without effect on the maximal vasoconstriction, and did not influence noradrenaline overflow from spleen and kidney. 5. The corresponding S-enantiomer BIBP 3435 had only marginal influence on [125I]-NPY binding (microM range) and did not inhibit the vasoconstrictor effects of any of the agonists used, including the Y1 receptor peptide agonist. Furthermore, BIBP 3435 did not affect the response to sympathetic nerve stimulation. Both BIBP 3435 and BIBP 3226 caused a slight transient decrease in mean arterial blood pressure (by about 5 and 15 mmHg at 1 mg kg-1 and 3 mg kg-1, respectively), accompanied by splenic and mesenteric vasodilatation, suggesting that this effect was unrelated to Y1 receptor blockade. 6. The peptide YY (PYY)- and NPY-evoked vasoconstriction in the kidney of reserpine-treated pigs was markedly reduced (by 95%) by BIBP 3226 while the vasoconstrictor effect in the spleen was attenuated by only 20%. BIBP 3226 did not influence stimulation-evoked NPY release. The vasoconstrictor response in reserpine-treated pigs to single impulse stimulation, which is observed only in nasal mucosa and hind limb, was unchanged regarding maximal amplitude and the integrated effect was only moderately reduced (by about 25%) in the presence of BIBP 3226 (1 mg kg-1). BIBP 3226 (1 mg kg-1) markedly reduced (by 55-70%) the long-lasting vascular response (total integrated blood flow reduction) evoked by sympathetic nerve stimulation at high frequency (40 impulses at 20 Hz) in spleen, kidney, nasal mucosa and hind limb. Furthermore, the maximal amplitude of the vasoconstriction was reduced mainly in the kidney (by 60%) and also in the spleen (by 40%). 7. It is concluded that BIBP 3226 can act as a selective Y1 receptor antagonist in the pig. Endogenous NPY via Y1 receptor activation may play a role in evoking the long-lasting vasoconstriction seen in nasal mucosa, hind limb and skin after high frequency stimulation of sympathetic nerves in control pigs. Furthermore, NPY via Y1 receptor mechanisms seems to be of major importance for the long-lasting component of the reserpine resistant sympathetic vasoconstriction in many vascular beds, and for the maximal vasoconstrictor response in the kidney. Circulating NPY and PYY induce splenic vasoconstriction via Y2-receptors in contrast to neuronally released NPY which mainly activates Y1 receptors.