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)

The neuropil located ventral to the SON was investigated by the use of immunoperoxidase staining for neurophysins, oxytocin and vasopressin, and electron microscopy. The study was performed in six groups of rats: 1) control; 2) infusion of isotonic saline into the CSF; 3) infusion of hypertonic saline into the CSF; 4) drinking hypertonic saline for 4 days; 5) same as group 4 but injection of colchicine into the CSF on second day of dehydration; 6) salt loading for 3 months. In the control rats the ventral neuropil contained a few immunoreactive processes, the general morphology of which was completely different from that of the neurosecretory axons emerging from the SON at its dorsal aspect. In rats of groups 3 to 6 the ventral processes (VP) became loaded with neurosecretory granules, whereas the perikarya and axons were depleted. Based on their general morphology and reactivity pattern it is suggested that the VP are dendrites. Most of these "dendrites" were embedded in a glial cushion formed by the processes of a particular type of marginal glia. Some of these "dendrites" enveloped an arteriole penetrating the optic tract. All VP were rich in synaptic contacts. The possibility that the VP of neurosecretory cells may be functionally related to the subarachnoid CSF and the arteriolar blood flow is discussed.
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PMID:Immunocytochemistry and ultrastructure of the neuropil located ventral to the rat supraoptic nucleus. 671 4

The structure of the hypothalamo-hypophysial neurosecretory system (HHNS) has been studied light optically in the Arvicola terrestris that possesses a specific reduction of the concentrating renal function. There are neurosecretory cells (NSC) with cytoplasmic vacuoles in the hypothalamic supraoptic (SON) and paraventricular (PVN) nuclei that secrete antidiuretic hormone. These cells are situated mainly in the caudal part of the nucleus and, evidently, perform an osmoreceptory function. For the hypothalamic nuclei studied, characteristic are single cells with polyploid nuclei, their appearance is supposed to be connected with a necessity to intensity the processes of the neurohormonal synthesis. In the NSC, PVN and partly in the SON axons, as well as in the hypothalamo-hypophysial tract fibers and their terminals there is, together with the granular neurosecrete, the one having the form of large homogeneous colloid drops, which are, appearantly, some quickly restorted neurohormonal reserve when certain unfavourable conditions appear. These morphological peculiarities of the HHNS appear to be certain signs of an adaptive mechanism of the osmoregulatory system are species-specific, since the ecological specialization of the animals studied is connected with hyperhydratation conditions.
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PMID:[Structural characteristics of the hypothalamo-hypophyseal neurosecretory system in the field mouse (Arvicola terrestris)]. 684 88

In adrenal insufficiency there is an increase in the content of vasopressin in the external zone of the median eminence as determined by immunohistology. We studied rats after bilateral adrenalectomy and obtained punched samples of the supraoptic, the paraventricular, and the suprachiasmatic nuclei, and from the median eminence and the posterior pituitary. Vasopressin, neurophysin and oxytocin were all decreased in content in the posterior pituitary but in the suprachiasmatic nucleus and in the median eminence there was a significant increase in the content of vasopressin. The increased levels of vasopressin in the median eminence are interpreted as representative of the content in axons and demonstrate a large increase of transport of vasopressin. In the SON and PVN there was no increase in the content of vasopressin during this state of augmented synthesis and transport, indicating that vasopressin moves rapidly from the site of synthesis into the transport system. The increased content of vasopressin in the suprachiasmatic nucleus shows that vasopressin at this level also varies with changes in adrenal function. Levels of oxytocin throughout the neurohypophysis did not change in parallel with vasopressin demonstrating relatively selective responses of the neurohypophyseal hormones.
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PMID:Quantitation of changes in the content of neurohypophyseal peptides in hypothalamic nuclei after adrenalectomy. 685 42

The [14C]2-deoxyglucose (2-DG) technique has been used in conjunction with quantitative autoradiography to determine the metabolic activity of the neurones of the hypothalamo-neurohypophysial system. Water deprivation (4 days) in Wistar rats led to a more than two-fold increase in the metabolic activity of the pars nervosa (PN), and a significant increase in the metabolic activity of paraventricular (PVN) but not supraoptic (SON) neurones. The PN in homozygous Brattleboro rats was significantly more active than that in hydrated Wistar and Piebald Virol Glaxo (PVG) rats; as in Wistar rats, activity of the PN and PVN was significantly increased by 12-15 h water deprivation. The administration of desamino-D-arginine vasopressin (dDAVP) to Brattleboro rats significantly reduced the activity of the PN to that seen in hydrated Wistar and PVG rats. This reduction in activity was accompanied by a significant reduction in plasma osmolality. These results show that (1) in contrast to studies in which the osmotic stimulus was a salt load, water deprivation leads to a significant increase in 2-DG uptake by the perikarya as well as the terminals of neurohypophysial neurones; (2) increased activity of the neurohypophysial neurones occurs even when there is a genetic deficiency of vasopressin and the activity can be increased further by an osmotic stimulus, and (3) the activity of the neurohypophysial neurones can be significantly reduced by the administration of dDAVP.
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PMID:Water deprivation results in increased 2-deoxyglucose uptake by paraventricular neurones as well as pars nervosa in Wistar and Brattleboro rats. 688 8

The comparative morphology of catecholamine (CA) varicosities and neurophysin (NP)-containing perikarya of the supraoptic (SON) and paraventricular nuclei (PVN) was examined. The major CA innervation to the SON and PVN did not coexist with the major distribution of magnocellular perikarya, but was located peripheral to the nuclei. A dense distribution of CA varicosities was found ventral to the neurosecretory perikarya of the SON and overlapped numerous immunoreactive oxytocin- and vasopressin-containing neuritic profiles. Examination of Golgi-stained sections revealed that dendrites from SON perikarya projected to the CA zone and were likely candidates for the processes identified immunocytochemically. In addition, a heterogenous distribution of axosomatic contacts was found within the SON which suggested a preferential innervation of VP-containing neurons. The densest concentration of CA varicosities in the PVN occurred in the periventricular region adjacent to the third ventricle and in the contiguous parvocellular portion of the PVN. These CA varicosities overlapped scattered oxytocinerigic perikarya in both areas. In addition the ventromedial as well as the dorsolateral subnuclei of the PVN were contacted by CA varicosities; this heterogeneous distribution suggests that the each subnucleus of the PVN with its individual hypothalamic, neurohypophyseal, brainstem, or cortical projections may possibly receive a catecholaminergic innervation by a select group of CA cells or nuclear groups from the brain stem.
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PMID:Simultaneous monoamine histofluorescence and neuropeptide immunocytochemistry: II. Correlative distribution of catecholamine varicosities and magnocellular neurosecretory neurons in the rat supraoptic and paraventricular nuclei. 700 Aug 61

A cell-by-cell analysis of the magnocellular elements in hypothalami of fifty Long-Evans (normal) and Brattleboro (diabetes insipidus) rats was done using the unlabeled antibody enzyme technique (PAP) with primary antisera directed against oxytocin (OXY), vasopressin (ADH), and the neurophysins. The magnocellular neurons of the hypothalamus were found in the supraoptic (SON), paraventricular (PVN), and anterior commissural (ACN) nuclei, a number of accessory nuclei, and as individual cells in the anterior hypothalamic area. SON was divided by the optic tract into the principal part and retrochiasmatic SON. In retrochiasmatic SON a majority of the cells contained vasopressin. Within the principal part of SON oxytocin-producing cells tended to be found rostrally and dorsally, while the vasopressin cells were more common caudally and ventrally. PVN was divided into three subnuclei, the medial, lateral, and posterior subnuclei, on the basis of cellular morphology and peptide content. The magnocellular cells of the medial and lateral PVN were closely packed together and nearly round, while those of posterior PVN were more separated and fusiform in shape with their long axis running in a medio-lateral direction. Medial PVN consisted primarily of oxytocin-producing cells, while lateral PVN was formed by a core of vasopressin-producing cells with a rim of oxytocin cells. Posterior PVN contained largely oxytocin-producing cells. Both ADH and OXY cells were found in the accessory nuclei. In the Long-Evans rat the SON had, on the average, 1443 OXY and 3236 ADH cells; the PVN had 1174 OXY and 976 ADH cells; and the accessory magnocellular groups in the hypothalamus (including the ACN) had 1286 OXY and 552 ADH cells. The Brattleboro strain animal had similar numbers of cells in these nuclei. (The cells which contain ADH in normal animals were identified in the Brattleboro rat as large, neurophysin-negative cells.) Thus, a large fraction of the magnocellular oxytocin- and vasopressin-producing cells in the rat were located outside of the PVN and SON. One accessory cell group in particular, ACN, had 616 OXY cells, or about 50% as many as PVN. In each nucleus the sum of the numbers of OXY and ADH cells was approximately the number of neurophysin cells.
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PMID:Immunohistochemical analysis of magnocellular elements in rat hypothalamus: distribution and numbers of cells containing neurophysin, oxytocin, and vasopressin. 701 60

Magnocellular hypothalamic neurons of the paraventricular (PVN) and supraoptic (SON) nuclei have been shown to contain a wide variety of messenger molecules in addition to vasopressin and oxytocin, including the nitric oxide (NO)-synthesizing enzyme (NOS). In this paper we have investigated the effects of salt loading on the expression of NOS by means of immunohistochemistry and in-situ hybridization. The results show an increase in the number of NOS-immunoreactive (IR) neurons both in the PVN and the SON after 5 and 14 days of salt loading. Several of these neurons were double labelled with vasopressin antiserum. In situ hybridization showed a marked increase in the number of neurons expressing NOS mRNA and a stronger signal in individual neurons. The present results suggest a role for NO in the magnocellular hypothalamic system after salt loading.
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PMID:Nitric oxide synthase increases in hypothalamic magnocellular neurons after salt loading in the rat. An immunohistochemical and in situ hybridization study. 751 26

In order to check the existence of direct or indirect connections between the hypothalamic supraoptic (SON) and paraventricular (PVN) nuclei, four retrograde traces were iontophoretically injected into these nuclei. The small injection sites were restricted to parts of the SON and PVN, enabling the identification of afferent neurons localized in their immediate vicinity. The tracer injections into any of these hypothalamic nuclei resulted in conspicuous labeling of cells gathered dorsally to the optic chiasma and the optic tract. This neuronal population was tentatively called dorsochiasmatic area. Double retrograde tracers injections into the ipsilateral SON and PVN gave evidence for some neurons containing both tracers in this dorsochiasmatic area. Otherwise, labeled parvocellular neurons were occasionally found in one PVN, after injecting retrograde tracer into either the ipsilateral SON or the contralateral PVN. As few connections exist between the four magnocellular nuclei, the dorsochiasmatic area connected with both the ipsilateral SON and PVN could play an important role in regulating the oxytocin and/or vasopressin systems.
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PMID:Evidence for connections between a discrete hypothalamic dorsochiasmatic area and the supraoptic and paraventricular nuclei. 751 64

Central to this investigation are several basic hypotheses that are designed to test the role of nitric oxide (NO) in the complex process of central regeneration and plasticity in a well established model system of the mammalian brain. We have employed histochemical techniques at the light and ultrastructural level coupled with correlative scanning electron microscopy, immunoelectron microscopy, and in situ hybridization in order to determine the functional significance of the increased expression of nitric oxide synthase (NOS) in neurons of the supraoptic (SON) and paraventricular (PVN) nuclei which accompanies regeneration of their axotomized neurites following hypophysectomy. The aim of this investigation was to determine the potential role and temporal up-regulation of NOS in this basic regenerative process and to establish the ultrastructural and neuroanatomical correlates during critical periods of regeneration and regrowth of SON and PVN axons following hypophysectomy in the endocrine hypothalamus of the rat. Our data support the hypothesis that NO may serve as a second messenger molecule that may act in some fashion to govern not only the process of central regeneration and regrowth of magnocellular (SON/PVN) axons into the median eminence, neural stem, and neural lobe (the neurohypophyseal system) but may also influence the regeneration of neurites into new neuroanatomical domains such as the adjacent lumen of the third cerebral ventricle. We have demonstrated a distinct temporal relationship between injury (axotomy) of SON/PVN axons and the establishment of new neurovascular zones following hypophysectomy with the up-regulation of NOS. This up-regulation appears to correlate well with successful regeneration in the mammalian neurohypophyseal system. We have also successfully inhibited axonal regeneration with the use of nitroarginine, a competitive antagonist of NO. NOS up-regulation attendant to regeneration of SON and PVN axons may have inestimable clinical implications, particularly with respect to closed head injury and cerebral contusion that involves the mechanical shearing of the infundibular stalk. In addition, this investigation has reaffirmed that large numbers of bona fide neurons migrate and emerge upon the floor of the adjacent third cerebral ventricle shortly following hypophysectomy (within 2 weeks). The origin and mechanisms of neuronal migration and plasticity following hypophysectomy are the subject of interpretation and discussion in this investigation.
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PMID:Neural regeneration and neuronal migration following injury. I. The endocrine hypothalamus and neurohypophyseal system. 753 19

The uptake, turnover, distribution, toxicity and behavioral effects of antisense vasopressin oligonucleotides were investigated to define how these compounds interact with neural tissue to inhibit translation of a target mRNA. Both phosphorothioate modified and unmodified oligonucleotides are rapidly taken up by mammalian neural tissue. Turnover of the unmodified oligonucleotide was found to be fast (t1/2 < 1 h) relative to the phosphorothioate modified oligonucleotide (t1/2 = 12 h). The phosphorothioate vasopressin antisense oligonucleotide suppressed vasopressin synthesis in vivo at concentrations below the toxic threshold of approximately 5 microM. Intracranial injections of phosphorothioate antisense oligonucleotide into the region of the SON in vivo, resulted in a small decrease in vasopressin mRNA and a compensatory drinking response within the first 24 h, consistent with a deficit in vasopressin translation with kinetics similar to those observed in vitro. Water intake returned to normal by the second day indicating relatively rapid clearance of the oligonucleotide and minimal side effects. Although the mechanisms of accumulation and details of the molecular interactions are still unknown, our observation of preferential uptake and/or retention of oligonucleotide within a subset of neurons in vitro suggests some process of selective targeting. Thus, low concentrations of oligonucleotides targeted to the untranslated 5' end of vasopressin mRNA can be effective for the acute and reversible control of vasopressin synthesis in mammalian CNS with relatively rapid onset of behavioral effects and minimal side effects.
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PMID:Antisense vasopressin oligonucleotides: uptake, turnover, distribution, toxicity and behavioral effects. 755 Feb 89


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