Porcine Vasoactive Intestinal Peptide Research Articles

Sensitivity of Orexin-A Binding to Phospholipase C Inhibitors, Neuropeptide Y, and Secretin

The binding of [125I] orexin-A (Ox-A) to particulates from Chinese hamster ovary (CHO) cells expressing the cloned orexin-A receptor, or from rat forebrain areas, was sensitive to blockers of phosphatidylinositol-specific phospholipase C (PtdIns-PLC) U-73122 and ET-18-OCH3, little affected by phospholipase A2 inhibitor quinacrine, and not sensitive to D609, a xanthate inhibitor of phosphatidylcholine-selective PLC. Interaction of the receptor with a PtdIns-PLC was further indicated by a large sensitivity of the binding to Ca2+. Up to 50% of the binding was sensitive to the G-protein nucleotide site agonist GTP-γ-S. Ligand attachment to the orexin-A receptor thus depends on an association with both PtdIns-PLC and G-protein α-subunits. In all paradigms examined, the binding of [125I]orexin-A was competed by human/rat neuropeptide Y (hNPY) and porcine secretin with a potency similar to orexin-A (IC50 range 30–100 nM). The rank order of potency for NPY-related peptides was hNPY > porcine peptide YY (pPYY) > (Leu31, Pro34) human PYY > human PYY(3-36) > hNPY free acid > human pancreatic polypeptide. Among secretin-related peptides, the rank order of potency was porcine secretin ≥ orexin-A > human pituitary adenylate cyclase-activating peptide > orexin-B > porcine vasoactive intestinal peptide. Among opioid peptides, rat β-endorphin and camel δ-endorphin were much less active than NPY and secretin, and two enkephalins were inactive at 1 μM. In view of high abundance of NPY in forebrain, the above cross-reactivity could indicate a significant contribution of NPY to signaling via orexin-A receptors.

Effect of Growth Hormone Releasing Hormone (ghrh) and Vasoactive Intestinal Peptide (VIP) on in vitro bovine oocyte maturation

The aim of this study was to investigate the effects of growth hormone releasing hormone (GHRH) and the structural-related peptide vasoactive intestinal peptide (VIP) on nuclear maturation, cortical granule distribution and cumulus expansion of bovine oocytes. Bovine cumulus oocyte complexes (COCs) were cultured in M199 without FCS and gonadotropins and in the presence of either 100 ng/mL bovine GHRH or 100 ng/mL porcine VIP. The COCs were incubated at 39 °C in a humidified atmosphere with 5% CO 2 in air, and the nuclear stage was assessed after 16 or 24 h of incubation using DAPI staining. Cortical granule distribution was assessed after 24 h of incubation using FITC-PNA staining. To assess the effects of GHRH and VIP on cumulus expansion, COCs were incubated for 24 h under the conditions described above. In addition, 0.05 IU/mL recombinant human FSH was added to GHRH and VIP groups. Cultures without GHRH/VIP/FSH or with only FSH served as negative and positive controls, respectively. At 16 h neither GHRH (42.9%) nor VIP (38.5%) influenced the percentage of MII stage oocytes compared with their respective controls (44.2 and 40.8%). At 24 h there also was no difference in the percentage of MII oocytes between GHRH (77.0%), VIP (75.3%) and their respective controls (76.0 and 72%). There was no significant cumulus expansion in the GHRH or VIP group, while FSH induced significant cumulus expansion compared with the control groups, which were not inhibited by GHRH or VIP. Distribution of cortical granules was negatively affected by GHRH and VIP. The percentage of oocytes showing more or less evenly dispersed cortical granules in the cortical cytoplasm aligning the oolemma (Type 3) was lower in the GHRH (2.7%) and VIP (7.8%) groups than in the control group (15.9%). In conclusion, GHRH and VIP have no effect on nuclear maturation or cumulus expansion of bovine COCs but retard cytoplasmic maturation, as reflected by delayed cortical granule migration

Distribution of vasoactive intestinal peptide-like immunoreactivity in the brain and pituitary of the frog ( Rana esculenta) during development

The localization of vasoactive intestinal peptide (VIP)-like immunoreactive (ir) elements was investigated in the brain of the anuran amphibian, Rana esculenta, during development. Using an antiserum raised against the porcine VIP, ir cell bodies and fibers were observed in the forebrain of tadpoles a few days after hatching. During early premetamorphosis, ir perikarya were distributed in the ventral infundibular nucleus of the hypothalamus and in the posterocentral nucleus of the thalamus. Labeled fibers were detected in the olfactory bulbs and in the hypothalamus. In these larvae, furthermore, several VIP-ir cells were found in the pars distalis of the pituitary and there were ir fibers in the pars nervosa. In tadpoles at stages VIII–IX, a new group of VIP-labeled neurons was observed in the dorsal part of the infundibular nucleus. In other brain regions, the distribution of the immunoreactivity was similar to that described in the earliest stages, i.e., IV–VII. During mid-premetamorphosis, stages X–XII of development, an additional set of ir perikarya appeared in the ventrolateral area of the thalamus. During late premetamorphosis, stages XIII–XVIII, the organization of VIP-like immunoreactivity was more complex and its distribution more widespread. Two new groups of ir cell bodies appeared, one in the preoptic nucleus and another in the anteroventral area of the thalamus, and for the first time, VIP immunoreactivity was observed in the median eminence. This distribution pattern persisted through to the prometamorphic, four-limb stage. Strikingly, no VIP-ir elements were observed anywhere in the mid- and hindbrain. The present results indicate that a VIP-like ir peptide may be involved in the processing of olfactory information or may act as a neurohormone, hypophysiotropic factor, and neuromodulator in the brain of R. esculenta during development.

Different effects of cGMP and cAMP in the intestine of the European eel, Anguilla anguilla.

The regulation of salt absorption in the sea water eel intestine was studied by evaluating the effects of theophylline, 8 Br cyclic adenosine monophosphate, 8 Br cyclic guanosine monophosphate, atriopeptin III, porcine vasoactive intestinal peptide and prostaglandin E1 on the short-circuit current, the transepithelial voltage difference and conductance and on the dilution potentials. It was shown that theophylline increased the transepithelial conductance and reduced the magnitude of the dilution potentials, indicating that the drug increases the anion conductance of the tight junctions. In addition its inhibitory effect on short-circuit current and transepithelial voltage difference suggests that theophylline also affects the transcellular transport mechanisms. It was shown that 8 Br cyclic guanosine monophosphate and 8 Br cyclic adenosine monophosphate affect transcellular mechanisms underlying C1- transport since both compounds reduced short-circuit current and transepithelial voltage difference; however, cyclic adenosine monophosphate is less effective since unlike cyclic guanosine monophosphate, even at maximal concentration, it was not able to completely abolish transepithelial voltage difference and short-circuit current. The effects of cyclic guanosine monophosphate and cyclic adenosine monophosphate were not additive even if cyclic guanosine monophosphate may produce further inhibition of ion transport in 8 Br cyclic adenosine monophosphate-treated tissues. In addition, cyclic guanosine monophosphate but not cyclic adenosine monophosphate reduced the magnitude of the dilution potentials, suggesting that cyclic guanosine monophosphate acts also on the paracellular pathway. Rat atriopeptin III, a peptide known to increase cyclic guanosine monophosphate cellular levels, behaved like 8 Br cyclic guanosine monophosphate since it lowered the dilution potentials and reduced short-circuit current and transepithelial voltage difference to near zero values, suggesting that the hormone modulates both paracellular and transcellular transport mechanisms, probably acting on the Na-K-2Cl cotransport. Agents acting via cyclic adenosine monophosphate, like porcine Basoactive intenstinal peptide and prostaglandin, behaved like 8 Br cyclic adenosine monophosphate. They were less effective in inhibiting ion transport and did not interfere with the paracellular pathway.

A Preliminary Investigation of the Effects of Vasoactive Intestinal Peptide on Secretion from the Lingual Salt Glands ofCrocodylus porosus

Vasoactive intestinal peptide (VIP)-like immunoreactivity was demonstrated in the lingual salt glands of the estuarine crocodile,Crocodylus porosus.Varicose fibers showing VIP-like immunoreactivity ramified the salt glands, forming a dense network around the basal region of the exocrine cells. Secretions from the lingual salt glands were monitored in hatchlingC. porosus.Spontaneous secretory activity was variable, ranging from 0.3 to 5.3 μmol Na 100 g−0.7bm hr−1(bm, body mass). Administration of a 100-μl bolus of 0.9% NaCl, via a cannulated femoral vein, did not affect the spontaneous secretory rate. However, injection of 100 pmol porcine VIP resulted in a massive increase in secretory activity, reaching a maximum of 58.2 μmol of Na 100 g−0.7bm hr−1. The presence of VIP-like immunoreactivity and the positive secretory effect of administered VIP indicate a potential action of VIP on salt gland activity.

The effect of vasoactive intestinal peptide on development of form deprivation myopia in the chick: a pharmacological and immunocytochemical study

The role of vasoactive intestinal peptide (VIP) in the development of form deprivation myopia (FDM) was examined. Daily intravitreal injection of porcine VIP reduced, but did not eliminate FDM at a maximal daily dose of 1 x 10(-5) mol/injection. A VIP analogue reported to be relatively hydrolysis-resistant in vivo, had no effect on development of FDM at any dose tested. Two VIP antagonists completely abolished FDM. The one reported to be selective for central nervous system VIP receptors was 100 times more potent than one reported to be selective for peripheral nervous system receptors (ED50 = 2 x 10(-10) and 2 x 10(-8) mol/injection respectively). By immunofluorescence using antiserum to porcine VIP, VIP-like immunoreactivity was localized to a subset of amacrine cells (AC) and in three parallel layers in the inner plexiform layer (IPL) (10%, 40% and 70% of IPL thickness from the AC layer). Immunoreactive nerve fibres were also seen in the choroid, the ciliary body and the iris. These results suggest that VIP may play a role in both normal development of the refractive properties of the eye, and in the development of FDM.

Role of vasoactive intestinal peptide in the control of prolactin-induced turkey incubation behavior. I. Acute infusion of vasoactive intestinal peptide.

Vasoactive intestinal peptide (VIP) stimulates prolactin (PRL) secretion. Ovine PRL induces incubation behavior in avian species. This study was designed to determine whether VIP can elevate plasma PRL for up to 3 h. Saline or porcine VIP (pVIP; 30, 60, or 150 ng/min) was infused into the median eminence of laying turkeys for 1 h. The 60- and 150-ng doses of pVIP increased plasma PRL (p < 0.01), whereas the 30-ng dose was insignificant. Pituitary PRL content decreased in pVIP-treated turkeys. Two-hour infusion of 60 or 150 ng chicken VIP (cVIP)/min produced similar elevations of plasma PRL (p < 0.001), which declined within 80 min. Both treatments induced insignificant increases in pituitary PRL mRNA. Saline or cVIP (30, 60, or 60 [pulsed] ng/min) was infused into the median eminence for 3 h. Sixty ng cVIP/min induced the largest PRL release (p < 0.05). The pulsatile and low-cVIP treatments resulted in release of a significant amount of PRL in comparison to the saline treatment (p < 0.01). All cVIP treatments resulted in decreased pituitary PRL content (p < 0.05). The 60-ng dose increased PRL mRNA (p < 0.1). This study shows that 60 ng VIP/min causes the maximum PRL release in laying turkeys. However, pituitary PRL content is depleted and PRL synthesis cannot maintain PRL secretion at high levels.

Role of vasoactive intestinal peptide in the control of prolactin-induced turkey incubation behavior. II. Chronic infusion of vasoactive intestinal peptide.

Hyperprolactinemia is associated with incubation behavior in avian species. Increased nesting activity is a major indication of incubation behavior. Vasoactive intestinal peptide (VIP) stimulates prolactin (PRL) secretion from the anterior pituitary. The goal of this study was to induce incubation behavior by stimulating PRL through chronically infusing VIP into the third ventricle of turkey brains. In experiment 1, porcine VIP (pVIP) was infused into the median eminence at a rate of 60 ng/min for 7 days by means of osmotic pumps implanted s.c.. Plasma PRL increased significantly in the pVIP-treated turkeys (p < 0.001). Although egg laying was not affected by the pVIP infusion, the mean oviduct weight decreased (p < 0.057). In experiment 2, saline or pVIP (30 or 60 ng/min) was infused into the third ventricle of laying turkeys for 12 days. Both pVIP treatments increased plasma PRL for 9 days (p < 0.05). The 30-ng pVIP/min infusion decreased nesting activity, plasma LH, ovary and oviduct weight, hypothalamic GnRH I, and anterior pituitary VIP receptors (p < 0.1). However, ovine PRL infusion (20.8 ng/min) into the same turkey flock increased nesting activity (p < 0.01). In conclusion, pVIP does not induce incubation behavior in laying turkeys.

Localization, characterization and activity of pituitary adenylate cyclase-activating polypeptide in the frog adrenal gland.

Pituitary adenylate cyclase-activating polypeptide (PACAP) has recently been isolated from the frog brain and the sequence of the peptide appears to be strikingly similar to that of mammalian PACAP. In the present study, we have investigated the localization of PACAP in the frog interrenal (adrenal) gland by immunocytochemistry using antisera directed against PACAP 38 or PACAP 27. Two types of PACAP-immunoreactive fibres were observed: thick varicose fibres coursing between adrenal cells and thin processes located in the walls of blood vessels irrigating the gland. Bilateral transection of the splanchnic nerves did not affect the intensity and distribution of PACAP immunoreactivity. The mean +/- S.E.M. concentration of PACAP, measured by radioimmunoassay in crude adrenal extracts, was 0.65 +/- 0.16 nmol/g wet tissue. Two molecular forms of PACAP in the adrenal gland were characterized by reversed phase high-performance liquid chromatography combined with radioimmunoassay quantification. The elution profiles revealed the existence of two peaks exhibiting the same retention times as synthetic frog PACAP 38 (fPACAP 38) and PACAP 27, the predominant form being PACAP 38. The possible involvement of PACAP in the regulation of adrenal steroidogenesis was investigated in vitro using a perifusion system for frog adrenal slices. Graded doses of fPACAP 38 (0.1-10 mumol/l) increased the secretion of both corticosterone and aldosterone in a dose-dependent manner. Administration of repeated pulses of fPACAP 38 (1 mumol/l), at 120-min intervals, led to a reproducible stimulation of corticosteroid secretion without any tachyphylaxis. Prolonged infusion (2 h) of the peptide induced a rapid increase in corticosterone and aldosterone output, followed by a gradual decline in the secretion rate, suggesting the occurrence of a desensitization phenomenon. Synthetic porcine vasoactive intestinal peptide, which is structurally related to PACAP, was about ten times less potent than fPACAP 38 in stimulating steroidogenesis while the [Des-His1]-fPACAP 38 analogue was 100 times less effective. These results demonstrate that a peptide closely related to fPACAP 38 is present in fibres innervating the frog adrenal gland and could participate in the regulation of corticosteroid secretion, particularly during neurogenic stress.

Characterization of Vasoactive Intestinal Peptide Pituitary Membrane Receptors in Turkey Hens during Different Stages of Reproduction1

Vasoactive intestinal peptide (VIP) is a prolactin-releasing factor in turkey hens. Membranes from anterior pituitaries of turkey hens were used to characterize VIP receptors. Using HPLC-purified monoiodinated VIP, we found specific VIP receptors in the anterior pituitary glands. Binding was saturable and was time- and temperature-dependent. Scatchard analysis of competitive binding studies indicated two binding sites, a high-affinity binding site (Kd1) of 6.6 +/- 1.8 pM and maximum binding (Bmax1) of 1.52 +/- 0.2 pM, and a low-affinity binding site (Kd2) of 542 +/- 200 pM and Bmax2 of 15.8 +/- 8.0 pM. Binding of VIp to pituitary membranes was specific, as compared to other peptides of the glucagon family. The rank order of potency of the peptides tested was chicken VIP > porcine VIP > peptide histidine isoleucine > secretin > glucagon > growth hormone-releasing factor. Two binding sites were found in all the examined reproductive stages. The lowest binding site levels were found in nonphotostimulated and photorefractory birds, followed by photostimulated birds and layers; highest levels were found in incubating birds. Nest deprivation significantly reduced Bmax1 levels without changing hypothalamic VIP content. These results suggest the involvement of the anterior pituitary VIP receptors in the regulation of prolactin secretion from the pituitary gland.

C-type natriuretic peptide receptors and signaling in rectal gland of Squalus acanthias.

Recent evidence suggests that the newly described natriuretic peptide, C-type natriuretic peptide (CNP), may be the circulating form of natriuretic peptide in the shark. In the shark CNP has a major site of action in the rectal gland, which augments chloride secretion in response to stimulation by volume loading or CNP infusion. We therefore examined the shark rectal gland for natriuretic peptide receptors and determined the presence of guanylate cyclase-linked receptors and non-guanylate cyclase-linked receptors for CNP in this tissue. CNP binds with uniform high affinity (dissociation constant of 78 +/- 11 pM) to receptors of high density (receptor density of 61 +/- 0.7 fmol/mg protein) in plasma membranes prepared from the rectal gland. By use of rat atrial natriuretic peptide (rANP) as a competing ligand, two classes of receptors become apparent in this population, both of which have similar affinity for CNP, but different affinities for rANP. The low-molecular-weight natriuretic peptide receptor-specific peptide, des-[Gln116,Ser117,Gly118, Leu119,Gly120]rANP-(102-121), binds to 50% of the receptors in the rectal gland, but fails to bind to the remaining 50% even at micromolar concentrations. Porcine brain natriuretic peptide (pBNP) binds with uniformly diminished affinity to all receptors, whereas the unrelated peptide, porcine vasoactive intestinal peptide, does not bind these receptors. The importance of the integrity of the ring structure of CNP is underlined by the significant loss of affinity when the peptide ring is opened.(ABSTRACT TRUNCATED AT 250 WORDS)

Influence of VIP on the number of enterochromaffin and mucosal mast cells in the colon of the rat

The possibility that VIP (Vasoactive intestinal peptide) could influence the enterochromaffin (EC) cell secretion of serotonin (5HT) and the action of VIP on the mast cell population of lamina propria were investigated in Wistar rat colon infused with a short chain fatty acid solution (sodium acetate), during a 1 h period. Under the action of an intravenous injection of synthetic porcine VIP, 14 μg/kg/h), the number of EC cells diminshed significantly in the cecum and left colon, when compared to non-injected animals, both infused with a sodium acetate solution. At the same time, the number of mucosal mast cells in the crypts and lamina propria decreased significantly in the cecum. The postulate we put forward is that these VIP-induced changes are exerted through the stimulation of 5HT released from EC cells not only under normal physiological conditions but probably also under pathological conditions.

Chemical characterization of vasoactive intestinal polypeptide-like immunoreactivity in ovine hypothalamus and intestine

Two forms of pituitary adenylate cyclase activating polypeptides with 38 (PACAP38) and 27 residues (PACAP27) respectively were recently isolated from ovine hypothalamic tissues. The N-terminal 28 amino acids sequence of PACAP was found to have 68% homology with porcine vasoactive intestinal peptide (VIP). In order to determine whether the primary structure of VIP of ovine hypothalamus is identical with porcine VIP or similar to PACAP, VIP immunoreactivity as determined by radioimmunoassay for porcine VIP was isolated in a pure form from ovine hypothalamic extracts. VIP was also isolated from ovine intestine. Amino acid analysis as well as amino acid sequence analysis showed that ovine hypothalamic and intestinal VIP were identical to porcine VIP, but different from PACAP.

Vasoactive intestinal peptide binding sites and fibers in the brain of the pigeon Columba livia: An autoradiographic and immunohistochemical study

The distribution of vasoactive intestinal peptide (VIP) binding sites in the pigeon brain was examined by in vitro autoradiography on slide-mounted sections. A fully characterized monoiodinated form of VIP, which maintains the biological activity of the native peptide, was used throughout this study. The highest densities of binding sites were observed in the hyperstriatum dorsale, archistriatum, auditory field L of neostriatum, area corticoidea dorsolateralis and temporo-parieto-occipitalis, area parahippocampalis, tectum opticum, nucleus dorsomedialis anterior thalami, and in the periventricular area of the hypothalamus. Lower densities of specific binding occurred in the neostriatum, hyperstriatum ventrale and nucleus septi lateralis, dorsolateral area of the thalamus, and lateral and posteromedial hypothalamus. Very low to background levels of VIP binding were detected in the ectostriatum, paleostriatum primitivum, paleostriatum augmentatum, lobus parolfactorius, nucleus accumbens, most of the brainstem, and the cerebellum. The distribution of VIP-containing fibers and terminals was examined by indirect immunofluorescence using a polyclonal antibody against porcine VIP. Fibers and terminals were observed in the area corticoidea dorsolateralis, area parahippocampalis, hippocampus, hyperstriatum accessorium, hyperstriatum dorsale, archistriatum, tuberculum olfactorium, nuclei dorsolateralis and dorsomedialis of the thalamus, and throughout the hypothalamus and the median eminence. Long projecting fibers were visualized in the tractus septohippocampalis. In the brainstem VIP immunoreactive fibers and terminals were observed mainly in the substantia grisea centralis, fasciculus longitudinalis medialis, lemniscus lateralis, and in the area surrounding the nuclei of the 7th, 9th, and 10th cranial nerves. The correlation between the distribution of VIP binding sites and immunoreactive fibers and terminals was assessed in a restricted number of regions. A qualitatively good matching was found in the area corticoidea dorsolateralis, hyperstriatum dorsale, hyperstriatum accessorium, nucleus septi lateralis, nuclei dorsomedialis and dorsolateralis thalami, and in some hypothalamic areas. A striking mismatch occurred in the hyperstriatum ventrale, neostriatum, tectum opticum (high to moderate density of binding sites but only few immunoreactive profiles), and in the tuberculum olfactorium, median eminence, and spinal cord (lower density of binding sites but abundant immunoreactive profiles). The paleostriatum, lobus parolfactorius, and ectostriatum were virtually devoid of both binding sites and immunoreactive profiles. The results are discussed in relation to the known actions of VIP in the rodent and avian brain and are compared with previous observations on the distribution of VIP binding sites in the central nervous system of other vertebrates.

Vasoactive intestinal peptide is a hypothalamic prolactin-releasing neuropeptide in the turkey ( Meleagris gallopavo)

The hypothesis that vasoactive intestinal peptide (VIP) functions as a hypothalmic prolactin (PRL)-releasing peptide in the turkey was tested by determining the effects of hypothalamic VIP immunoneutralization and pituitary VIP receptor blockade on hypothalamic extract (HE)-induced PRL secretion from dispersed anterior pituitaries. Incubation of cells with porcine VIP (pVIP; 0.5 or 10 n M) significantly stimulated PRL secretion. This effect was inhibited in a dose-related manner by 1-hr preincubation of pVIP with a VIP antisera ( A S ; 1:500–1:50,000). Likewise, HE (0.3 equivalent)-stimulated PRL secretion was inhibited by preincubation with VIP A S ( P < 0.0001). A 96–98% reduction in PRL secretion was obtained from cells cultured with HE, that was previously incubated with 1 500 dilution of antiserum. Pretreatment of pituitary cells for 15 min with [4Cl- d-Phe 6,Leu 17] VIP, a VIP receptor antagonist (10 −5 M), significantly depressed the PRL response to 0.5 n M VIP (9.9 ± 0.5 μg/500,000 cells vs 4.9 ± 0.1 μg/500,000 cells; 22.4 ± 0.9 μg/500,000 cells vs 14.7 ± 0.4 μg/500,000 cells) or 0.3 eq HE (8.8 ± 0.6 μg/500,000 cells vs 5.2 ± 0.2 μg/500,000 cells; 15.3 ± 0.3 μg/500,000 cells vs 8.2 ± 0.2 μg/500,000 cells). These results suggest that hypothalamic stimulation of PRL secretion appears to be mediated by receptors specific for VIP and that VIP is an endogenous hypothalamic PRL-releasing peptide in the turkey.

An Inhibitory Influence of Porcine Vasoactive Intestinal Peptide upon Mouse Oocyte Meiosis in Culture

The germinal vesicle (GV) of follicle-enclosed oocytes in mice remains arrested at the dictyate state of meiosis. Upon releasing the oocytes from the follicles, the meiotic process resumes, leading to dissolution of the GV, suggesting that factors in the follicular constituents sustain the meiotic arrest of oocytes. Vasoactive intestinal peptide (VIP) was demonstrated in the ovary and found to have a wide range of biological effects. In this study, the possibility of VIP to be a factor which induces meiosis-arrest of oocytes was evaluated. Porcine VIP inhibited resumption of meiosis of cumulus-enclosed mouse oocytes in vitro. Germinal vesicle breakdown (GVBD) was prevented in more than 50% of the oocytes treated by VIP at a concentration of 30 microM. The inhibiting effect of VIP was dose-dependent and reversible. Spontaneous resumption of meiosis of isolated oocytes in vitro was reported to be inhibited by dibutyryl cAMP (dbcAMP) added to the medium, indicating that meiotic arrest can be sustained by maintaining intra-oocyte cAMP above a critical level. It was further reported that follicular fluid contains substances that maintain meiotic arrest in association with exogenous dbcAMP. In the present study, the blocking activity of dbcAMP for the spontaneous resumption of meiosis was not potentiated by the addition of VIP in the medium. The present results suggest that VIP may play a role in the regulation of resumption of oocyte meiosis, and that VIP is not a substance which maintains meiotic arrest in association with cAMP.

The isolation and chemical characterization of a novel vasoactive intestinal peptide-related peptide from a teleost fish, the cod, Gadus morhua

An octacosapeptide that shows sequence homology to porcine vasoactive intestinal peptide (VIP) has been isolated from a teleost fish, the cod, Gadus morhua. The full primary sequence is His-Ser-Asp-Ala-Val-Phe-Thr-Asp-As–Tyr-Ser-Arg-Phe-Arg-Lys-Gl–Met-Ala-Ala-Lys-Tyr-Leu-As–Ser-Val-Leu-Ala. This peptide contains four, or five substitutions, compared with dogfish and porcine VIP, respectively. The residues in positions 13, 26 and 28 are different in all three species. These substitutions seem to have little effect on bioactivity, since cod VIP was virtually equipotent with porcine VIP in stimulating amylase release from guinea-pig pancreatic acini. During the isolation procedure an N-terminally modified form of VIP (Des-His, or 2–28 cod VIP) was also isolated. The available data suggest the sequence of VIP is well conserved in vertebrates which is consistent with an important biological role.

Analogues of vasoactive intestinal peptide (VIP) contract the guinea-pig uterine artery but do not antagonize VIP-induced relaxations

Guinea-pig vasoactive intestinal peptide (gpVIP-(1-28)) in the concentration range 3 × 10 −9−3 × 10 −7 mol. 1 −1 relaxed precontracted segments of the guinea-pig uterine artery. Porcine VIP-(10–28) (pVIP-(10–28)), [4-Cl-D-Phe 6, Leu 17]VIP, or [N-Ac-Tyr 1, D-Phe 2]GRF-(1–29)-NH 2 did not antagonize VIP-induced relaxations of the artery, but high concentrations of the two VIP analogues produced large, transient contractions of the artery. In some preparations 10 −5 mol · 1 −1 gpVIP-(1–28) also caused transient arterial contractions. These data indicate the presence of two distinct receptors for VIP on the guinea-pig uterine artery, mediating opposite effects on vascular tone.

The effect of vasoactive intestinal peptide, secretin, and glucagon on human duodenal bicarbonate secretion.

Duodenal luminal acidification increases duodenal mucosal bicarbonate production and also releases both secretin and vasoactive intestinal peptide (VIP). The effect of these two structurally similar peptides on human duodenal bicarbonate production has not been examined in humans. Our purpose was therefore to assess the effect of VIP and secretin and also glucagon, a homologous hormone, on human duodenal bicarbonate secretion. A 4-cm portion of either proximal or distal duodenum was isolated and perfused with iso-osmolar NaCl. Pure porcine VIP (200 and 400 pmol/kg-h intravenously) significantly increased proximal duodenal bicarbonate secretion. Although secretin (0.01 to 0.18 CU/kg-h intravenously) markedly increased pancreatic bicarbonate secretion, it failed to alter duodenal mucosal bicarbonate output in either the proximal or the distal duodenum. Glucagon (1 to 8 micrograms/kg-h intravenously) did not affect proximal duodenal mucosal bicarbonate output. It is concluded that VIP, but neither secretin nor glucagon, significantly stimulates human duodenal mucosal bicarbonate secretion.

Stimulation of prolactin release in turkeys by vasoactive intestinal peptide.

Vasoactive intestinal peptide (VIP) is a potent releasor of prolactin in birds. The main purpose of this study was to identify its site of action. Synthetic porcine VIP administered intraatrially to freely moving ovariectomized (OVX) turkeys induced an elevation of circulating PRL within 15 min in a dose-related manner. Removal of hypothalamic control of PRL release by surgical disconnection of the neurohemal regions of the median eminence did not significantly diminish the PRL response to VIP. Intraatrial injection of eledoisin or bradykinin into OVX hens did not influence PRL secretion, indicating that the PRL releasing activity of VIP is probably not attributable to its vasodilatory action. These results support the possibility that VIP is an authentic prolactin releasing factor (PRF) in birds.