Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P01185 (vasopressin)
 23,126 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Oxytocin (OXT), a neurohypophyseal hormone, has a wide range of behavioral effects outside its classic peripheral endocrine functions. OXT involvement in adaptive central nervous system processes has been demonstrated as an inhibitory, amnestic action on learning and memory in different paradigms. Because adaptation and learning are likely to be involved in the neural events leading to drug tolerance and dependence, the question logically arose whether OXT is able to influence the development of tolerance of and dependence on abused drugs. In this review, we summarize our results on the effects of OXT on opiate (including morphine, heroin, and the endogenous opiates beta-endorphin and enkephalin) tolerance and dependence, heroin self-administration, psychostimulant-induced behavioral changes, and behavioral tolerance and sensitization. The sites and mechanisms of action and the possible physiological role of OXT are also discussed. In the first part of this review the effects of exogenously administered OXT on both the acute and chronic behavioral effects of opiates and psychostimulants have been summarized. OXT inhibited the development of tolerance to morphine, heroin, beta-endorphin, and enkephalin, OXT also inhibited the development of cross-tolerance between the predominantly mu-agonist heroin and the predominantly delta-agonist enkephalin in mice. Naloxone-precipitated morphine withdrawal syndrome was also attenuated by OXT. Heroin self-administration was decreased by OXT administration in heroin-tolerant rats. OXT inhibited cocaine-induced exploratory activity, locomotor hyperactivity, and stereotyped behavior in rats and in mice. Behavioral tolerance to cocaine was also attenuated by OXT. On the contrary, OXT stimulated the development of behavioral sensitization to cocaine. OXT did not alter the stereotyped behavior induced by amphetamine. In the second series of experiments, the sites of action of OXT on drug-related behavior were investigated. Intracerebro-ventricular (ICV) and intracerebral (IC) administration of an OXT-receptor antagonist inhibited the effects of peripherally administered OXT on morphine tolerance, heroin self-administration, and cocaine-induced sniffing behavior. This suggests the central, intracerebral location of OXT target sites. Local IC microinjection of OXT in physiological doses into the posterior olfactory nucleus, tuberculum olfactorium, nucleus accumbens, central amygdaloid nucleus, and the hippocampus inhibited the development of tolerance to and dependence on morphine as well as cocaine-induced sniffing behavior and tolerance to cocaine. The physiological role of endogenous OXT in acute morphine tolerance has also been demonstrated, since OXT antiserum (ICV) and OXT-receptor antagonist (injected into the basal forebrain structures) potentiated the development of morphine tolerance. Finally, we investigated the possible mechanisms of action of OXT on drug related behavior. Both morphine tolerance and dependence, and cocaine administration, increased dopamine utilization in the mesencephalon and in the nucleus accumbens, respectively. OXT treatment decreased the alpha-methylparatyrosine-induced dopamine utilization in the mesencephalon and in the nucleus accumbens-septal complex. Chronic OXT treatment decreased the number of apparent binding sites of dopamine in the basal forebrain area. It also inhibited a cocaine-induced increase in dopamine utilization in the nucleus accumbens, but not in the striatum. In light of this information, it appears that OXT inhibits the development of opiate tolerance, dependence, and self-administration as well as the acute behavioral actions of and chronic tolerance to cocaine. This suggests the possible role of this neuropeptide in the regulation of drug abuse. Therefore, OXT may act as a neuromodulator on dopaminergic neurotransmission in limbic-basal forebrain structures to regulate adaptive CNS processes leading to drug addiction.
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PMID:Role of oxytocin in the neuroadaptation to drugs of abuse. 921 Feb 15

Unlike the peripheral nervous system (PNS), the mammalian central nervous system (CNS) clearly lacks the robust regenerative characteristics and capacity of the former. Despite this fact, two unique regions of the adult mammalian CNS possess such regenerative potential and are capable of active regeneration following injury or structural compromise. These unique areas are the olfactory system and the neurohypophyseal system of the endocrine hypothalamus. Furthermore, it has been clearly demonstrated that primordial neuroblasts regarded as stem cells emerge from the subependymal parenchyma of the walls and floor of the third cerebral ventricle, migrate to the ventricular surface and undergo compensatory synaptogenesis within one week following hypophysectomy. In situ hybridization studies have unequivocally demonstrated that the up-regulation of nitric oxide synthase (NOS) is essential for neural (axonal) regeneration and neuronal (stem cell) migration to occur. Moreover, neuronal migration is reliably inhibited following the administration of the NO antagonist, nitroarginine. The current investigation serves to confirm a remarkable degree of plasticity and regeneration in the adult mammalian neurohypophyseal system coupled with the emergence of primordial neuroblasts that undergo apparent differentiation, migration and compensatory synaptogenesis in response to the up-regulation of NO that occurs following the trauma of hypophysectomy. Evidence from the current investigation appears to confirm that specialized glia of the neurohypophyseal system, the so-called pituicyte, proliferate following hypophysectomy and may serve as a growth matrix or structural template that may target and direct regenerating Supraoptic (SON) and Paraventricular (PVN) axons toward endothelial primordia in the regenerating neural stem and lobe.
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PMID:Post-traumatic regeneration, neurogenesis and neuronal migration in the adult mammalian brain. 933 74

In a minority of patients with malignant tumors, signs and symptoms develop that cannot be explained on the basis of the mass effect produced by the primary tumor or its metastases, or production of a hormone normally associated with the tissue type that has given rise to the malignant tumor; these peculiar symptom complexes are known as paraneoplastic syndromes, and may be divided into endocrinologic, dermatologic, hematologic, neurologic, and osteoarticular manifestations. In the head and neck region in particular, the syndrome of inappropriate antidiuretic hormone production (SIADH, or Schwartz-Bartter syndrome) is a well-recognized form of paraneoplastic syndrome that may accompany head and neck malignancies. Most of such tumors are squamous carcinomas, with lesser numbers of olfactory neuroblastomas, small cell neuroendocrine carcinomas, adenoid cystic carcinomas, and undifferentiated carcinomas; sarcoma was reported in only a single instance. The lesions associated with the development of SIADH have most often been located in the oral cavity, and less often in the larynx, nasopharynx, hypopharynx, nasal cavity, maxillary sinus, parapharyngeal space, salivary glands, and oropharynx. Key features of SIADH include serum hypo-osmolality; an unexpectedly high urinary specific gravity; an absence of edema or dehydration; normal adrenal, thyroid, and renal function; hyponatremia; and an elevation of plasma vasopressin.
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PMID:Syndrome of inappropriate antidiuretic hormone secretion associated with head neck cancers: review of the literature. 934 88

Electrical recordings from vasopressin-containing cells in the medial amygdala were obtained. Electrical stimulation of one major afferent structure, the accessory olfactory bulb, invariably elicited single unit discharge in the peptidergic cells and set up a field potential indicating widespread excitation in the structure. Pheromonal stimuli, normally borne into the brain by the accessory olfactory bulb, were ineffective in activating the medial amygdala. These results in combination with preexisting research suggest that the accessory olfactory bulb is an important influence, but not the only influence, on the activity of the peptidergic cells.
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PMID:Orthodromic activation of peptidergic cells in the medial amygdala. 939 58

To investigate the involvement of oxytocin in their short-term lasting olfactory memory performance, adult female Wistar rats (n = 12) were tested for their juvenile discrimination abilities. As measured by their exploratory behavior towards juveniles, the adult rats were able to discriminate between a previously exposed juvenile and a novel one as long as the interval between the two exposures was less than 180 min. This ability was maintained across all days of the estrous cycle and was unaffected by intracerebroventricular administration of synthetic oxytocin (1 ng/5 microl Ringer's solution) or Ringer's solution immediately after the first exposure. However, treatment with the oxytocin receptor antagonist des-Gly-NH2 d(CH2)5[Tyr(Me)2Thr4]OVT interfered with the ability to establish this kind of olfactory memory although the vasopressin V1 receptor antagonist d(CH2)5Tyr(Me)AVP (100 ng/5 microl each) via the same route did not. This suggests that within a narrow range of concentrations endogenous oxytocin, but not vasopressin, is critically involved in short-term olfactory memory for juvenile conspecifics in female rats. These data are discussed in the light of sexual dimorphic brain development.
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PMID:Endogenous oxytocin is involved in short-term olfactory memory in female rats. 952 Feb 16

The comparative distributions of the vasopressin V1b receptor (V1bR) and the oxytocin receptor (OTR) messenger RNAs (mRNAs) are described in male rat brain using in situ hybridization histochemistry. V1bR transcripts were present in forebrain and hypothalamus and were less abundant in mid- and hindbrain regions, similar to the gradient observed with OTR transcripts. Microscopic analyses indicated that V1bR expressing cells typically demonstrated the morphology of neurons and confirmed V1bR gene expression in regions including the olfactory bulb, supraoptic, suprachiasmatic, and dorsomedial hypothalamic nuclei, piriform and entorhinal cortices, hippocampus, substantia nigra, and dorsal motor nucleus of the vagus. Most regions that expressed V1bR mRNA also expressed OTR mRNA, although OTR gene expression was much more extensive than that of the V1bR. V1bR and OTR mRNA distributions were distinct from each other and from that of the V1a receptor mRNA in brain. A few brain regions express only V1bR transcripts such as the dorsomedial hypothalamic nucleus and the external plexiform layer of the olfactory bulb. Other brain regions, such as the fields of Ammon's horn, the suprachiasmatic nucleus, the substantia nigra pars compacta, and the piriform cortex express mRNAs that encode all three receptor subtypes (V1a, V1b, and OTR), whereas brain areas including the red nucleus and supraoptic nucleus express V1bR and OTR transcripts only. These data suggest functional specialization of the V1b, OTR and V1a receptors in brain.
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PMID:Comparative distribution of vasopressin V1b and oxytocin receptor messenger ribonucleic acids in brain. 983 41

Magnocellular neuroendocrine cells of the hypothalamic paraventricular and supraoptic nuclei are responsible for most of the vasopressin and oxytocin in the peripheral blood as well as for central release of these peptides in selected brain areas. As the principal component of the hypothalamo-neurohypophysial system, these neurons have been a subject of continual study for half a century. The wealth of solid information from decades of in vivo studies has provided a firm basis for in vitro, brain slice and explant investigations of neural mechanisms involved in the control and regulation of vasopressin and oxytocin neurons. In vitro methods have revealed the presence and permitted the study of monosynaptic projections to supraoptic neurons from the olfactory bulbs, the tuberomammillary nuclei of the posterior hypothalamus and from the organum vasculosum of the lamina terminalis. Such methods have also facilitated the elucidation of the various ionic currents controlling neurosecretory cell activity as well as the roles of calcium binding proteins and release of calcium from internal stores. This review summarizes recent advances in our understanding of the afferent inputs that impinge upon these two cell types, and the cellular and molecular mechanisms intrinsic to these neurons that determine their activity patterns and, in part, their responses to incoming stimuli.
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PMID:Neurophysiology of magnocellular neuroendocrine cells: recent advances. 1007 82

Rodents exposed for a short amount of time to conspecific juveniles spend less time investigating familiar than unfamiliar juveniles. This is based on the formation of an olfactory image of juveniles, which involves an androgen-dependent vasopressinergic pathway in males, as demonstrated by the ability of the vasopressin receptor antagonist dPTyr(Me)VP to block social recognition in intact male but not in female and castrated rats and mice. The involvement of sexually dimorphic vasopressinergic neurons appears to be dependent on the processing of social olfactory cues by the vomeronasal organ since removal of this organ in male rats mimics the effects of castration. These findings are discussed in relation to the role of vasopressin in learning and memory.
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PMID:Vasopressin, gonadal steroids and social recognition. 1007 3

An encounter between rats results in bouts of social investigation consisting mainly of sniffing, nosing, following and grooming. The assessment of social recognition is based on the tendency of rodents to investigate unfamiliar conspecifics more intensely, than familiar ones. In the laboratory an immature conspecific is normally used as the social stimulus because the use of juveniles eliminates possible sexual and/or aggressive behaviors of the rat whose memory is assessed. When a juvenile is presented for the first time, it is intensely investigated. A second presentation shortly after the first one elicits less attention. This is not due to satiation or fatigue, since the presentation of a novel juvenile triggers the full sequence of investigation. Social recognition is defined as a specific decrease in social investigation during the second encounter of the same individual. This form of memory is short lasting (< 40 min) and based on the olfactory characteristics of the stimulus animal. Social memory is prolonged by repeated exposure to the stimulus juvenile rat and is impaired by retroactively interfering stimuli. It can be facilitated by vasopressin and derivatives as well as by several other memory facilitating compounds, and, depending on the dose, attenuated or facilitated by oxytocin and derivatives. Ethologically oriented memory tests, that are based on olfactory characteristics of the information to-be-remembered, have an advantage over 'classical' ones: they estimate behavioral patterns which are important to an animal and not only to the investigator. Social memory paradigms can reveal information about memory processes in animals that is relevant for memory deficits in humans.
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PMID:Neurohypophyseal peptides and social recognition in rats. 1007 4

Removal of the olfactory bulbs results in numerous physiological and behavioral changes in rats. The most frequent and characteristic change is an abnormally high level of corticosterone in the blood, possibly due to changes in the activity of the hypothalamic neurons which synthesize corticotrophin-releasing hormone (CRH). Some of these neurons also synthesize vasopressin (AVP). They are located in the parvocellular part of the paraventricular nucleus of the hypothalamus, which projects into the external layer of the median eminence. We investigated whether there was such a change in activity by studying the synthesis and storage activity of CRH neurons in bulbectomized rats. CRH and AVP axon terminals in frozen sections of the external layer of the median eminence were labeled by immunofluorescence techniques and the degree of labeling was analyzed semi quantitatively. There was no difference in the area or intensity of CRH-labeling in control and bulbectomized rats. However, a significantly larger area was stained for AVP in the bulbectomized than in control rats. We also used in situ hybridization, with single- and double-labeling, to study the effects of bulbectomy on expression of the genes encoding CRH and AVP. No significant difference was found in the levels of mRNA for CRH and the number of CRH+/AVP+ cell bodies was similar in the parvocellular part of the paraventricular nucleus in bulbectomized and normal rats. Our results suggest that the hypothalamo-pituitary-adrenal (HPA) axis changes observed after olfactory bulbectomy may be due to plastic changes in hypothalamic CRH neurons, resulting in greater storage of increased AVP in CRH neurosecretory nerve terminals in the external layer of the median eminence.
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PMID:Olfactory bulbectomy increases vasopressin, but not corticotropin-releasing hormone, content in the external layer of the median eminence of male rats. 1020 38


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