In vitro stimulation of prolactin release by vasoactive intestinal peptide

The effect of vasoactive intestinal peptide (VIP) on anterior pituitary hormone release was examined in a variety of in vitro preparations. Synthetic VIP was capable of stimulating increased prolactin (PRL) release from male rat hemipituitaries in doses as low as 10⁻⁹ M only when the enzyme inhibitor bacitracin was present in the incubation medium. Natural porcine VIP was similarly capable of stimulating PRL release, but only at higher doses (10⁻⁶ M). Additionally, synthetic VIP was capable of stimulating PRL release from dispersed anterior pituitary cells harvested from adult male and lactating female rats and from an enriched population of lactotrophs obtained by unit gravity sedimentation of similar dispersed cells from infantile female rats. No effect of VIP on luteinizing hormone, growth hormone or thyroid stimulating hormone release was seen. These findings taken in concert with the presence of VIP in the hypothalamus, pituitary and hypophyseal portal plasma of the rat suggest a physiological role for VIP in the control of PRL secretion.     

Interaction of a bovine thymic peptide extract with vasoactive intestinal peptide (VIP) receptors

Bovine t hymic peptide extract (1–100 g/ml) is shown to completely inhibit the binding of [¹²⁵I]VIP to rat blood mononuclear cells, lymphoid cells of spleen, and liver plasma membranes. In the three models, the bovine thymic peptide extract inhibits [¹²⁵I]VIP binding with a potency that is 4000–7000 times lower than that of the native VIP, on a weight basis. In rat liver plasma membranes, the bovine thymic peptide extract stimulates adenylate cyclase with a maximal efficiency that is similar to that of VIP. At maximal doses, VIP and thymic peptide extract do not exert an additive effect on adenylate cyclase, suggesting that the activation of the enzyme by the bovine thymic peptide extract occurs through VIP receptors. Finally, no VIP-like immunoreactivity was detected in the thymic peptide extract using an antiserum raised against mammalian VIP. All these data suggest the presence in the bovine thymic peptide extract of a new substance which behaves as a VIP agonist in rat.     

In vitro stimulation of prolactin release by vasoactive intestinal peptide

The effect of vasoactive intestinal peptide (VIP) on anterior pituitary hormone release was examined in a variety of in vitro preparations. Synthetic VIP was capable of stimulating increased prolactin (PRL) release from male rat hemipituitaries in doses as low as 10⁻⁹ M only when the enzyme inhibitor bacitracin was present in the incubation medium. Natural porcine VIP was similarly capable of stimulating PRL release, but only at higher doses (10⁻⁶ M). Additionally, synthetic VIP was capable of stimulating PRL release from dispersed anterior pituitary cells harvested from adult male and lactating female rats and from an enriched population of lactotrophs obtained by unit gravity sedimentation of similar dispersed cells from infantile female rats. No effect of VIP on luteinizing hormone, growth hormone or thyroid stimulating hormone release was seen. These findings taken in concert with the presence of VIP in the hypothalamus, pituitary and hypophyseal portal plasma of the rat suggest a physiological role for VIP in the control of PRL secretion.     

Vasoactive intestinal peptide receptor activity in human fetal enterocytes

Functional and specific receptors for vasoactive intestinal peptide (VIP) (determined by their capacity to bind ¹²⁵I-VIP and activate adenylate cyclase) and cyclic AMP-dependent phosphodiesterase activities were characterized in enterocytes of human fetal small intestine between 18 and 23 weeks of gestation. Half-maximal stimulation of the cyclase and inhibition of ¹²⁵I-VIP binding in membrane preparations were respectively observed at 1.4 and 5 × 10⁻¹⁰ M VIP. The peptides structurally related to VIP activated the cyclic AMP generating system at pharmacological doses (10⁻⁷M and above) in the following order of potency: VIP> PHI> GRF> secretin. Other peptides or test substances, including GIP, pancreatic glucagon, somatostatin-14, gastrin, CCK, neurotensin, pancreatic polypeptide, PYY, substance P, histamine and isoproterenol are inactive in this system, while the ubiquitous adenylate cyclase activators NaF, forskolin and prostaglandins were effective. These results, combined with the appearance of intestinal VIP in nerve fibers at 8 weeks and with the morphological and enzymatic maturation at 9–12 weeks of the intestinal mucosa, indicate that this neuropeptide may regulate either the differentiation or function of enterocytes during the early development of human intestinal mucosa.     

Synthesis of vasoactive intestinal peptide (VIP) via the mixed anhydride method

Porcine VIP was synthesized from three segments. The segments, VIP(1-6), VIP(7-13), and VIP(14-28), were synthesized via the Repetitive Excess Mixed Anhydride (REMA) method. The low solubility of the C-terminal segment was greatly improved by a temporary substitution of Asn28 by a beta-t-butyl aspartic acid ester. The segments VIP(1-6) and VIP(7-13) were purified by HPLC and coupled via the mixed anhydride method. The product was purified by gel filtration. VIP was synthesized from VIP(1-13) and VIP(14-28) by the same procedure. After deprotection, Met17-sulfoxide reduction, and purification by ion-exchange chromatography, the product was found to have the expected amino acid composition and biological potency. A HPLC purified sample was compared with several commercial preparations of varying purity.     

Vasoactive intestinal peptide (VIP) receptors in the canine gastrointestinal tract

Vasoactive intestinal peptide (VIP) is a putative neurotransmitter in both the brain and peripheral tissues. To define possible target tissues of VIP we have used quantitative receptor autoradiography to localize and quantify the distribution of ¹²⁵I-VIP receptor binding sites in the canine gastrointestinal tract. While the distribution of VIP binding sites was different for each segment examined, specific VIP binding sites were localized to the mucosa, the muscularis mucosa, the smooth muscle of submucosal arterioles, lymph nodules, and the circular and longitudinal smooth muscle of the muscularis externa. These results identify putative target tissues of VIP action in the canine gastrointestinal tract. In correlation with physiological data, VIP sites appear to be involved in the regulation of a variety of gastrointestinal functions including epithelial ion transport, gastric secretion, hemodynamic regulation, immune response, esophageal, gastric and intestinal motility.     

Pituitary adenylate cyclase-activating peptide (PACAP), a new vasoactive intestinal peptide (VIP)-like peptide in the respiratory tract

Summary Pituitary adenylate cyclase-activating peptide (PACAP) is a vasoactive intestinal peptide (VIP)-like peptide recently isolated from ovine hypothalami. Nerve fibers displaying PACAP immunoreactivity were found in the respiratory tract of rats, guinea pigs, ferrets, pigs, sheep and squirrel monkeys. A moderate supply of PACAP-immunoreactive fibers was seen in the nasal mucosa of guinea pigs. Few to moderate numbers of PACAP-containing fibers occurred in the tracheo-bronchial wall of rats, guinea pigs, ferrets, pigs, sheep and squirrel monkeys. The fibers were distributed beneath the epithelium, around blood vessels and seromucous glands, and among bundles of smooth muscle. In the lungs, the immunoreactive fibers were observed close to small bronchioli. A few PACAP-immunoreactive nerve cell bodies were seen in the sphenopalatine and otic ganglia of guinea pigs. Simultaneous double immunostaining of the respiratory tract of sheep and ferrets revealed that all PACAP-containing nerve fibers stored VIP. We suggest that neuronal PACAP may take part in the regulation of smooth muscle tone and glandular secretion.     

血管活性肠肽对支气管上皮细胞趋化迁移的影响及机制

为探讨肺内神经肽在气道损伤修复中的作用 ,采用blind wellBoydenchamber测定原代培养的支气管上皮细胞 (bronchialepithelialcells,BEC)趋化性 ,观察血管活性肠肽 (vasoactiveintestinalpeptide ,VIP)对BEC趋化迁移的影响及其机制 ,并测定经热应激后BEC分泌VIP及表达VIP受体 (vasoactiveintestinalpeptidereceptor,VIPR)的变化。结果显示 :(1)以胰岛素作为趋化因子所建立的BEC趋化性测定方法稳定 ,重现性好 (r =0 970 3,P <0 0 1) ;(2 )VIP (0 0 0 1～ 1μmol/L)均显示剂量依赖性地增强BEC的趋化迁移 ,其效应可被钙调蛋白阻断剂及蛋白激酶C阻断剂有效地抑制 (P <0 0 1) ;(3) 4 2℃、30min热应激后BEC分泌VIP (P <0 0 1)及表达VIPR明显增加 (P <0 0 5 )。实验表明 :肺内神经肽VIP可增强BEC的趋化迁移 ,其细胞内信号转导途径与钙调蛋白及蛋白激酶C有关。而热应激时VIP及VIPR的高表达进一步提示局部微环境的VIP可能是气道上皮损伤修复网络中的重要分子     

Phosphorylation of 3 particulate proteins in rat pancreatic acini in response to vasoactive intestinal peptide (VIP), secretin and cholecystokinin (CCK-8)

Rat pancreatic acini were preincubated with 0.4 mM 32Pi for 45 min at 37 degrees C, then exposed for 15 min to VIP, secretin or CCK-8. The incubation was terminated with a stop solution and a fraction rich in mitochondria and zymogen granules was separated from a microsome-rich fraction by differential centrifugation. After heating in the presence of SDS, beta-mercaptoethanol was added and the pattern of equivalent amounts of 32P-labelled proteins was examined by autoradiography of SDS-PAGE gels. VIP, secretin, and CCK-8 stimulated the phosphorylation of a Mr=33 K microsomal protein and that of two proteins of Mr=21 K and Mr=25 K mostly present in a fraction rich in mitochondria and zymogen granules. Stimulations were dose-dependent, the highest stimulant concentrations tested allowing 2- to 3-fold increases of phosphorylation over basal. When 1 nM CCK-8 was used simultaneously with 1 microM VIP, the cyclic AMP levels attained and the pattern of protein phosphorylation were similar to those obtained with VIP alone, and there was a potentiation of amylase secretion; when a supra-maximal 0.1 microM CCK-8 concentration was added, the VIP-induced elevation in cyclic AMP levels and the phosphorylation of the Mr=21 K and Mr=25 K proteins were partially antagonized, and no potentiation any more of secretion occurred. To conclude the in vitro phosphorylation of three particulate proteins (Mr=33 K, 25 K, and 21 K) was similarly increased in rat pancreatic acini in response to secretin and VIP (acting through cyclic AMP) and to CCK-8 (acting mostly through Ca2+).     

Prostaglandin D2 stimulates vasoactive intestinal polypeptide release into rat hypophysial portal blood

The effect of prostaglandin D2 (PGD2) on vasoactive intestinal polypeptide (VIP) release from the hypothalamus was examined by determining plasma VIP levels in rat hypophysial portal blood. Intraventricular injection of PGD2 (5 micrograms/rat) caused a 3-fold increase in the concentration of plasma VIP in hypophysial portal blood in anesthetized rats. A PGD2 metabolite, 13,14-dihydro-15-keto PGD2, did not affect VIP levels in portal blood. The flow rate of hypophysial portal blood was not changed after the injection of PGD2. The intraventricular injection of PGD2, but not PGD2 metabolite, resulted in an increase in peripheral plasma prolactin (PRL) levels in the rat. These findings suggest that PGD2 plays a stimulatory role in regulating VIP release from the hypothalamus into hypophysial portal blood and causes PRL secretion from the pituitary in rats.     

猪β防御素2成熟肽在酵母中的表达

【目的】将猪β防御素2成熟肽基因片段正确整合到酵母基因组染色体上,从而得到稳定的猪β防御素2成熟肽的毕赤酵母表达株。实现猪β防御素2成熟肽的表达。【方法】首先参考酵母偏爱密码子,设计3段引物序列,利用PCR技术扩增得到β防御2成熟肽基因,构建了重组质粒pPIC9k-GST-pBD-2和pPIC9k-pBD-2。将线性化的重组质粒电转化到毕赤酵母KM71细胞中。最后筛选得到酵母阳性克隆,通过不断调节表达条件,实现猪β防御素2成熟肽的表达。【结果】将GST-pBD-2基因序列和pBD-2基因序列分别成功整合到酵母KM71基因组中,重组毕赤酵母工程菌构建成功;重组酵母蛋白GST-pBD-2和PBD-2都成功获得了表达;PBD-2成熟肽表达上清对猪霍乱沙门氏菌弱毒株C500有一定的抑制作用。【结论】获得表达pBD-2成熟肽的酵母菌株,本实验是用真核细胞表达pBD-2成熟肽的一次探索,为后续大量表达pBD-2成熟肽方法的研究打下了基础。     

Action of vasoactive intestinal peptide (VIP) on amphibian adrenocortical function,in vitro

Vasoactive intestinal peptide (VIP) is located in chromaffin cells of the frog adrenal gland and is able to stimulate corticosteroid secretion in amphibians. In the present study we have investigated the possible involvement of prostaglandins, microfilaments and calcium in the mechanism of action of VIP on frog adrenocortical tissue. Rana ridibunda interrenal dice were perifused with amphibian culture medium for more than 10 hours. Corticosterone and aldosterone concentrations were measured in the effluent perifusate using sensitive and specific radioimmunoassay methods. In the presence of indomethacin (5 μM), a specific blocker of prostaglandin biosynthesis, the spontaneous secretion of corticosteroids was markedly reduced (80%) but the stimulatory effect of VIP was not altered. The administration of the microfilament disrupting agent cytochalasin B (50 μM) inhibited both spontaneous and VIP-induced corticosteroid secretion. In the absence of calcium, the spontaneous level of corticosteroid was reduced to about 60% but VIP was still able to stimulate corticosteroid secretion. From these data we conclude that the integrity of the cytoskeleton is required for the secretory response of adrenocortical cells to VIP, whereas neither prostaglandins nor calcium are involved in VIP-induced adrenocortical stimulation.     

Assessment of the conformational features of vasoactive intestinal peptide in solution by limited proteolysis experiments

The structural features of vasoactive intestinal peptide (VIP) and of its Gln16-diaminopropane derivative (VIP-DAP) in solution were investigated by limited proteolysis experiments with trypsin and thermolysin. The proteolysis of the native peptide by both proteinases takes place near the residues in positions 12 and 21/22, suggesting that these amino acids are embedded in segments more flexible than the rest of the molecule. VIP-DAP appears to be more resistant to the proteolytic attack of trypsin, indicating that the derivatization in position 16 is able to stabilize the structure of the peptide. Moreover, the analysis of the mass spectra of the proteolytic mixtures supports the evidence that the derivatization is also able to protect Met17 against oxidation. From these data it can be concluded that VIP in solution under physiological conditions is characterized by the presence of segments with secondary structure, linked together by "hinge" regions that confer flexibility to the peptide, whereas VIP-DAP is embedded in a more rigid conformation, more suitable to receptor interaction.     

Vasoactive intestinal peptide: levels and functional receptors in rat brain before and after weaning.

The average level of VIP was found to be 17 pmol/g wet weight in the brain of the newborn rat. This level ramained constant during the first two weeks after birth then increased progressively to 40 pmol/g wet weight at 20 days, a value comparable to that found in adult animals. VIP was already able to stimulate brain membrane adenylate cyclase activity at birth. The stimulation with 10^?6 M VIP allowed a 2.5-fold increase in basal activity in membranes from 1 to 14-days-old pups as compared to a 1.7-fold stimulation in membranes from adult brain. The apparent activation constant for VIP adenylate cyclase stimulation was 4.10^?7 M at all ages. The efficiency of VIP activation amounted to as much as 70% of that of fluoride at birth and to 35% only of fluoride activation in brain membranes from adult rats.     

The mechanisms by which vasoactive intestinal peptide (VIP) and thyrotropin releasing hormone (TRH) stimulate prolactin release from pituitary cells

The effect of vasoactive intestinal peptide (VIP) on prolactin (PRL) secretion from pituitary cells is reviewed and compared to the effect of thyrotropin releasing hormone (TRH). These two peptides induced different secretion profiles from parafused lactotrophs in culture. TRH was found to increase PRL secretion within 4 s and induced a biphasic secretion pattern, while VIP induced a monophasic secretion pattern after a lag time of 45–60 s.The secretion profiles are compared to changes in adenylate cyclase activity, production of inositol polyphosphates, changes in intracellular calcium concentrations and changes in electrophysiological properties of the cell membrane.Abbreviations AC adenylate cyclase - DG diacyglycerol - GH growth hormone - GTP guanosine trisphosphate - G_i GTP binding proteins that mediate inhibition of adenylate cyclase and that are pertussis toxin sensitive - G_s GTP binding protein that mediates stimulation of adenylate cyclase - GH cells clonal rat pituitary tumor cells producing PRL and/or growth hormone - GH₃ GH₄C₁ and GH₄B6 subclones of GH cells - PKA protein kinase A - PKC protein kinase C - PLC phospholipase C - PRL prolactin - TPA 12-O-tetradecanoyl phorbol 13-acetate - TRH thyrotropin releasing hormone - VIP vasoactive intestinal peptide     

Vasoactive intestinal peptide as a bronchodilator in asthmatic subjects

Vasoactive intestinal peptide (V.I.P.) caused bronchodilatation in 7 asthmatic volunteers when given intravenously at the rate of 6 pmol kg-1 min-1 for 15 minutes during a double blind study. Mean baseline FEV1 was 2.8 (+/- 0.3 S.E.) which was 81% of predicted and increased by 0.21 (range 0.1-0.45) l after 15 minutes infusion (p greater than 0.02). Tachycardia and cutaneous flushing were also observed during the infusion. Subsequent induced bronchoconstriction with a predetermined dose of histamine was ameliorated at 180 seconds following challenge when compared with placebo. Mean fall in FEV1 0.26 compared with 0.741 when pre-infusion FEV1 was taken on baseline. Mean fall in FEV1 0.49 l compared with 0.75 l when the FEV1 immediately preceding challenge was used on baseline (p greater than 0.02). The demonstration that V.I.P. is a bronchodilator in asthmatics and ameliorates histamine induced bronchoconstriction has important implications for the pharmacology of asthma.     

A recombinant adenoviral vector encoding functional vasoactive intestinal peptide

Vasoactive intestinal peptide (VIP) is a small neuropeptide, which exerts pleiotropic functions. Based on its immunomodulatory, secretory, and possibly trophic effects, VIP is a valuable candidate molecule for the management of autoimmune disease. The purpose of this study was to develop a recombinant viral vector capable of directing the expression of functional VIP. The vector rAd5CMVhVIP was constructed and used to infect 293 cells. VIP expression was measured by an ELISA and function was evaluated by measurement of intracellular cAMP formation. rAd5CMVhVIP directed VIP expression and the transgenic VIP elicited a dose-dependent increase of intracellular cAMP, mediated through the VIP receptor VPAC(1). This is the first report showing the construction of a recombinant viral vector encoding biologically active VIP.     

Modification of HT 29 cell response to the vasoactive intestinal peptide (VIP) by membrane fluidization

We used liposomes made with phospholipids of fatty acid chain length ranging from C12:0 to C16:0 to modify the cAMP dependent protein kinase (PK) activity of HT 29 cells induced by VIP or forskolin. Both VIP and forskolin effects were inhibited in dilauroylphosphatidylcholine (DLPC) treated cells. PK activity was slightly lowered when cells were treated by dimyristoylphosphatidylcholine (DMPC) liposomes. However neither VIP nor forskolin-induced PK activities were affected with dipalmitoylphosphatidylcholine (DPPC) liposomes. Furthermore, the binding of [125I]VIP to DLPC treated cells was drastically lowered whereas no change was observed when cells were incubated with DMPC or DPPC liposomes. On the other hand, the interaction of HT 29 cells with DLPC vesicles provoked a decrease in membrane cholesterol content with subsequent increase in membrane fluidity. These findings provide evidence that, in HT 29 cells, the mechanisms of VIP-receptor interaction and of adenylate cyclase activation is lipid dependent and is regulated by membrane fluidity.     

Vasoactive intestinal peptide binding autoantibodies in autoimmune humans and mice

Autoantibodies capable of binding the immunoregulatory neuropeptide vasoactive intestinal peptide (VIP) were detected in the sera of a mouse strain prone to autoimmune disease due to the lpr mutation (MRL/lpr). The autoantibodies were not present in control wildtype MRL/lpr mice, but they were readily detected in humans without autoimmune disease. The binding was due to low affinity VIP recognition. Increased VIP binding activity was evident in patients with systemic lupus erythematosus but not systemic sclerosis, Sjögren’s syndrome (SS), rheumatoid arthritis or autoimmune thyroiditis. Recombinant VIP binding Fv clones (fragment variable; the variable domains of the light and heavy chains antibody subunits joined with a peptide linker) were isolated from a phage display library prepared from lupus patients. One Fv clone displaying VIP-selective binding and several clones displaying cross-reactivity with unrelated peptides were identified. Replacement mutations in the VIP-selective clone were preferentially localized in the regions known to make contacts with the antigen, i.e. the complementarity determining regions, suggesting that the selective binding activity is due to immunological maturation of the antibodies. Frequent occurrences of autoantibody responses to VIP indicate that immunological tolerance to this neuropeptide can be readily broken. The depletion of VIP by specific antibodies in autoimmune disease may interfere with VIP regulation of T cells and inflammatory cells and result in further amplification of autoreactive immunological responses.