UNIPROT:P01178 - FACTA Search

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Query: UNIPROT:P01178 (oxytocin)
15,767 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Ultrastructural studies of the supraoptic nucleus (SON) of the hypothalamus suggest that an active retraction and extension of astrocytic processes (structural plasticity) from between magnocellular neuroendocrine neurons plays a role in the release of oxytocin, vasopressin, or both peptides that accompanies parturition, lactation, and dehydration. In support of this, Salm et al. (1985) previously demonstrated a lactation-associated reduction in immunoreactive glial fibrillary acidic protein (GFAP), an astrocyte-specific cytoskeletal constituent. To determine if similar changes occur in response to dehydration, and if they are reversible, the present study examined GFAP-immunoreactivity (IR) in the SON under various hydration states. Rats were dehydrated for 7 days by substitution of drinking water with 2% saline (n = 3), or dehydrated for 7 days followed by 7 days of rehydration (n = 3). A control group (n = 3) with free access to tap water was used for comparisons. The optical density of GFAP-IR was obtained from the SON, globus pallidus, and lateral hypothalamic regions. The areas of the ventral glial limitans subjacent to the SON (SON-VGL) and of linearly equivalent segments of glial limitans more distant from the SON were also determined. Dehydration resulted in a significant reduction in GFAP-IR in the SON compared to control and rehydrated levels. We also found that the area of the SON-VGL was significantly larger than that of linearly equivalent segments of glial limitans elsewhere and that it was significantly reduced in dehydrated rats, returning to control levels with rehydration. GFAP-IR and glial limitans thickness in regions unrelated to body fluid homeostasis lateral to the SON, overlying to dorsal cortex, and subjacent to the optic chiasm were not significantly changed by hydration state. These results are similar to the changes of GFAP-IR reported for lactating rats and provide further evidence for a role of structural plasticity of astrocytes in events surrounding the selective functional activation of local neurons.
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PMID:Dehydration and rehydration selectively and reversibly alter glial fibrillary acidic protein immunoreactivity in the rat supraoptic nucleus and subjacent glial limitans. 948 12

Microtubule-associated protein-2 is the most abundant microtubule-associated protein in the brain and is responsible for morphogenesis and maintenance of the nervous system. In the present experiments, we have examined the localization of microtubule-associated protein-2 in the hypothalamo-neurohypophysial system of the rat using western blots and immunohistochemistry. Two monoclonal antibodies against microtubule-associated protein-2, antibody C and AP20, were used: antibody C recognizes both the high- and low-molecular-weight isoforms of microtubule-associated protein-2; antibody AP20 specifically detects high-molecular-weight microtubule-associated protein-2 only. Western blot analysis revealed expression of high-molecular-weight microtubule-associated protein-2 in the whole brain, hippocampus and whole hypothalamus. While the supraoptic nucleus expressed only high-molecular-weight microtubule-associated protein-2, the adult posterior pituitary predominantly expressed low-molecular-weight microtubule-associated protein-2, which was also seen in the embryonic whole brain. Light microscopic immunohistochemistry revealed that both antibody C and AP20 intensely stained dendrites of the dendritic and somatic zones in the supraoptic nucleus. Double labeling with antibodies against microtubule-associated protein-2 and oxytocin (or vasopressin) demonstrated that microtubule-associated protein-2 was localized in dendrites of magnocellular neurons in the supraoptic nucleus. In the posterior pituitary, however, antibody C stained fine processes and cell bodies of astrocytes, which were identified by an antibody against glial fibrillary acidic protein. Antibody AP20 also stained fine processes of some astrocytes in the posterior pituitary, but the intensity of immunoreactivity with antibody AP20 was weaker than that with antibody C. This result suggests that microtubule-associated protein-2 in astrocytes of the posterior pituitary is predominantly of the low-molecular-weight type. Moreover, western blots revealed low-molecular-weight microtubule-associated protein-2 of the posterior pituitary at a molecular weight slightly higher than embryonically expressed low-molecular-weight microtubule-associated protein-2, indicating that low-molecular-weight microtubule-associated protein-2 in the posterior pituitary is possibly the isoform microtubule-associated protein-2d. The present results demonstrate that astrocytes in the posterior pituitary of adult rats still retain the ability to express the immature variant of microtubule-associated protein-2, low-molecular-weight microtubule-associated protein-2, and its expression is probably linked to structural plasticity.
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PMID:Microtubule-associated protein-2 in the hypothalamo-neurohypophysial system: low-molecular-weight microtubule-associated protein-2 in pituitary astrocytes. 1033 37

A striking example of the capacity of adult astrocytes to undergo reversible morphological changes in response to stimuli which enhance neuronal activity is offered by astrocytes of the adult hypothalamo-neurohypophysial system (HNS). The HNS is composed of magnocellular neurons secreting the neurohormones oxytocin and vasopressin from axon terminals in the neurohypophysis. Upon activation of HNS secretion, glial coverage of oxytocin neurons significantly diminishes and their surfaces become extensively juxtaposed. These glial changes are invariably accompanied by structural synaptic remodelling resulting in increased numbers of GABAergic, glutamatergic, and noradrenergic afferents. In the neurohypophysis, they result in an enhanced neurohemal contact area. HNS glia in the adult continue to display "embryonic" features that may allow such activity-dependent structural plasticity. For example, supraoptic astrocytes display a radial glia-like morphology and continue to express vimentin, together with GFAP. All HNS astrocytes secrete extracellular matrix glycoproteins, like tenascin-C; they also express high levels of polysialylated NCAM or PSA-NCAM and the glycoprotein F3, molecules considered essential for neuronal-glial interactions in the developing and lesioned CNS. HNS expression of most of these proteins does not visibly vary under different conditions of neurohormone secretion. We consider them as permissive factors, therefore, allowing HNS cells to undergo remodeling whenever the proper stimuli intervene. In the hypothalamic nuclei, one such stimulus is oxytocin itself which, in synergy with steroids, can induce neuronal-glial remodelling; adrenaline does so in the neurohypophysis.
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PMID:Contribution of astrocytes to activity-dependent structural plasticity in the adult brain. 1063 28

Ultrastructural and immunohistochemical studies of the supraoptic nucleus (SON) have provided evidence that retraction and extension of astrocytic processes from between magnocellular neuroendocrine cells (MNCs) likely plays a role in the release of oxytocin, and/or vasopressin, that accompanies parturition, lactation and dehydration. The present study estimates the surface density (Sv) of glial fibrillary acidic protein (GFAP)-immunoreactivity, predominantly in astrocytic processes, in the SON of normally hydrated, dehydrated and rehydrated rats. The Sv of GFAP processes in dehydrated rats was significantly reduced compared with control levels. Rehydration returned Sv to control levels. The reversible reduction in Sv indicates that the previously observed reduction in optical density is due to a rearrangement of astrocyte processes in the SON which occurs at the same time as the selective functional activation of MNCs.
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PMID:The surface density of glial fibrillary acidic protein immunopositive astrocytic processes in the rat supraoptic nucleus is reversibly altered by dehydration and rehydration. 1064 97

Enzymatically dispersed cells, isolated from adult female rat neural lobes, were cultured for 7 days. Routine cultures showed pituicytes with compact, sometimes ovoid, cell bodies. The cytoplasmic processes of these cells exhibited several varicosities and made contact with neighboring cells forming networks. The cultured pituicytes were immunocytochemically characterized using antisera to glial fibrillary acidic protein and to S-100. Most pituicytes, when exposed during culture to oxytocin (OXY) and vasopressin (VP; 1 microM each), were devoid of their characteristic processes. Immunocytochemical staining for OXY or VP revealed that the pituicytes were capable of incorporating these hormones during culture. In cultures without added hormones, no significant staining reaction for OXY or VP could be detected. The lack of projections in pituicytes exposed to the hormones during culture is in agreement with the morphological changes observed by other authors in situ after acute hormone release. The uptake of OXY and VP may be indicative for a regulatory mechanism, by which the pituicytes control the amount of hormones present in the intercellular space.
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PMID:Hormone uptake and morphological changes in cultured pituicytes exposed to oxytocin and vasopressin. 1090 30

Previous studies suggest that activation of N-methyl-D-aspartate (NMDA) receptors facilitates phasic firing and spike clustering displayed by magnocellular neuroendocrine cells (MNCs) of the supraoptic (SON) and paraventricular nucleus of the hypothalamus (PVN). Osmotic stimulation produces similar activity patterns which, in turn, can lead to enhanced release of vasopressin and oxytocin from MNCs. Our laboratory has shown that dehydration regulates the expression of the NMDA receptor subunits, NR1 and NR2B, in the SON and PVN, suggesting their involvement in osmoregulation. In the present study, we examined the cellular localization of NR2B, one of the glutamate-binding subunits of the NMDA receptor, with an NR2B-specific antibody. Using double-label immunohistochemistry and three different detection methods with metallic, peroxidase, and fluorescence markers, it was found that both vasopressin and oxytocin-producing MNC populations synthesize NR2B. The incidence of NR2B colocalization with vasopressin-neurophysin in the SON and lateral magnocellular PVN (PVL) was 0.95 and 0.91, respectively. For oxytocin-neurophysin, the corresponding values were 0.97 and 0.95, respectively. Furthermore, the extent of colocalization in MNCs of the SON, PVL, retrochiasmatic SON, and accessory neurosecretory nuclei was similar. Astrocytes associated with the SON, and identified with antibodies targeting glial fibrillary acidic protein (GFAP) or vimentin, were not colabeled with NR2B. Our results demonstrate that NR2B protein is expressed by almost all MNCs and that it is equally prevalent in vasopressinergic and oxytocinergic populations of various magnocellular neuroendocrine nuclei supporting a role of NMDA receptors in MNC-mediated neurosecretory processes. Although NR2B may form part of functional NMDA receptors on MNCs, it is probably not present on astrocytes associated with nearby MNCs.
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PMID:Immunolabeling reveals cellular localization of the N-methyl-D-aspartate receptor subunit NR2B in neurosecretory cells but not astrocytes of the rat magnocellular nuclei. 1104 93

This study was aimed to examine the neuronal and glial response in the hypothalamus and neurohypophysis of rats with streptozotocin-induced diabetes. At various time intervals after induction of diabetes the neurons in the paraventricular- (PVN) and supraoptic- (SON) nucleus showed upregulated arginine vasopressin (AVP) and oxytocin (OXT) immunoexpression, being most pronounced at 2 weeks. Concomitant to this was the hypertrophy of PVN and SON neurons. NMDAR1, which was constitutively and moderately expressed in normal rats, was markedly augmented, being most intense at 4 months. This coincided with the expression of neuronal nitric oxide synthase (nNOS). Contrary to this, the expression of GluR2/3 was progressively downregulated, so that it was hardly detected at 4 months. Both astrocytes and microglia marked by anti-GFAP and OX-42, respectively, appeared activated. In pars nervosa, the projection target of the axon terminals of PVN and SON neurons, massive axons and terminals (Herring bodies) laden with neurosecretions were observed in diabetic rats. Colocalization study showed that the neurosecretions were internalized by activated pituicytes and microglia associated with the axons. The present results suggest that the neurosecretion of PVN and SON neurons is enhanced in diabetes. This is coupled by upregulation of NMDAR1 and nNOS but downregulation of GluR2/3. It is speculated that the glutamate receptors and NO are linked to overactivation of PVN and SON neurons leading ultimately to cell death of some of them. The pituicytes and microglia in pars nervosa would help to modulate the release of neurosecretion.
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PMID:Neuronal and glial response in the rat hypothalamus-neurohypophysis complex with streptozotocin-induced diabetes. 1175 99

The hypothalamo-neurohypophysial system, containing arginine vasopressin and oxytocin, is well known to show reversible morphological reorganization for both neurons and glial cells during chronic physiological stimulation. To determine the molecular background for these morphological changes, we investigated the expression of tubulin and microtubule-associated protein (MAP) 2d in the neurohypophysial astrocytes, pituicytes of adult rats by using reverse transcription-polymerase chain reaction, western blot, and immunohistochemistry. The mRNA of MAP2d was expressed at higher levels than that of MAP2c in the neurohypophysis, cerebral cortex, and cerebellum. In contrast, predominant expression of mRNA of MAP2c was detected in the olfactory bulb. Western blot analysis showed the presence of MAP2d in the neurohypophysis, however the amount was below the detection level in the cerebral cortex and cerebellum. A double labeling study using a confocal laser scanning microscope showed intense tubulin immunoreactivity in the glial fibrillary acidic protein (GFAP)-positive pituicytes of the intact neurohypophysis. Almost no tubulin immunoreactivity was observed in the astrocytes of the intact cerebral cortex, cerebellum, and supraoptic nucleus, in contrast to strong tubulin immunoreactivity in neuronal dendrites and somata. Interestingly, intense tubulin immunoreactivity was also observed in the GFAP-positive reactive astrocytes in the immediate vicinity of the artificial lesion of the cerebral cortex. Electron microscopic observation further demonstrated the presence of a lot of microtubules in the pituicytes of intact rats.The present results demonstrate that pituicytes in the adult rat neurohypophysis expresses high levels of tubulin and MAP2d compared with normal brain astrocytes, and suggest that the ability of astrocytic morphological alteration may be at least partly ascribed to this high expression of microtubule proteins.
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PMID:Expression of high levels of tubulin and microtubule-associated protein 2d in the neurohypophysial astrocytes of adult rat. 1195 19

Nitric oxide (NO) is known to regulate the release of arginine-vasopressin (AVP) and oxytocin (OT) by the paraventricular nucleus (PVN) and the supraoptic nucleus (SON). The aim of the current study was to identify in these nuclei the NO-producing neurons and the NO-receptive cells in mice. The determination of NO-synthesizing neurons was performed by double immunohistochemistry for the neuronal form of NO synthase (NOS), and AVP or OT. Besides, we visualized the NO-receptive cells by detecting cyclic GMP (cGMP), the major second messenger for NO, by immunohistochemistry on hypothalamus slices. Neuronal NOS was exclusively colocalized with OT in the PVN and the SON, suggesting that NO is mainly synthesized by oxytocinergic neurons in mice. By contrast, cGMP was not observed in magnocellular neurons, but in GABA-, tyrosine hydroxylase- and glutamate-positive fibers, as well as in GFAP-stained cells. The cGMP-immunostaining was abolished by incubating brain slices with a NOS inhibitor (L-NAME). Consequently, we provide the first evidence that NO could regulate the release of AVP and OT indirectly by modulating the activity of the main afferents to magnocellular neurons rather than by acting directly on magnocellular neurons. Moreover, both the NADPH-diaphorase activity and the mean intensity of cGMP-immunofluorescence were increased in monoamine oxidase A knock-out mice (Tg8) compared to control mice (C3H) in both nuclei. This suggests that monoamines could enhance the production of NO, contributing by this way to the fine regulation of AVP and OT release and synthesis.
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PMID:The effects of nitric oxide on magnocellular neurons could involve multiple indirect cyclic GMP-dependent pathways. 1258 Nov 64

Supraoptic nucleus (SON) neurons possess a prominent afterhyperpolarization (AHP) that contributes to spike patterning. This AHP is probably underlain by a small-conductance, CA2+-dependent, K+ type 3 (SK3) channel. To determine the distribution of SK3 channels within the SON, we used immunocytochemistry in rats and in transgenic mice with a regulatory cassette on the SK3 gene, allowing regulated expression with dietary doxycycline (DOX). In rats and wild-type mice, SK3 immunostaining revealed an intense lacy network surrounding SON neurons, with weak staining in neuronal somata and dendrites. In untreated, conditional SK3 knockout mice, SK3 was overexpressed, but the pericellular pattern in the SON was similar to that of rats. DOX-treated transgenic mice exhibited no SK3 staining in the SON. Double staining for oxytocin or vasopressin neurons revealed weak co-localization with SK3 but strong staining surrounding each neuron type. Electron microscopy showed that SK3-like immunoreactivity was intense between neuronal somata and dendrites, in apparent glial processes, but weak in neurons. This was confirmed by using confocal microscopy and double staining for glial fibrillary acidic protein (GFAP) and SK3: many GFAP-positive processes in the SON, and in the ventral dendritic/glial lamina, were shown to contain SK3-like immunoreactivity. These studies suggest a prominent role of SK3 channels in astrocytes. Given the marked plasticity in glial/neuronal relationships, as well as studies suggesting that astrocytes in the central nervous system can generate prominent CA2+ transients to various stimuli, a CA2+-dependent K+ channel may help SON astrocytes with K+ buffering whenever astrocyte intracellular CA2+ is increased.
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PMID:Immunocytochemical localization of small-conductance, calcium-dependent potassium channels in astrocytes of the rat supraoptic nucleus. 1613 41

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