Autoradiographic mapping of pulmonary NK1 and NK2 tachykinin receptors and changes after repeated antigen challenge in guinea pigs

An autoradiographic technique was used to study the distribution of changes in pulmonary NK₁ and NK₂ receptors in guinea pig lung after repeated antigen challenge. Specific labeling of [³H] CP96345 (NK₁ receptors) and [³H] SR48968 (NK₂ receptors) was localized over the tracheal and bronchial smooth muscle; the density of binding increased towards smaller airways with a higher density for [³H] CP96345 binding. Bronchial epithelium and pulmonary blood vessels were also labeled densely with [³H] CP96345. No remarkable difference in the pattern of distribution of pulmonary NK₁ and NK₂ tachykinin receptors was observed between control, vehicle-challenged, and repeatedly antigen-challenged (weekly for three times) guinea pigs. A significant reduction in specific labeling of [³H] CP96345 (p < 0.01) and [³H] SR48968 (p < 0.05) over pulmonary structures was observed in antigen-challenged compared to control or vehicle-challenged animals. This study provides evidence that NK₁ and NK₂ tachykinin receptors are both localized to smooth muscle of all sizes in guinea pig airways and provides further evidence for a discrete distribution of NK₁ and NK₂ tachykinin receptors, consistent with their relative functional activities. In a established model of airway inflammation a decrease in the expression of NK₁ and NK₂ tachykinin receptors was evident on several different cell types within the lung, and this could influence airway and vascular reactivity.     

Characterization of vasoactive intestinal peptide (VIP) receptors in mammalian lung

125I-VIP bound specifically to sites on human, rat, guinea pig, and rabbit lung membranes with a dissociation constant (KD) of 60-200 pM and binding site maxima of 200-800 fmol/mg of protein. The presence of a second lower affinity site was detected but not investigated further. High affinity 125I-VIP binding was reversible and displaced by structurally related peptides with an order of potency: VIP greater than rGRF greater than PHI greater than hGRF greater than secretin = Ac Tyr1 D Phe2 GRF. 125I-VIP has been covalently incorporated into lung membranes using disuccinimidyl suberate. Sodium dodecyl sulfate-polyacrilamide gel electrophoresis of labeled human, rat, and rabbit lung membranes revealed major 125I-VIP-receptor complexes of: Mr = 65,000, 56,000, and 64,000 daltons, respectively. Guinea pig lung membranes exhibited two 125I-VIP-receptor complexes of Mr = 66,000 and 60,000 daltons. This labeling pattern probably reflects the presence of differentially glycosylated forms of the same receptor since treatment with neuroaminidase resulted in a single homogeneous band (Mr = 57,000 daltons). Soluble covalently labeled VIP receptors from guinea pig and human lung bound to and were specifically eluted from agarose-linked wheat germ agglutinin columns. Our studies indicate that mammalian lung VIP receptors are glycoproteins containing terminal sialic acid residues.     

Calcitonin gene-related peptide vasodilation of human pulmonary vessels

Human calcitonin gene-related peptide (CGRP) is localized to sensory neurons in pulmonary vessels and is a potent vasodilator. We have characterized the effects of CGRP in human pulmonary vessels and localized the receptors for this peptide by autoradiography. Fresh human lung tissue was obtained from eight patients undergoing surgery and small (200-400 microns ID) pulmonary arteries and veins were dissected free of surrounding connective and pulmonary tissue. Pairs of vessels were studied and in one of each pair the endothelium was left intact and from the other of each pair the endothelium was removed by gentle abrasion. For functional studies arteries (n = 9) and veins (n = 9) were suspended in an organ bath, precontracted with 1 microM prostaglandin F2 alpha. CGRP (10 pM to 10 microM) was added in a cumulative manner. CGRP caused a dose-dependent relaxation of endothelium intact human pulmonary arteries and veins with log EC50 values of -8.01 +/- 0.35 and -8.70 +/- 0.40, respectively (not significant). Removal of the endothelium did not diminish the vasodilator potency of CGRP in either vessel. For autoradiographic studies, cryostat sections of the small human pulmonary vessels with or without endothelium were used. 125I-CGRP densely labeled CGRP receptors on vascular smooth muscle and endothelial removal did not have any effect on grain density. We concluded that CGRP is a potent vasodilator of human pulmonary arteries and veins that is not dependent on an intact endothelium. These functional studies correlate with the distribution of CGRP receptors as localized by autoradiography.     

Calcitonin gene-related peptide and the lung: neuronal coexistence with substance P, release by capsaicin and vasodilatory effect

The occurrence and distribution of calcitonin gene-related peptide (CGRP) in the lower airways was studied by means of immunohistochemistry and radioimmunoassay (RIA) in combination with high performance liquid chromatography (HPLC). CGRP-like immunoreactivity (-LI) was observed in nerves from the epiglottis down to peripheral bronchi in rat, cat and guinea pig and also in human bronchi. Double staining revealed colocalization of CGRP-LI and substance P (SP)-LI in cell bodies of nodose and jugular ganglia as well as in axons and nerve terminals of the airways. Systemic capsaicin pretreatment induced a marked loss of the CGRP- and SP-immunoreactive (-IR) nerves in the lower airways. CGRP-IR was also present in epithelial endocrine cells and neuroepithelial bodies. The content of CGRP-LI as measured with RIA in guinea pig bronchi was significantly lower after capsaicin pretreatment. Analysis of human bronchial extracts revealed that CGRP-LI coeluted with synthetic human CGRP on HPLC. In the isolated perfused guinea pig lung capsaicin exposure caused overflow of CGRP-LI suggesting release from peripheral branches of sensory nerves. Both in vivo experiments in the guinea pig measuring insufflation pressure as well as in vitro studies on isolated guinea pig and human bronchi showed that whereas tachykinins contracted bronchial smooth muscle no contractile or relaxing effect was elicited by human or rat CGRP. However, CGRP caused relaxation of serotonin precontracted guinea pig and human pulmonary arteries. In conclusion, the presence and release of CGRP-LI from capsaicin sensitive nerves in the lower airways adds another possible mediator, in addition to tachykinins, of vascular reactions upon sensory nerve irritation.     

Innervation of lower airways and neuropeptide effects on bronchial and vascular tone in the pig

Summary The occurrence and distribution of peptide-containing nerve fibres [substance P (SP), calcitonin gene-related peptide (CGRP), vasoactive intestinal polypeptide (VIP), peptide histidine isoleucine (PHI), neuropeptide Y (NPY)] and noradrenergic nerve fibres [tyrosine hydroxylase (TH)- and dopamine beta hydroxylase (DBH)-positive] in the airways of the pig were studied by means of immunohistochemistry. SP- and CGRP-immunoreactive (-IR) nerve fibres were present close to and within the lining respiratory epithelium, around blood vessels, within the tracheobronchial smooth muscle layer and around local tracheobronchial ganglion cells. The content of CGRP- and neurokinin A (NKA)-like immunoreactivity (-LI) measured by radioimmunoassay (RIA) was twice as high in the trachea compared to that in the peripheral bronchi. SP was a more potent constrictor agent than NKA on pig bronchi in vitro. CGRP had a relaxant effect on precontracted pig bronchi. On blood vessels CGRP exerted a relaxant effect that was more pronounced on pulmonary arteries than on bronchial arteries. VIP/PHI-IR fibres were seen in association with exocrine glands and in the tracheobronchial smooth muscle layer. VIP-positive nerve fibres were abundant around blood vessels in the trachea but sparse or absent around blood vessels in the peripheral bronchi. This histological finding was supported by RIA; it was shown that the content of peptides displaying VIP-like immunoreactivity (-LI) was 18 times higher in the trachea compared to peripheral bronchi. VIP was equally potent as CGRP in relaxing precontracted pig bronchi in vitro. Both bronchial and pulmonary arteries were relaxed by VIP. NPY was colocalized with VIP in tracheal periglandular nerve fibres and in nerve fibres within the tracheobronchial smooth muscle layer. NPY was also present in noradrenergic (DBH-positive) vascular nerve fibres. The content of NPY was much higher (15-fold) in the trachea compared to small bronchi. NPY caused a contraction of both pulmonary and bronchial arteries. The bronchial smooth muscle contraction to field stimulation in vitro was purely cholinergic. A non-cholinergic relaxatory effect following field stimulation was observed after bronchial precontraction. Capsaicin had no effect on pig bronchi in vitro.     

Comparative affinities of adrenomedullin (AM) and calcitonin gene-related peptide (CGRP) for [125I] AM and [125I] CGRP specific binding sites in porcine tissues.

We have investigated the binding characteristics of rat [125I] adrenomedullin (AM) and human [125I] calcitonin gene-related peptide (CGRP) to membranes prepared from a number of porcine tissues including atrium, ventricle, lung, spleen, liver, renal cortex and medulla. These membranes displayed specific, high affinity binding for [125I] rat AM and [125I] human CGRP. Porcine lung displayed the highest density of binding sites for radiolabeled AM and CGRP followed by porcine renal cortex. Competition experiments performed with [125I] rat AM indicated that the rank order of potencies of various peptides for inhibiting [125I] rat AM binding to various tissues were rat AM > or = human AM > or = human AM(22-52) > h alpha CGRP > or = h alpha CGRP(8-37) > sCT except spleen, atrium, renal cortex and renal medulla where rAM and hAM were 20-300 fold more potent than hAM (22-52). When the same experiments were performed using [125I] h alpha CGRP as the radioligand, the rank order potencies for various peptides were rAM = hAM > h alpha CGRP > h alpha CGRP(8-37) in most of the tissues except in spleen and liver where h alpha CGRP was the most potent ligand. In lung, h alpha CGRP was almost as potent as rAM and hAM in displacing [125I] h alpha CGRP binding. These data suggest the existence of distinct CGRP and AM specific binding sites in contrast to previous reports that showed that both peptides interact differently in rat tissues.     

Characterization of functional calcitonin gene-related peptide receptors on rat lymphocytes.

Calcitonin gene-related peptide (CGRP), a vasoactive neuropeptide present in peripheral neurons, is released at local sites of inflammation. In these studies specific high affinity adenylyl cyclase linked CGRP receptors were characterized on rat lymphocytes. The distribution, affinity, and specificity of CGRP receptors was analyzed by radioligand binding. 125I-[His10]CGRP binding to rat lymphocytes was rapid, reaching equilibrium by 20 to 30 min at 22 degrees C, and dependent on cell concentration. The dissociation constants, Kd, for the CGRP receptor on purified T and B lymphocytes are 0.807 +/- 0.168 nM and 0.387 +/- 0.072 nM and the densities are 774 +/- 387 and 747 +/- 244 binding sites/cell, respectively. Competition binding studies determined that rat CGRP inhibits 125I-[His10]CGRP binding to lymphocytes with the highest affinity (Ki = 0.192 +/- 0.073) followed by human CGRP and the CGRP receptor antagonist CGRP8-37. 125I-[His10]CGRP binding to rat lymphocytes was not inhibited by the neuropeptides substance P, calcitonin, or neuropeptide Y. Lymphocyte CGRP receptor proteins were identified by affinity labeling by using disuccinimidyl suberate to covalently cross-link 125I-[His10]CGRP to its receptor. Specifically labeled CGRP binding proteins visualized by SDS-PAGE analysis had molecular masses of 74.5 and 220 kDa. A third high molecular mass protein band which did not penetrate the gel was also observed. In functional studies, CGRP stimulated a rapid, sustained increase in cAMP with an ED50 of approximately 8 pM. In experiments comparing optimal concentrations of isoproterenol, a beta 2-adrenergic agonist, and CGRP, intracellular cAMP elevation after isoproterenol treatment returned to basal levels by 30 min, whereas cAMP was still elevated at 60 min after CGRP treatment. The response to CGRP was specific in that it could be completely blocked by CGRP8-37. The presence of high affinity functional CGRP receptors on T and B lymphocytes provides evidence for a modulatory role for CGRP in regulating lymphocyte function.     

Differential Calcitonin Gene-Related Peptide (CGRP) and Amylin Binding Sites in Nucleus Accumbens and Lung: Potential Models for Studying CGRP/Amylin Receptor Subtypes

Abstract: Calcitonin gene-related peptide (CGRP), a 37-amino-acid peptide, is a member of a small family of peptides including amylin or islet amyloid polypeptide and salmon calcitonin. These related peptides have been shown to display similar effects on in vitro and in vivo carbohydrate metabolism. The present study was initiated to identify and characterize the binding sites for these peptides in lung and nucleus accumbens membranes prepared from pig and guinea pig. Both tissues in either species displayed high-affinity (2-[¹²⁵I]iodohistidyl¹⁰)humanCGRPα ([¹²⁵I]hCGRPα) binding (IC₅₀ = 0.4–7.7 nM), which was displaced by hCGRP_8–37α with equally high affinity (IC₅₀ = 0.4–7.3 nM). High-affinity binding for [¹²⁵I]Bolton-Hunter human amylin ([¹²⁵I]BH-h-amylin) was also observed in these tissues (IC₅₀ = 0.2–6.0 nM). In membranes from the nucleus accumbens of both species, salmon calcitonin competed for amylin binding sites with high affinity (IC₅₀ = 0.1 nM) but was poor in competing for amylin binding in lung membranes. Rat amylin_8–37 competed for [¹²⁵I]hCGRPα binding with higher affinity (IC₅₀ = 5.4 nM) compared with [¹²⁵I]BH-h-amylin binding (IC₅₀ = 200 nM) in porcine nucleus accumbens, whereas in guinea pig nucleus accumbens, the IC₅₀ values for rat amylin_8–37 were 117 and 12 nM against [¹²⁵I]hCGRPα and [¹²⁵I]BH-h-amylin, respectively. Also, functional studies evaluating the activation of adenylate cyclase and generation of cyclic AMP in response to these agonists indicated that hCGRPα (EC₅₀ = 0.3 nM), h-amylin (EC₅₀ = 150 nM), and salmon calcitonin (EC₅₀ = 1,000 nM) activated adenylate cyclase, resulting in increased cyclic AMP production in porcine lung membranes that was antagonized by hCGRP_8–37α. The affinity of hCGRP_8–37α was similar for all three peptides. The cyclic AMP responses to amylin and salmon calcitonin were significantly (p < 0.05) lower than that of hCGRPα and not additive, suggesting that they are acting as partial agonists at the same CGRP1-type receptor in porcine lung membranes. Similar observations were made for guinea pig lung membranes. However, human amylin and salmon calcitonin were weaker than hCGRPα in activating lung adenylate cyclase. None of these peptides activated adenylate cyclase in membranes prepared from the nucleus accumbens of both species. The data from these studies demonstrate both species and tissue differences in the existence of distinct CGRP and amylin binding sites and present a potential opportunity to study further CGRP and amylin receptor subtypes.     

Immunohistochemical localization of calcitonin gene-related peptide and bombesin/gastrin-releasing peptide in nerve fibers of the rat, guinea pig and pig female genital organs

The localization and distribution of calcitonin gene-related peptide (CGRP) and bombesin/gastrin-releasing peptide (GRP) immunoreactivity were studied in the rat, guinea pig and pig female genital organs with indirect immunohistochemical technique. In the rat, guinea pig and pig, CGRP and GRP immunoreactivities were localized in nerve fibers of the uterus, ovary and oviduct. Generally, CGRP-immunoreactive nerve fibers were intensely stained, while GRP-immunoreactive nerve fibers exhibited moderate immunoreactivity. The number of GRP-immunoreactive nerve fibers in these organs was lower in comparison with that of CGRP-immunoreactive nerve fibers. The pattern of distribution of these nerve fibers was very similar in different genital organs of all species studied. In the uterus of rat, guinea pig and pig, CGRP- and GRP-immunoreactive nerve fibers and nerve bundles were observed in the muscular membrane and around blood vessels. Some delicate CGRP- and GRP-immunoreactive nerve fibers were also present in the submucous layer of the uterus. In the oviduct, CGRP- and GRP-immunoreactive nerve fibers were seen in the muscular membrane, around blood vessels and in the submucous layer. In the ovary, CGRP- and GRP-immunoreactive nerve fibers were distributed in medullary stroma, in close contact with blood vessels and between follicles of different stages of development.     

Immunohistochemical localization of calcitonin gene-related peptide and bombesin/gastrin-releasing peptide in nerve fibers of the rat,guinea pig and pig female genital organs

Summary The localization and distribution of calcitonin gene-related peptide (CGRP) and bombesin/gastrin-releasing peptide (GRP) immunoreactivity were studied in the rat, guinea pig and pig female genital organs with indirect immunohistochemical technique. In the rat, guinea pig and pig. CGRP and GRP immunoreactivities were localized in nerve fibers of the uterus, ovary and oviduct. Generally, CGRP-immunoreactive nerve fibers were intensely stained, while GRP-immunoreactive nerve fibers exhibited moderate immunoreactivity. The number of GRP-immunoreactive nerve fibers in these organs was lower in comparison with that of CGRP-immunoreactive nerve fibers. The pattern of distribution of these nerve fibers was very similar in different genital organs of all species studied. In the uterus of rat, guinea pig ang pig, CGRP-and GRP-immunoreactive nerve fibers and nerve bundles were observed in the muscular membrane and around blood vessels. Some delicate CGRP-and GRP-immunoreactive nerve fibers were also present in the submucous layer of the uterus. In the oviduct. CGRP-and GRP-immunoreactive nerve fibers were seen in the muscular membrane, around blood vessels and in the submucous layer. In the ovary, CGRP-and GRP-immunoreactive nerve fibers were distributed in medullary stroma, in close contact with blood vessels and between follicles of different stages of development.     

Biochemical and Pharmacological Characterization of Serotonin-O-Carboxymethylglycyl[125I]Iodotyrosinamide5 a New Radioiodinated Probe for 5-HT1B and 5-HT1D Binding Sites

There is a lack of radioactive probes, particularly radioiodinated probes, for the direct labeling of serotonin-1B (5-HT1B) and serotonin-1D (5-HT1D) binding sites. Serotonin-O-carboxymethylglycyltyrosinamide (S-CM-GTNH2) was shown previously to be specific for these two subtypes; we, therefore, linked a 125I to its tyrosine residue. Biochemical and pharmacological properties of S-CM-G[125I]TNH2-binding sites were studied by quantitative autoradiography on rat and guinea pig brain sections. S-CM-G[125I]TNH2 binding is saturable and reversible with a KD value of 1.3 nM in the rat and 6.4 nM in the guinea pig. Binding is heterogeneous, paralleling the anatomical distribution of 5-HT1B sites in the rat and of 5-HT1D sites in the guinea pig. The binding of 0.02 nM S-CM-G[125I]TNH2 was inhibited by low concentrations of 5-HT, S-CM-GTNH2, CGS 12066 B, 5-methoxytryptamine, and tryptamine in both species. Propranolol inhibited the radioligand binding with a greater affinity in the rat than in the guinea pig. Conversely, 8-hydroxy-2-(di-n-propylamino)tetralin inhibited S-CM-G[125I]TNH2 binding with a greater affinity in the guinea pig than in the rat. Other competitors, specific for 5-HT1C, 5-HT2, 5-HT3, and adrenergic receptors, inhibited S-CM-G[125I]TNH2 binding in rat and guinea pig substantia nigra and in other labeled structures known to contain these receptors, but only at high concentrations. S-CM-G[125I]TNH2 is then a useful new probe for the direct study of 5-HT1B and 5-HT1D binding sites.     

Nonadrenergic noncholinergic vasodilation of guinea pig pulmonary arteries is mediated by nitric oxide.

Nonadrenergic noncholinergic (NANC) mediated vasodilation may contribute to the maintenance of low pulmonary vascular tone. The NANC neurotransmitters, nitric oxide (NO) and the sensory neuropeptides, substance P and calcitonin gene related peptide (CGRP), were investigated as possible mediators of NANC vasodilation in guinea pig pulmonary arteries. Fresh guinea pig pulmonary artery rings, with and without an intact endothelium, were mounted in organ baths containing Krebs solution and precontracted with the prostaglandin F2alpha analogue U44069. In both endothelium-intact and denuded vessels, electrical field stimulation (1-12 Hz) in the presence of guanethidine and atropine resulted in a frequency-dependent vasodilation. The peptide fragment hCGRP8-37, a competitive antagonist of the CGRP receptors, the peptide fragment NK1 antagonist SP4-11, and the nonpeptide NK1 antagonist RP67580 had no effect on NANC vasodilation. In both endothelium-intact and denuded vessels, N(G)-nitro-L-arginine methyl ester (L-NAME), an inhibitor of NO synthesis, inhibited NANC vasodilation, an effect that was reversible with L-arginine. We conclude that NANC vasodilation in guinea pig pulmonary arteries is mediated predominantly through NO activity.     

Calcitonin gene-related peptide: an inhibitor of guinea pig gallbladder contraction.

Calcitonin gene-related peptide (CGRP) relaxes vascular and intestinal smooth muscle. This study localized CGRP in the guinea pig gallbladder, examined the effects of CGRP on KCl- and ACh-induced contraction, and determined CGRPs site of action in the gallbladder. The gallbladder of male Hartley guinea pigs was used in in vitro tension studies, radioimmunoassay, or immunocytochemical studies. Radioimmunoassay showed that 8.0 +/- 0.5 pmol/g of immunoreactive CGRP was present. Immunocytochemistry demonstrated that immunoreactive-CGRP nerve fibers occurred around blood vessels, in gallbladder smooth muscle layers, and were associated with ganglia. No immunoreactive cell bodies were observed, even after colchicine treatment. The in vitro tension studies showed that CGRP inhibits either KCl- or acetylcholine-stimulated contraction. CGRP may in part act directly on the gallbladder smooth muscle to inhibit contraction.     

Photoaffinity labeling the beta-adrenergic receptor with an iodoazido derivative of norepinephrine

An iodinated photosensitive derivative of norepinephine, N-(p-azido-m-iodophenethylamidoisobutyl)-norepinephrine (NAIN), has been synthesized and characterized. NAIN stimulated adenylate cyclase activity in guinea pig lung membranes in a manner similar to (-)-isoproterenol and was inhibited by (-)-alprenolol. NAIN was shown to compete with [125I]iodocyanobenzylpindolol for the beta-adrenergic receptor in guinea pig lung membranes with an affinity which was dependent on the presence of guanyl nucleotides. Carrier-free radioiodinated NAIN ([125I]NAIN) was used at 2 nM to photoaffinity label the beta-adrenergic receptor in guinea pig lung membranes. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis analysis of (-)-alprenolol (1 microM) protectable [125I]NAIN labeling showed the same molecular mass polypeptide (65 kDa) that was specifically derivatized with the antagonist photolabel [125I]iodoazidobenzylpindolol. Specific labeling of the beta-adrenergic receptor with [125I]NAIN was dependent on the presence of MgCl2 and the absence of guanyl nucleotide. Guanosine-5'-O-(3-thiotriphosphate (100 microM) abolished specific labeling by [125I]NAIN. N-Ethylmaleimide (2 mM) in the presence of [125I]NAIN protected against the magnesium and guanyl nucleotide effect. These data show that NAIN is an agonist photolabel for the beta-adrenergic receptor.     

Solubilization of binding sites for IAPP and CGRP from rat lung

Functional binding sites for [¹²⁵I]IAPP and [¹²⁵I]CGRP were solubilized from rat lung membranes with CHAPSO (10 mM). Rat IAPP had a higher affinity (K_i = 22.9 nM) for [¹²⁵I]IAPP binding and rat CGRP (K_i = 0.904 nM) had a higher affinity for [¹²⁵I]CGRP binding over related peptides. [¹²⁵I]IAPP binding was unaffected by GTPγS, but [¹²⁵I]CGRP binding was 50% inhibited, indicating solubilization of a G-protein-receptor complex for CGRP but not IAPP binding. Wheat germ agglutinin affinity columns gave a 25-fold purification of IAPP binding sites, but no CGRP binding sites were eluted from the column, indicating different patterns of glycosylation of the two sites.     

Characterization and photoaffinity labeling of a calcitonin gene-related peptide receptor solubilized from human cerebellum.

Calcitonin gene-related peptide (CGRP) receptors were solubilized from human (h) cerebellum with use of the zwitterionic detergent 3-[(3-cholamidopropyl)dimethylammonio]-1-propanesulfonic acid (CHAPS). Scatchard analysis of equilibrium binding data indicated that the soluble extract contained a single class of CGRP binding sites with apparent dissociation constants of 50 pM for the intact 125I-hCGRP-I(1-37) and 160 pM for the antagonist 125I-hCGRP-I(8-37). Unlabeled hCGRP-I and -II and hCGRP-I(8-37) displaced 125I-hCGRP-I from solubilized CGRP receptors with similar potencies (ID50 = 70-150 pM). Human CGRP-I(15-37), -(21-37), and -(28-37) were less potent (ID50 greater than or equal to 70 nM), suggesting that amino acid residues 8-14 may be important for maintaining high binding affinity. A novel photoreactive analogue of hCGRP-I, 125I-[C gamma-(4-azidoanilino)Asp3] hCGRP-I, was prepared by carbodiimide coupling of 4-azidoaniline to 125I-hCGRP-I. Photoaffinity labeling of soluble CGRP receptors with the photoreactive analogue and analysis by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and autoradiography revealed three specifically labeled binding proteins with apparent molecular weights (Mr) of 60,000, 54,000, and 17,000. Cross-linking of 125I-hCGRP-I and -II and 125I-hCGRP-I(8-37) to soluble CGRP binding sites using disuccinimidyl suberate revealed three specifically labeled binding proteins with the same Mr. The C-terminal fragment 125I-hCGRP-I(8-37), unlike the intact peptide, was, furthermore, cross-linked specifically to a 95,000 Mr protein. The CGRP receptor is N-glycosylated. Treatment with endoglycosidase F/N-glycosidase F converted the 60,000 and 54,000 to 46,000 and 41,000 Mr components.(ABSTRACT TRUNCATED AT 250 WORDS)     

Neurokinin A in cerebral vessels: characterization, localization and effects in vitro

Nerve fibres displaying neurokinin A (NKA)-immunoreactivity (IR) were seen in trigeminal nerve cell bodies and around cerebral blood vessels. NKA-positive fibres had the same general distribution as those displaying substance P (SP)-IR. Double or sequential immunostaining revealed coexistence of NKA- and SP-IR in a population of small nerve cell bodies in the trigeminal ganglion and in perivascular nerve fibres of brain vessels; both tachykinins were also noted to coexist with calcitonin gene-related peptide (CGRP)-IR. The presence of NKA- and SP-IR in cerebral vessels from guinea pig was verified by high-performance liquid chromatography and radioimmunochemistry. The levels NKA-IR were higher than those of SP-IR in cerebral vessels of rat, guinea pig and rabbit. In cat, pig, cow and human brain vessels, the levels of NKA- and SP-IR were equal. Major cerebral vessels at the base of the brain contained higher levels of NKA- and SP-IR than pial vessels on the cerebral convexities. Only low levels of NKA-IR and SP-IR were measured in choroid plexus and dura mater. Precontracted isolated arterial segments of middle cerebral (cat), basilar (rabbit, guinea pig and rat) and pial arteries (man) relaxed following the in vitro administration of NKA and SP. The responses occurred in the same concentration range; the IC50 value for NKA was, however, about 10 times higher than that for SP, while the maximum relaxation was equal. In basilar arteries from guinea pig, the peptides NKA, SP and CGRP all induced strong and potent relaxations. There was no evidence that one of the peptides might potentiate the relaxant effects in vitro of another. The present data suggest that NKA, SP and CGRP are costored and can be released together and cooperate in the mediation of vascular reactions in response to activation of the trigemino-cerebrovascular pathway.     

Binding characteristics of endothelin ET(A) receptors in normal and post-mortem rat lung

In control lung homogenates, optimal specific binding of [(125)I]endothelin-1 and minimal filter binding was achieved using 50 microg/ml bacitracin, 30 microM phenylmethylsulphonyl fluoride (PMSF) and 10 mM EDTA. In post-mortem tissue (8, 16, and 32 h), no significant changes were seen in ET(A) receptor affinity (K(d)) or number (B(max)): control and 32 h K(d) = 309 +/- 75, 225 +/- 32 pM and B(max) = 173 +/- 42, 185 +/- 17 fmol/mg protein, respectively. Autoradiographic binding sites for [(125)I]endothelin-1 were densely expressed on bronchiolar smooth muscle and parenchyma with moderate binding on epithelium and blood vessels. Histologic sections of post-mortem lung showed minimal deterioration of structures expressing ET(A) binding sites. Hence the ET(A) receptor is stable in the rat lung for up to 32 h post-mortem.     

Specific binding of vascular permeability factor to endothelial cells

Vascular permeability factor (VPF), also known as vascular endothelial cell growth factor, has recently been purified from guinea pig, human, and bovine sources. We show that various fetal or adult endothelial cell strains originating from either capillary or large vessels possess specific high affinity and saturable binding sites for guinea pig tumor-derived [125I]VPF. Two classes of sites with KDs of approximately 10 pM and 1 nM were detected for all endothelial cell types examined. Guinea pig [125I]VPF binding to endothelial cells was inhibited by human VPF (ID50 = 0.8 ng/ml) and by suramin (ID50 = 75 micrograms/ml) but not by heparin. Cross-linking experiments revealed specific [125I]VPF-receptor complexes of two types. Most of the complexes migrated very slowing in SDS-PAGE, indicating that they were of very high molecular weight and probably highly cross-linked. A portion of the molecules migrated as 270 kDa complexes, indicating that the molecular weight of the endothelial cell VPF receptor is about 230 kDa.     

Effect of sensory neuropeptides on canine bronchial and pulmonary vessels in vitro

Sensory neuropeptides may be important in the noncholinergic component of parasympathetic vasodilation in the tracheobronchial circulation. We studied the effects of substance P (SP), neurokinin A (NKA), neurokinin B (NKB) and calcitonin gene-related peptide (CGRP) on the isolated canine bronchial artery and used pulmonary artery and vein of similar size for comparison. CGRP (10pM-300nM) was a potent relaxant of the bronchial and pulmonary arteries, and the pulmonary vein with equal potency in all vessels. SP in low concentrations (10pM-100nM) caused vasodilation of the precontracted bronchial artery and in high concentration (10-100 microM) contracted the vessel from resting tone. SP also relaxed the pulmonary artery and vein. NKA and NKB caused relaxation in all three vessels. All of the vascular effects of the sensory neuropeptides were concentration-dependent. The order of potency of the neuropeptides in the bronchial and pulmonary artery was SP greater than NKA greater than CGRP greater than NKB. In the pulmonary vein NKB caused a much larger relaxation than SP and NKA but it was less potent than either NKA or CGRP. Capsaicin (1 microM) caused a large contraction of the bronchial artery, similar in magnitude to the contraction caused by high dose of SP. Neuropeptide Y was also studied and found to cause no consistent constriction of any of the vessels studied. In conclusion, CGRP is a universal dilator of the bronchial and pulmonary blood vessels. SP and NKA exert their main effect on arterial vasomotor tone, whereas NKB is the only tachykinin producing marked dilation of the pulmonary vein.