Behavioural actions of neurohypophysial peptides

The neurohypophysial hormones vasopressin and oxytocin modulate memory processes. Vasopressin facilitates while oxytocin attenuates memory consolidation and retrieval. These influences are located in different regions of the molecules. Thus, the neurohypophysial hormones act as precursor molecules for neuropeptides involved in memory processes. The covalent ring structures of both vasopressin and oxytocin mainly affect consolidation, the linear parts, retrieval processes, while nearly the whole oxytocin or vasopressin molecule is needed for attenuation of consolidation and retrieval. Regional studies by microdissection techniques in combination with a sensitive radioenzymatic catecholalmine assay, indicate that vasopressin modulates memory processes by modulation of neurotransmission in distinct catecholamine systems. Recent experiments suggest that the influence of vasopressin on memory consolidation is mediated by the dorsal noradrenergic bundle via terminal regions of this bundle. Studies on the conversion of oxytocin in synaptosomal plasma membrane preparations of rat limbic brain suggest the possible generation of fragments with specific effects on memory processes. Regional differences in enzyme activity further substantiate the implication of oxytocin as a prohormone in this respect. Clinical studies support the evidence from laboratory findings that vasopressin is also involved in memory processes in man.     

THE DISTRIBUTION OF NEUROPHYSINS AND POSTERIOR PITUITARY HORMONES IN THE PORCINE NEUROHYPOPHYSEAL SYSTEM

Specific, homologous porcine neurophysin I and II radioimmunoassays were established together with specific oxytocin and vasopressin radioimmunoassays. The levels of each of these proteins and peptides were measured in acid extracts of individual paraventricular nuclei, supraoptic nuclei, neurohypophyseal stalks and posterior pituitary lobes of 12 pigs in order to quantitate the neurophysin-hormone relationships in the porcine neurohypophyseal system. Neurophysin III was found to be immunologically identical to neurophysin I. Neurophysin measurements by radioimmunoassay were quantitatively validated by scanning densitometry of polyacrylamide gels stained with 0.5% amido schwarz. In the hypothalamic nuclei vasopressin was in 3–4 M excess of oxytocin but in the neurohypophyseal stalk and posterior pituitary lobe the hormones were equimolar suggesting that the rate of formation of vasopressin differs from that of oxytocin. Neurophysin I immunoreactivity was present in a 3:1 molar ratio with neurophysin II throughout the porcine neurohypophyseal system. In posterior pituitary lobes total neurophysins were equimolar to total hormone concentrations. The specific activity (pmol/mg extracted protein) of oxytocin increased 1800 times, vasopressin 560 times and neurophysins about 360 times from the paraventricular nucleus to the posterior pituitary lobe. In the hypothalamic nuclei relationships between immunoreactive neurophysin I and vasopressin, and between neurophysin II and oxytocin were highly significant. In the posterior pituitary lobe each immunoreactive neurophysin level correlated with both hormone levels. Quantification of densitometric scans of stained polyacrylamide gels from neurophypophyseal extracts and immunoreactivity patterns of neurophysins in eluates of sliced, duplicate gels indicated that neurophysin III decreased distally within the neurohypophyseal tract while neurophysin I increased. The results demonstrated that vasopressin was associated with porcine neurophysin I. However, oxytocin may be associated with both immunoreactive neurophysin I and neurophysin II in the porcine neurohypophyseal system if a 1:1 molar ratio of neurophysin to hormone is to be maintained. Neurophysin III contributed to the stoichiometry of this relationship.     

Pharmacological characterization of two specific binding sites for neurohypophyseal hormones in hippocampal synaptic plasma membranes of the rat

Synaptic plasma membranes containing binding sites for tritiated oxytocin and arginine vasopressin were isolated from rat hippocampus. The binding parameters for oxytocin and vasopressin sites were determined and statistically analysed. The fitted curve for oxytocin binding was compatible with a model where the ligand interacts with two classes of receptors with different capacities and affinities. The sites with low binding capacity had an apparent dissociation constant at equilibrium of 1.8 nM and a maximal binding capacity of 17 fmol/mg protein. By contrast, the Scatchard plot failed to reveal a marked heterogeneity in the population of sites labelled with [3H]vasopressin with an affinity of 1.5 nM and a maximal binding capacity of 39 fmol/mg protein. The specificity of these binding sites, tested in competition experiments, revealed that these neurohypophyseal hormones labelled two distinct populations of sites. One population with a high affinity for vasopressin, oxytocin and vasotocin, the other population with a high affinity for vasopressin and vasotocin and a low affinity for oxytocin. Adenylate cyclase activity was not affected by arginine-vasopressin or oxytocin. These receptors are compared with previously characterized peripheral receptors.     

Synthesis and biological activities of oxytocin and lysine vasopressin analogs containing glutamic acid gamma-hydrazide in position 4

Solution methods, using N-hydroxysuccinimide esters, were used to synthesize [Glu(NHNH2)4] oxytocin and [Glu(NHNH2)4, Lys8] vasopressin. In these analogs of neurohypophyseal hormones, the side-chain carboxamide function of a glutamine residue is formally replaced by a hydrazide group at position 4. The hormone analogs were assayed for uterototonic activity, milk ejection activity, antidiuretic activity, and rat pressor activity. The specific biological activities of the oxytocin and vasopressin analogs were decreased compared to the respective parent hormones in all assay systems.     

Behavioral effects of intraventricularly administered vasopressin and vasopressin fragments

Vasopressin is involved in memory processes. A single subcutaneous injection of arginine-8-vasopressin (AVP) increases resistance to extinction of a pole jumping avoidance response. This effect can also be achieved after a single intraventricular administration of much lower amounts than after systemic injection. The covalent ring of AVP, pressinamide (PA), is also highly active following intraventricular administration while the C-terminal part prolyl-arginyl-glycinamide (PAG) is less active. These results indicate that the covalent ring of vasopressin contains the essential requirements for the behavioral effect of this neurohormone. A second activity site however may be present in the C-terminal portion of the molecule.     

Changes in pituitary oxytocin and vasopressin during the estrous cycle and after ovarian hormones: evidence for mediation by norepinephrine

Pituitary levels of oxytocin and vasopressin were maximal on the morning of proestrus, declined during estrus, and were lowest on metestrus in cycling female rats. Norepinephrine levels in the paraventricular nucleus were decreased on proestrus and estrus when compared with metestrus-diestrus. Norepinephrine did not vary in the supraoptic nucleus. Administration of estradiol benzoate to ovariectomized rats elevated oxytocin in the pituitary 54 hr later. This elevation was not affected by a subsequent injection of estrogen or progesterone. Estrogen priming did not affect vasopressin levels in the pituitary, but a second injection of estrogen or of progesterone 48 hr later increased vasopressin in the pituitary when measured 6 hr after the second injection. Vasopressin was decreased 30 hr after a second injection of estrogen. The ovarian hormone treatments that elevated pituitary vasopressin decreased steady state levels of norepinephrine in the paraventricular nucleus and reduced the depletion of norepinephrine after administration of the catecholamine synthesis inhibitor α-methyltyrosine, suggesting a decrease in turnover. Ovarian hormones did not affect norepinephrine in the supraoptic nucleus. The present results suggest a role for posterior pituitary hormones in reproductive processes and a role for noradrenergic mechanisms in the paraventricular nucleus in mediating the effects of ovarian steroids on pituitary vasopressin.     

Effect of ACTH and its fragment on brain catecholamines in intact and adrenalectomized rats.

Brain catecholamine metabolism was monitored by distribution of labelled noradrenaline (3H-NA) after intraventricular injection to intact and adrenalectomized rats. The adrenalectomy produced an increased disappearance rate of the labelled pool in the hypothalamus, hippocampus and neocortex. These changes could be prevented by hydrocortisone pretreatment. Painful stimuli resulted in an increased disappearance of the labelled pool in both intact and adrenalectomized rats. The implantation of hydrocortisone into the tuberoinfundibular region prevented the stress-induced changes of the catecholamine metabolism. Intraventricular administration of ACTH1-24 and ACTH4-10 produced a significant increase of the disappearance rate in different brain regions of adrenalectomized rats. The blocking of catecholamine synthesis by intraventricular injection of alpha-methyl-m-tyrosine resulted in a marked decrease of the labelled pool but did not prevent the ACTH-induced decrease of the tracer pool. On the other hand, the blocking of monoamine-oxydase activity by Pargyline led to a marked increase of the labelled pool but intraventricular administration of ACTH led to an increase of the disappearance rate. The mechanism of ACTH action on brain catecholamine metabolism is still obscure, however, an increased release of the NA to ACTH peptides is very likely in the light of the present observations.     

Partial purification and characterization of post-proline cleaving enzyme: enzymatic inactivation of neurohypophyseal hormones by kidney preparations of various species.

The inactivation of the neurohypophyseal hormones arginine vasopressin and oxytocin, both 14C-labelled in the C-terminal glycine residue, by enzymes present in kidney homogenates of various species has been investigated, and some of the enzymes responsible have been partially purified and characterized. The Leu-Gly peptide bond of oxytocin is generally most effectively cleaved by kidney homogenates, although with certain species enzymic activity hydrolyzing the Pro-Leu bond is significant. Degradation of arginine vasopressin is slower than oxytocin in all species studied, and appears to occur by a different overall mechanism since cleavage of the Pro-Arg bond is more significant than hydrolysis of the Arg-Gly bond. The enzyme releasing glycinamide from oxytocin and the "Post-Proline Cleaving Enzyme", which releases C-terminal dipeptide from oxytocin and arginine vasopressin, were partially purified from lamb kidney by ammonium sulfate fractionation and column chromatography. The two enzymes are shown to be separate entities with different pH profiles. The prolyl peptidase activity released the C-terminal dipeptides from oxytocin and arginine vasopressin at similar rates and was inhibited by p-chloromercuriphenylsulfonic acid, 1,10-phenanthroline, L-1-tosylamido-2-phenylethylchloromethyl ketone, Co2+, Ca2+, and Zn2+, but significantly enhanced by dithiothreitol. The prolyl peptidase preparation cleaves proline-containing peptide substrates at the Pro-X bond. The rate of cleavage is dependent on the nature of residue X and with the conditions used there is no cleavage when X equals Pro; however, cleavage occurs when X is a D isomer: [Mpr1, D-Arg8] vasopressin is inactivated at a rate similar to [Mpr1, Arg8]- and [Mpr1, Lys8] vasopressin, suggesting that the known prolonged biological action of [Mpr1, D-Arg8] vasopressin is not due to resistance to the prolyl peptidase. In all characteristics tested the lamb kidney prolyl peptidase was identical to the post-proline cleaving enzyme isolated earlier from human uterus. In vivo experiments in the cat suggested that both the glycinamide-releasing enzyme and post-proline cleaving enzyme are present and effective in inactivating neurohypophyseal hormones in the intact animal.     

Arginine8-vasopressin affects catecholamine metabolism in specific brain nuclei

Following the i.c.v. administration of arginine⁸-vasopressin (30 ng in 1 μl saline) to rats that had been injected i.p with α-MPT 30 min prior to the administration of the peptide catecholamine metabolism was altered in a restricted number of brain nuclei. Noradrenaline disappearance was accelerated as compared to saline treated controls in the dorsal septal nucleus, the anterior hypothalamic nucleus, the medial forebrain bundle, the parafascicular nucleus, the dorsal raphe nucleus, the locus coeruleus, the nucleus tractus solitarii and the Al-region. In the supraoptic nucleus and the nucleus ruber a decreased noradrenaline disappearnce was observed after the administration of the peptide. Dopamine disappearance was accelerated in the caudate nucleus, the median eminence, the dorsal raphe nucleus and the A8-region. These results support the view that vasopressin is participating in the regulation of a variety of physiological processes by modulating neurotransmission in specific brain nuclei.     

Simultaneous and independent release of vasopressin and oxytocin in the rat

The relative dependence or independence of the secretion of the neurohypophysial hormones, arginine vasopressin and oxytocin, was investigated using a wide variety of stimuli reported to cause the secretion of one or the other hormone. Differences in species, animal preparations, sampling techniques, assays, and other factors make comparison of many previous studies difficult. The aim of this study was to overcome these problems by using the same methodology, animal species, and assays to compare vasopressin and oxytocin release. To further strengthen the analysis, determinations of vasopressin and oxytocin were done in the same blood samples. The results demonstrated that during simultaneous release of both hormones, vasopressin is released in greater proportion following restraint stress, hemorrhage, isotonic hypovolemia, and nicotine, whereas oxytocin is released in greater proportion following endotoxin or hypertonic saline. Vasopressin was released without oxytocin following diethylstilbestrol. Oxytocin was released without concomitant vasopressin release following exercise, hypothermia, hyperthermia, labour, and lactation. Neither oxytocin nor vasopressin release was observed following thyroid-releasing hormone or insulin-induced hypoglycemia. These data illustrate the marked flexibility of the hypothalamo-neurohypophysial system that regulates secretion of vasopressin and oxytocin.     

Isolation and localization of neurophysin-like proteins in rat uterus

Neurophysins are part of the prohormones for vasopressin and oxytocin, and are localized with these hormones in the magnocellular cells of the neurohypophysis. New techniques have identified neurophysins in other areas within and outside the central nervous system, and we report here the isolation of neurophysins from the uterus of the rat. Using immunohistology the neurophysin immunoreactivity was localized to the epithelial lining cells of the uterus, and using radioimmunoassay was also present in uterine fluid suggesting secretion into the uterine cavity. The amount of uterine neurophysin increased in response to administered estrogen and was especially elevated in the pregnant uterus. The neurophysin-like material isolated from the uterus was similar to neurophysins from the neurohypophysis by radioimmunoassay, molecular sieve chromatography, isoelectric focusing and SDS gel electrophoresis. Both neurohypophyseal hormones, vasopressin and oxytocin, were also extracted from uterine endothelium and identified by radioimmunoassay and high pressure liquid chromatography.     

Effects of dopamine and dopamine-active compounds on oxytocin and vasopressin production in rat neurohypophyseal tissue cultures

The effects of dopamine (DA) or DA-active drugs on the synthesis of neurohypophyseal (NH) hormones were studied in 13-14 day cultures of isolated NH tissue from rats. The following DA-active compounds were used (10(-6) M in each medium): DA, apomorphine (APM), Pro-Lys-Gly (PLG), butaclamol (B), haloperidol (HP), chlorpromazine (CPZ) and sulpiride (SP). The oxytocin (OT) and vasopressin (VP) contents of the condensed media were determined by RIA after a 1 or 2 h incubation. Significantly increased contents of OT and VP were detected in the tissue culture media following DA, APM or PLG administration. This elevation of NH hormone production could be blocked by previous administration of B or the DA receptor antagonists HP, CPZ or SP. The application of B after DA agonists proved ineffective. The results indicate that NH hormone production can be directly influenced by the DA-ergic system. The DA-ergic control of NH hormone secretion in rats can occur independently of the hypothalamus, at the level of the posterior pituitary.     

Further studies on the effects of central administration of neuropeptide Y on neuroendocrine function in the male rat: relationship to hypothalamic catecholamines

Following intraventricular (i.v.t.) administration of increasing doses of neuropeptide Y (NPY; 7.5-750 pmol/rat) the catecholamine levels and turnover were quantitatively measured in discrete hypothalamic regions by means of histofluorometry. In the same rats the adenohypophyseal hormones as well as vasopressin, aldosterone (ALDO) and corticosterone (CORTICO) levels in serum were determined. Neuropeptide Y seems to induce a biphasic change in amine utilization in the tuberoinfundibular dopamine (DA) neurons and in the noradrenergic (NA) utilization in various hypothalamic areas. Thus, the lowest doses seem to inhibit the catecholamine utilization while higher doses seem to enhance it. NPY (250-750 pmol) reduced the serum levels of thyreotropine (TSH), prolactin (PRL) and growth hormone (GH) but increased CORTICO, adrenocorticotropin (ACTH) and ALDO serum levels. In conclusion, it is suggested that the NPY induced changes in DA utilization in the tuberoinfundibular DA neurons may contribute to the NPY induced changes in PRL and TSH secretion. The increases in paraventricular NA utilization may contribute to the increases in ACTH, ALDO and CORTICO secretion induced by NPY. These data give further support for NPY as an important neuroendocrine modulator.     

Electronic and vibrational optical activity of several peptides related to neurohypophyseal hormones: disulfide group conformation

Electronic and vibrational optical activity of the set of neurohypophyseal hormones and their analogs was investigated to clarify the S-S bond solution conformation. The selected compounds include oxytocin (I), lysine vasopressin (II), arginine vasopressin (III), and their analogs (IV-IX), differing widely in their pharmacological properties. We have extended the already known electronic circular dichroism data by new information provided by vibrational circular dichroism (VCD) and Raman optical activity (ROA). The use of VCD brought additional details on three-dimensional structure of the chain reversal in the ring moiety and on its left handedness. Furthermore, Raman scattering and ROA allowed us to deduce the sense of the disulfide bond torsion.     

Effect of neurohypophyseal peptides on the formation of a conditioned feeding reflex in the rat

The influence of intraperitoneal injection of vasopressin (LVP), oxytocin (OXY) and their fragments (DGAVP, PLG) on the acquisition and extinction of conditioned food reflex was studied in rats. It was found that vasopressin and its fragments had a more pronounced specific effect on the higher nervous activity of the animals. This effect consisted in impairment of the performance of the conditioned food reflex while oxytocin had a tendency to improve its performance. On the ground of the obtained data it is suggested that administration of vasopressin may facilitate the memory function only under specific environmental conditions.     

MSH/ACTH4-10: a tool to differentiate between the role of vasopressin in memory consolidation or retrieval processes

MSH/ACTH4-10 induces a dose dependent increase of latency scores during retention of a passive avoidance response, when injected SC prior to retention but not when administered immediately after the learning trial. Intracerebroventricular administration of anti-vasopressin serum immediately after the learning trial or 1 hr prior to retention induces marked deficits in passive avoidance behavior as indicated by low latencies during retention. SC injection of MSH/ACTH4-10 increased latency scores in animals which received anti-vasopressin serum prior to retention, but did not alter latencies in animals, which received anti-vasopressin serum after the learning trial. These results suggest that MSH/ACTH4-10 is involved in retrieval processes and is able to differentiate between the effects of vasopressin on memory consolidation and on retrieval.     

Galnon Facilitates Extinction of Morphine-Conditioned Place Preference but Also Potentiates the Consolidation Process

Learning and memory systems are intimately involved in drug addiction. Previous studies suggest that galanin, a neuropeptide that binds G-protein coupled receptors, plays essential roles in the encoding of memory. In the present study, we tested the function of galnon, a galanin receptor 1 and 2 agonist, in reward-associated memory, using conditioned place preference (CPP), a widely used paradigm in drug-associated memory. Either before or following CPP-inducing morphine administration, galnon was injected at four different time points to test the effects of galanin activation on different reward-associated memory processes: 15 min before CPP training (acquisition), immediately after CPP training (consolidation), 15 min before the post-conditioning test (retrieval), and multiple injection after post-tests (reconsolidation and extinction). Galnon enhanced consolidation and extinction processes of morphine-induced CPP memory, but the compound had no effect on acquisition, retrieval, or reconsolidation processes. Our findings demonstrate that a galanin receptor 1 and 2 agonist, galnon, may be used as a viable compound to treat drug addiction by facilitating memory extinction process.     

Molecular mechanisms of memory acquisition, consolidation and retrieval

Memory is often considered to be a process that has several stages, including acquisition, consolidation and retrieval. Memory can be modified further through reconsolidation and performance can change during extinction trials while the original memory remains intact. Recent studies of the molecular basis of these processes have found that many signaling molecules are involved in several stages of memory but, in some cases, molecular pathways may be selectively recruited only during certain stages of memory.     

Molecular modeling of the neurohypophyseal receptor/atosiban complexes

The neurohypophyseal nonapeptide hormone oxytocin (OT) is the strongest uterotonic substance known and is responsible for the initiation of labor. Conversely, oxytocin antagonists blocking uterine OT receptor can suppress uterus contraction. In this paper we describe a computer simulated docking pertinent to affinity of an oxytocin antagonist atosiban towards OT receptor, versus vasopressin V1a and V2 receptors.     

Imprinting with oxytocin and vasopressin in Chang liver cell cultures: hormonal overlap, binding and influence on cell division

In Chang liver cells the administration of oxytocin and vasopressin as well as the combined application of the two hormones will result in a positive binding imprinting for oxytocin and a negative binding imprinting for vasopressin. The hormones are able to increase the mitotic capacity of the liver cells even without previous imprinting, both in the case of treatment for 4 hours and for 24 hours; the change, however, is more marked in the case of treatment for 4 hours. Treatment for 24 hours results also in some functional imprinting.