Role of c-fos gene in vasoactive intestinal peptide promoted synthesis of pulmonary surfactant phospholipids

We previously reported that vasoactive intestinal peptide (VIP) promoted synthesis of phosphatidylcholine (PC) in alveolar type II (ATII) cells. But the intracellular mechanism for this effect was unknown. In this work, we investigated the intracellular signal transduction pathway for VIP promoted synthesis of PC, the major lipid component of pulmonary surfactant (PS), by using an antagonist of VIP receptors, inhibitor of protein kinase C (PKC) and antisense oligonucleotides (AS-ODN) for c-fos oncogene. Our results showed that: ① [D-P-Cl-Phe(6)-Leu(17)]-VIP (10^− 6 mol/l), an antagonist of VIP receptors, could decrease the quantity of [³H] choline incorporation, microsomal choline-phosphate cytidylyltransferase (CCT) mRNA expression and CCT activity induced by VIP (10^− 8 mol/l) in cultured lung explants to the control levels; ② VIP (10^− 8 mol/l) upregulated c-Fos protein expression in ATII cells. AS-ODN for c-fos oncogene (9 × 10^− 6 mol/l) could block the elevation of [³H] choline incorporation, microsomal CCT mRNA expression and CCT activity induced by VIP in cultured lung explants and in ATII cells; ③ H7 (10^− 5 mol/l), a PKC inhibitor could also reduce VIP induced [³H] choline incorporation, microsomal CCT mRNA expression and CCT activity in cultured lung explants and in ATII cells. These results demonstrated that VIP receptors, PKC and c-Fos protein played important roles in the signaling pathway through which VIP promoted the synthesis of PC.     

Peptide T does not affect induction of pineal N-acetyltransferase by vasoactive intestinal peptide

It has been suggested that the HIV virus binds to VIP recognition sites which can be blocked by the octapeptide, peptide T. Stimulation of VIP receptors on pinealocytes activates adenylate cyclase and increases the activity of the enzyme serotonin N-acetyltransferase (NAT). We examined whether peptide T or D-Ala peptide T amide affected this induction. We found no evidence for peptide T interference with NAT induction and conclude that if peptide T inhibits attachment of HIV virus to VIP receptors, it does so at regions other than that occupied by VIP in stimulating adenylate cyclase and NAT.     

Effects of PHI on vasoactive intestinal peptide receptors and adenylate cyclase activity in lung membranes. A comparison in man, rat, mouse and guinea pig

The presence of receptors, recognized by vasoactive intestinal peptide (VIP) as well as by PHI (a peptide with N-terminal histidine and C-terminal isoleucine amide), was documented in lung membranes from rat, mouse, guinea pig and man by the ability of these receptors, once occupied, to stimulate adenylate cyclase. In lung membranes from rat, mouse and guinea pig, the capacity of VIP, PHI and secretin to stimulate the enzyme and the potency of the same peptides to compete with 125I-VIP for binding to VIP receptors were similar, the affinity decreasing in the order: VIP greater than PHI greater than secretin. In addition, dose-effect curves were compatible with the coexistence of high-affinity and low-affinity VIP receptors, in the four animal species considered. If PHI was able to recognize all VIP receptors it could not, however, discriminate the subclasses of VIP receptors.     

Vasoactive intestinal peptide and pituitary adenylate cyclase-activating polypeptide inhibit LPS-stimulated MIP-1alpha production and mRNA expression

Vasoactive intestinal peptide (VIP) and pituitary adenylate cyclase-activating polypeptide (PACAP) are neuropeptides with immunomodulatory properties, including the regulation of several proinflammatory mediators. Such mediators, for example chemokines, influence trafficking of inflammatory cells and contribute to shaping the immune response. In the present work, we studied the effect of VIP and PACAP on the CC chemokine macrophage inflammatory protein-1 alpha (MIP-1alpha) production in LPS-stimulated RAW 264.7 macrophage cell line. VIP and PACAP inhibited the production of MIP-1alpha in a dose-dependent manner and over a broad spectrum of LPS concentrations. The use of selective agonists and antagonists of VIP/PACAP receptors showed that type 1 VIP receptor (VPAC1) is the major receptor involved, but the type 2 VIP receptor (VPAC2) may be also implicated. By using selective PKA and PKC inhibitors and cAMP mimicked agents, we demonstrated a cAMP-dependent signalling pathway for the inhibitory effect of VIP/PACAP on MIP-1alpha production, although a minor non-mediated cAMP pathway was also involved. mRNA expression studies showed a down-regulation of MIP-1alpha gene expression by VIP and PACAP. Taken together, the present work strongly supports an anti-inflammatory role of VIP and PACAP by a new mechanism associated with impairment of a key component of the chemokine network.     

Molecular Characteristics and Peptide Specificity of Vasoactive Intestinal Peptide Receptors from Rat Cerebral Cortex

Vasoactive intestinal peptide (VIP) receptors have been identified in CNS by their chemical specificity and molecular size. Using synaptosomes isolated from rat cerebral cortex, it was shown that central VIP receptors discriminated among natural and synthetic VIP-related peptides, because half-maximal inhibition of [125I]VIP binding to synaptosomes was obtained for 0.6 nM VIP, 9 nM peptide histidine isoleucineamide (PHI), 50 nM VIP 2-28, 70 nM secretin, 100 nM rat growth hormone-releasing factor (GRF), and 350 nM human GRF. Other peptides of the VIP family, such as glucagon and gastric inhibitory polypeptide, did not interact with cortical VIP receptors. The molecular components of VIP receptors in rat cerebral cortex were identified after [125I]VIP cross-linking to synaptosomes using the cross-linker dithiobis(succinimidyl propionate). Sodium dodecyl sulfate-polyacrylamide gel electrophoresis of synaptosomal proteins revealed two major [125I]VIP-protein complexes of Mr 49,000 and 18,000. The labeling of the Mr 49,000 component was specific, because it was abolished by native VIP, whereas the labeling of the Mr 18,000 component was not. Natural VIP agonists reduced the labeling of the Mr 49,000 component with the following order of potency: VIP greater than PHI greater than secretin approximately equal to rat GRF. In contrast, glucagon and octapeptide of cholecystokinin were without effect, a result indicating its peptide specificity. Densitometric scanning of autoradiographs showed that the labeling of the Mr 49,000 component was inhibited by low VIP concentrations between 10(-10) and 10(-6) M (IC50 = 0.8 nM), a result indicating the component's high affinity for VIP.(ABSTRACT TRUNCATED AT 250 WORDS)     

Solubilization of active and stable receptors for vasoactive intestinal peptide from rat liver

Vasoactive intestinal peptide (VIP) receptors were solubilized from rat liver using the zwitterionic detergent CHAPS. Optimal conditions of solubilization were obtained with 5 mM CHAPS and 2.5 mg protein/ml. The binding of 125I-VIP to CHAPS extracts was time- and pH-dependent, saturable and reversible. The following order of potency of unlabeled VIP-related peptides for inhibiting 125I-VIP binding was observed: VIP greater than helodermin greater than peptide histidine isoleucine amide (PHI) greater than rat growth hormone releasing factor (rGRF) greater than secretin. This peptide specificity is identical to that of rat liver membrane-bound receptors. VIP binding activity in the CHAPS extract was destroyed by trypsin or dithiothreitol in accordance with the known sensitivity of membrane-bound receptors to these agents. VIP receptors in CHAPS extracts were stable for at least 5 days at 4 degrees C. Scatchard analysis of equilibrium binding data indicated the presence in CHAPS extracts of high (H) and low (L) affinity binding sites with the following characteristics: KdH = 0.27 nM and BmH = 34 fmol/mg protein; KdL = 51 nM and BmL = 1078 fmol/mg protein. The guanine nucleotide GTP inhibited 125I-VIP binding to soluble receptors and enhanced the dissociation of soluble VIP-receptor complexes, suggesting that GTP-binding proteins were functionally associated with VIP receptors in solution. Gel filtration of solubilized VIP receptors on Sephacryl S-300 revealed a single binding component with a Stokes radius of 6.1 nm. It is concluded that active VIP receptors can be extracted from liver membranes by CHAPS. The availability of this CHAPS-soluble, stable and functional receptor from a tissue which can be obtained in large amounts represents a major step toward the purification of VIP receptors.     

Effects of Vasoactive Intestinal Peptide and Other Peptides on Cyclic AMP Accumulation in Intact Pieces and Isolated Horizontal Cells of the Teleost Retina

The effects of vasoactive intestinal peptide (VIP) and several other peptides have been examined on cyclic AMP accumulation in intact pieces and isolated horizontal cells of the teleost (carp) retina. VIP was the most effective peptide examined, inducing a dose-related response, and an approximately fivefold increase in cyclic AMP production when used at a concentration of 10 microM. Porcine histidine isoleucine-containing peptide and secretin, peptides structurally related to VIP, also stimulated cyclic AMP accumulation, but at concentrations of 10 microM induced responses which were only approximately 40% and 10%, respectively, of the response observed with 10 microM VIP. In contrast, several other peptides, including glucagon, neurotensin, somatostatin, luteinizing hormone-releasing hormone, alpha-melanocyte-stimulating hormone, cholecystokinin octapeptide26-33, gastrin-releasing peptide, thyrotropin-releasing hormone, and VIP10-28 were totally inactive. The response to 10 microM VIP was not antagonized by several dopamine antagonists, indicating the presence of a population of specific VIP receptors coupled to adenylate cyclase, distinct from the population of dopamine receptors coupled to adenylate cyclase also known to be present in this tissue. Finally, experiments involving the use of fractions of isolated horizontal cells indicate that these neurons possess a population of VIP receptors coupled to cyclic AMP production which would appear to share a common pool of adenylate cyclase with a population of similarly coupled dopamine receptors.(ABSTRACT TRUNCATED AT 250 WORDS)     

VIP-dependent increase in F508del-CFTR membrane localization is mediated by PKCε

The most common cystic fibrosis causing mutation F508del induces early degradation and reduced trafficking of cystic fibrosis transmembrane conductance regulator (CFTR) chloride channels to the apical membrane of epithelial cells. In the human nasal epithelial cells JME/CF15, we previously reported that vasoactive intestinal peptide (VIP) exposure corrects trafficking and membrane insertion of functional F508del-CFTR channels at 37°C. Correction of trafficking was PKA dependent, whereas enhanced membrane localization involved PKC. In the present study, we have identified PKCε as the isoform involved in VIP-dependent F508del-CFTR membrane insertion. Iodide effluxes were used to monitor the presence of VIP-rescued functional F508del-CFTR channels at the surface of JME/CF15 cells maintained at 37°C. Iodide efflux peaks measured in response to stimulation with forskolin were insensitive to PKC α, β, γ, δ, ζ inhibitors. In contrast, efflux peaks were completely inhibited by pretreatment with the PKCε inhibitor peptide EAVSLKPT with an IC(50) of 4.9 μM or by PKCε small interfering RNA (siRNA). Immunostaining and confocal microscopy confirmed that membrane localization of F508del-CFTR induced by VIP was abolished in the presence of EAVSLKPT but not with other isoform inhibitors. In recombinant baby hamster kidney cells, endogenously expressing PKCε but no VIP receptor, wild-type, and F508del-CFTR sensitivity to cpt-cAMP stimulation was increased by PMA treatment. Biotinylation assays and immunoblots confirmed that PMA (0.5-2 h) induced a greater than threefold increase in membrane CFTR, whereas forskolin had no effect. The PMA effect was abolished by specifically inhibiting PKCε (EAVSLKPT IC(50) = 5.7 μM) but not other PKC isoforms. Taken together, these results indicate that stimulating PKCε by VIP or PMA increases membrane insertion and activity of WT- and F508del-CFTR.     

Properties of vasoactive-intestinal-peptide receptors and beta-adrenoceptors in the murine radiation leukemia-virus-induced lymphoma cell line BL/VL3

1. Based on radioligand binding and adenylate cyclase activation, functional receptors to vasoactive intestinal peptide(VIP)/helodermin, were shown to coexist with beta 2-adrenoceptors and prostaglandin receptors in membranes from a cultured cloned BL/VL3 cell line of murine T-cell lymphoma induced by a radiation leukemia virus. 2. The relative potency of VIP-related peptides to stimulate adenylate cyclase activity was: helodermin greater than VIP greater than peptide histidine isoleucinamide. Five VIP analogs inhibited 125I-iodo-VIP binding and stimulated adenylate cyclase activity, their decreasing order of potency being: VIP greater than [D-Asp3]VIP greater than [D-Ser2]VIP greater than [D-Ala4]VIP = [D-His1]VIP = [D-Phe2]VIP. [D-Phe2]VIP acted as a partial agonist (with an intrinsic activity of 0.1 as compared to that of VIP = 1.0) and competitively inhibited helodermin- and VIP-stimulated adenylate cyclase activity with a similar Ki (0.07-0.10 microM). These data suggest the existence, in this murine T-cell lymphoma, of VIP receptors of the 'helodermin-preferring' subtype that are coupled to adenylate cyclase.     

Insertion and internalization of vasoactive intestinal peptide (VIP) receptors in murine CD4 T lymphocytes.

The specific binding of vasoactive intestinal peptide (VIP) to murine lymphocytes was investigated. CD4 T cells from mesenteric lymph nodes (MLN) bound more 125I-VIP than did unseparated MLN lymphocytes at 37 degrees C, but not at 4 degrees C. The differences between the amount of 125I-VIP bound by the CD4 T cells and unseparated MLN lymphocytes at 37 degrees C depended upon a difference in the amount of the ligand that was internalized by the cells. The rate of insertion of unoccupied VIP receptors from the cytoplasm into the cell membrane (370 receptors/cell/min), the rate constants for internalization of ligand occupied VIP receptors (0.55 min-1) and unoccupied VIP receptors (0.11 min-1), and the rate constant for the elimination of internalized VIP (0.07 min-1) by CD4 T cells were evaluated. These results provide new understanding of the behaviour of VIP receptors on lymphocytes and indicate a mechanism by which CD4 T lymphocytes can homologously regulate their surface expression of VIP receptors in the presence of ambient VIP.     

Identification and functional properties of the pituitary adenylate cyclase activating peptide (PAC1) receptor in human benign hyperplastic prostate

Pituitary adenylate cyclase activating peptide (PACAP) is a novel neuropeptide with regulatory and trophic functions that is related to vasoactive intestinal peptide (VIP). Here we investigate the expression of specific PACAP receptors (PAC1) and common VIP/PACAP receptors (VPAC1 and VPAC2) in the human hyperplastic prostate by immunological methods. The PAC1 receptor corresponded to a 60-KDa protein whereas the already known VPAC1 and VPAC2 receptors possessed molecular masses of 58 and 68 KDa, respectively. The heterogeneity of VIP/PACAP receptors in this tissue was confirmed by radioligand binding studies using [125I]PACAP-27 by means of stoichiometric and pharmacological experiments. At least two classes of PACAP binding sites showing different affinities could be resolved, with Kd values of 0.81 and 51.4 nM, respectively. The order of potency in displacing [125I]PACAP-27 binding was PACAP-27 approximately equal to PACAP-38 > VIP. PACAP-27 and VIP stimulated similarly adenylate cyclase activity, presumably through common VIP/PACAP receptors. The PAC1 receptor was not coupled to activation of either adenylate cyclase, nitric oxide synthase, or phospholipase C. It appears to be a novel subtype of PAC1 receptor because PACAP-27 (but not PACAP-38 or VIP) led to increased phosphoinositide synthesis, an interesting feature because phosphoinositides are involved via receptor mechanisms in the regulation of cell proliferation.     

D-Phe4]peptide histidine-isoleucinamide ([D-Phe4]PHI), a highly selective vasoactive-intestinal-peptide (VIP) agonist, discriminates VIP-preferring from secretin-preferring receptors in rat pancreatic membranes

The capacity of vasoactive intestinal peptide (VIP), peptide histidine-isoleucinamide (PHI), secretin, and a series of analogs to discriminate between VIP-preferring and secretin-preferring receptors that coexist in rat pancreatic plasma membranes was evaluated by their ability to inhibit [125I]iodo-VIP and [125I]iodo-secretin binding and to activate adenylate cyclase. VIP, the VIP analogs [D-His1]VIP, [D-Ser2]VIP, [D-Asp3]VIP and [D-Ala4]VIP, PHI, [D-Phe4]PHI, and secretin inhibited the binding of both ligands in a concentration range of 10(-11) M to 10(-5) M and with a selectivity factor varying from 18,000 to 0.1. The only exception was [D-Phe4]PHI that inhibited 125I-VIP binding only, with an IC50 of 7 nM, and with no inhibition of 125I-secretin binding at 10 microM. The peptides tested stimulated adenylate cyclase in the same membranes and the slope of the dose-effect curves indicated that all peptides, except [D-Phe4]PHI, interacted with at least two classes of receptors: VIP-preferring and secretin-preferring receptors. By contrast, the dose-effect curve of [D-Phe4]PHI activation of adenylate cyclase was monophasic and competitively modified by [D-Phe2]VIP (a VIP antagonist) but not by secretin(7-27) (a secretin antagonist), indicating an interaction with VIP-preferring receptors only. Thus, [D-Phe4]PHI appears to be a highly selective tool to characterize these receptors.     

Expression of functional PACAP/VIP receptors in human prostate cancer and healthy tissue

Vasoactive intestinal peptide (VIP) is involved in prostate cell proliferation and function. VIP and pituitary adenylate cyclase-activating peptide (PACAP) are similarly recognized by VPAC(1)/VPAC(2) receptors whereas PACAP binds with higher affinity than VIP to PAC(1) receptor. Here we systematically studied the presence and distribution of functional PAC(1), VPAC(1) and VPAC(2) receptors in human normal and malignant prostate tissue. Functional PACAP/VIP receptors were detected in normal and malignant prostate by adenylyl cyclase stimulation with PACAP-27/38 and VIP. RT-PCR experiments showed PAC(1) (various isoforms due to alternative splicing), VPAC(1) and VPAC(2) receptor expression at the mRNA level, whereas Western blots found the three receptor protein classes in normal and pathological conditions. No conclusive differences could be established when comparing control and cancer tissue samples. Immunohistochemistry showed a weaker immunostaining in tumoral than in normal epithelial cells for the three receptor subtypes. In conclusion, we demonstrate the expression of functional PAC(1), VPAC(1) and VPAC(2) receptors in human prostate as well as its maintenance after malignant transformation.     

Decreased binding of vasoactive intestinal peptide to intestinal epithelial cells from hypothyroid rats

The binding of vasoactive intestinal peptide (VIP) and stimulation of adenylate cyclase by VIP were studied in intestinal epithelial cells during hypothyroidism. Experimental hypothyroidism was induced in rats by the administration of KC10(4). The binding capacity, but not the affinity, of VIP receptors decreased in the hypothyroid rats. Besides, the stimulation of cyclic AMP production by VIP was also diminished in cells from hypothyroid rats. These observations indicate a decrease of the responsiveness of intestinal epithelial cells to VIP in the hypothyroid status, suggesting a role of the peptide in the pathophysiologic mechanism of intestinal manifestations during hypothyroidism.     

Peptide T from human immunodeficiency virus envelope does not interact with hepatic, intestinal and colonic vasoactive intestinal peptide (VIP) receptors

Acquired immunodeficiency syndrome (AIDS) is initiated by the attachment of the human immunodeficiency virus (HIV) to specific target cells. An octapeptide sequence contained within the envelope of HIV, peptide T, mediates the viral binding. Since there is a considerable structural homology between peptide T and VIP, it has been proposed that the VIP receptor may be the naturally occurring protein which provides the corresponding cellular attachment site. In three different models (rat intestinal epithelial cell membranes, rat liver plasma membranes and human colonic cells), we document the lack of interaction between peptide T and the VIP receptor. These observations would also exclude any pathophysiologic effect caused by the crossreactivity of peptide T or its analogues and these VIP receptors.     

Development of dry powder inhalation system of novel vasoactive intestinal peptide (VIP) analogue for pulmonary administration

Vasoactive intestinal peptide (VIP) exerts a relaxing action on tracheal smooth muscle which is mediated through interaction with VIP receptors. The deficiency of VIP in the airways has been implicated in the pathogenesis of asthma. Thus, the administration of VIP may be useful for the therapy of pulmonary diseases. However, the therapeutic application of VIP is largely limited by its rapid degradation in addition to the systemic adverse effects due to the wide distribution of VIP receptors. To overcome these problems, we succeeded to synthesize a novel VIP derivative of VIP, [R15, 20, 21, L17]-VIP-GRR (IK312532), and to prepare its dry powder for the topical administration to the lung. The physicochemical properties of dry powder were evaluated by laser diffraction and cascade impactor. The laser diffraction analysis indicated that the carrier and fine particles had median diameter of 65.6 and 4.5 microm, respectively, and the air flow at the pressure of 0.15 MPa or higher resulted in the high dispersion and significant separation of fine particle containing peptide from the carrier molecule. The cascade impactor analysis clearly showed the high emission of dry powder from capsule and the deposition of peptide on stages 3 of the cascade impactor. The intratracheal administration of dry powder inhaler (DPI) of VIP or IK312532 brought about a significant decrease of maximal number of binding sites (Bmax) for [125I]VIP in anterior and posterior lobes of rat right lung, suggesting a significant occupancy of lung VIP receptors. This effect by IK312532-DPI compared with VIP-DPI lasted for a longer period. Thus, IK312532-DPI may be a pharmacologically useful drug delivery system for the VIP therapy of pulmonary diseases such as asthma.     

High levels of vasoactive intestinal peptide/pituitary adenylate cyclase-activating peptide receptor mRNA expression in primary and tumor lymphoid cells

Neuropeptides exert a variety of putative immunomodulatory actions. Despite the molecular cloning of multiple forms of receptors for several neuropeptides with putative immunomodulatory effects, including vasoactive intestinal peptide (VIP), the related peptide pituitary adenylate cyclase-activating peptide (PACAP), the opiate peptides, tachykinins, somatostatin and corticotropin-releasing factor, it has not been reported that any of the receptor genes are expressed at significant levels in cells of the immune system. The low level of expression of these receptors and lack of knowledge concerning receptor subtype has impeded progress in understanding how neuropeptides regulate immune function. For example, it is not understood why VIP produces immunomodulatory effects at concentrations far below its receptor-binding affinity. Receptors for VIP and PACAP have recently been cloned. We show here by Northern blot analysis that the VIP/PACAP₁ receptor mRNA is present in total RNA prepared from mouse spleen B- and T-lymphocytes. The VIP/PACAP₁ receptor mRNA was also present in human peripheral blood lymphocytes, and in a B-lymphocyte and a myelocytic cell line. The mRNA for a second form of the receptor, the VIP/PACAP₂ receptor, was not expressed at detectable levels in normal cells, but was detected in several human T-cell lines and a murine mast cell line. The results indicate that VIP/PACAP₁ and perhaps VIP/PACAP₂ receptors mediate the diverse effects of VIP and PACAP on immune cells.     

Homologous and heterologous regulation of the helodermin/vasoactive-intestinal-peptide response in the murine radiation leukemia-virus-induced lymphoma cell line BL/VL3

1. Functional vasoactive intestinal peptide (VIP)/helodermin receptors and beta 2-adrenoceptors coexist in membranes from a cultured cloned BL/VL3 cell line of murine T-cell lymphoma induced by a radiation leukemia virus (see preceding paper in this journal). 2. Short-term (5-30 min) exposures of BL/VL3 cells to VIP or isoproterenol induced both homologous and heterologous desensitization. The potency of VIP and isoproterenol to desensitize was similar to their potency to occupy receptors and activate adenylate cyclase. 3. Long-term (16-h) exposure of BL/VL3 cells to VIP induced homologous down regulation only, whereas isoproterenol induced both homologous and heterologous down regulation. The potency of VIP, peptide histidine isoleucinamide, helodermin, helospectin, and [D-Phe2]VIP on the one hand, and of isoproterenol on the other hand, to decrease homologous responses was comparable to their potency for receptor occupancy and adenylate cyclase activation.     

Direct demonstration of guanine nucleotide sensitive receptors for vasoactive intestinal peptide in the anterior lobe of the rat pituitary gland

The vasoactive intestinal peptide (VIP) receptors were identified on the membranes from the rat anterior pituitary gland with [125I]VIP. The dissociation constant (Kd) and the maximal binding capacity (Bmax) values were estimated from the competitive inhibition data. The Kd and Bmax values were 1.05 +/- 0.75 nM and 103 +/- 11 fmol/mg protein, respectively. The order of molar potency of related peptides to inhibit [125I]VIP binding was VIP greater than peptide histidine isoleucine (PHI) greater than secretin greater than glucagon. Glucagon was not effective to inhibit the binding. [125I]VIP binding was effectively inhibited by the addition of guanine nucleotides. The order of molar potency to inhibit the binding was Gpp(NH)p greater than GTP greater than GDP greater than GMP greater than ATP. These results directly suggest the coupling of VIP receptors with guanine nucleotide binding proteins in the anterior pituitary gland.     

Peptide agonist docking in the N-terminal ectodomain of a class II G protein-coupled receptor, the VPAC1 receptor. Photoaffinity, NMR, and molecular modeling

The neuropeptide vasoactive intestinal peptide (VIP) strongly impacts on human pathophysiology and does so through interaction with class II G protein-coupled receptors named VIP pituitary adenylate cyclase-activating peptide (PACAP) receptors (VPACs). The molecular nature of VIP binding to receptors remains elusive. In this work, we have docked VIP in the human VPAC1 receptor by the following approach. (i) VIP probes containing photolabile residues in positions 6, 22, and 24 of VIP were used to photolabel the receptor. After receptor cleavage and Edman sequencing of labeled receptor fragments, it was shown that Phe6, Tyr22, and Asn24 of VIP are in contact with Asp107, Gly116, and Cys122 in the N-terminal ectodomain (N-ted) of the receptor, respectively. (ii) The structure of VIP was determined by NMR showing a central alpha helix, a disordered N-terminal His1-Phe6 segment and a 3(10) Ser25-Asn28 helix termination. (iii) A three-dimensional model of the N-ted of hVPAC1 was constructed by using the NMR structure of the N-ted of corticotropin-releasing factor receptor 2beta as a template. As expected, the fold is identified as a short consensus repeat with two antiparallel beta sheets and is stabilized by three disulfide bonds. (iv) Taking into account the constraints provided by photoaffinity, VIP was docked into the hVPAC1 receptor N-ted. The 6-28 fragment of VIP nicely lies in the N-ted C-terminal part, but the N terminus region of VIP is free for interacting with the receptor transmembrane region. The data provide a structural rationale to the proposed two-step activation mechanism of VPAC receptor and more generally of class II G protein-coupled receptors.