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Query: UNIPROT:P01178 (
oxytocin
)
15,767
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
1.
Oxytocin
was pressure injected through a glass micropipette into a supraoptic (
SON
) or paraventricular nucleus (PVN) while recording the electrical activities of
oxytocin
cells in a contralateral nucleus, to see whether
oxytocin
acts locally in the magnocellular nuclei to control their bursting activity and whether the
oxytocin
cells of the four magnocellular nuclei were functionally interconnected during suckling. To test the rapidity of these relations, similar intranuclear injections were realized with acetylcholine, known to rapidly increase the background activity of
oxytocin
cells. The effects of intranuclear injections of
oxytocin
and acetylcholine were tested before and after interhemisphere sections of various dimensions. 2. Injecting
oxytocin
(1 ng in 100 nl) into a magnocellular nucleus (5 times into the PVN and 15 times into the
SON
) facilitated the occurrence and increased the amplitude of bursts of the
oxytocin
cells in both the contralateral PVN and
SON
. This facilitatory effect was similar to that induced by intraventricular injection of the same dose of
oxytocin
, though slightly delayed and lower. 3. Injecting acetylcholine (0.6 microgram in 100 nl) into the
SON
(7 times) induced a rapid and sustained increase in the background activity of
oxytocin
cells in both the contralateral PVN (2 times) and
SON
(5 times) within the same delay (less than 15 s). This excitatory effect was similar to that induced by an intraventricular injection of 5 micrograms acetylcholine. The effects on bursting activity were not considered in this study. 4. Neither the injections of
oxytocin
or acetylcholine outside but near the magnocellular nuclei (200-500 microns), nor the intranuclear injection of 100-200 nl of cerebrospinal fluid-like medium, modified the background activity, the frequency and amplitude of bursts of the
oxytocin
cells in the nucleus contralateral to the injection site. 5. After interhemisphere sections most
oxytocin
cells were silent, bursts occurred in an erratic manner, and their amplitude was attenuated and irregular (more than the 20% variation normally recorded in non-operated rats). Moreover, the amplitudes of successive bursts of pair-recorded supraoptic-supraoptic (SO-SO)
oxytocin
cells, highly related in control conditions (correlation coefficient, r = 0.68 to 0.98) were no longer correlated after interhemisphere section (r = 0.24 to -0.61), but all bursts remained synchronized.(ABSTRACT TRUNCATED AT 400 WORDS)
...
PMID:Paraventricular and supraoptic bursting oxytocin cells in rat are locally regulated by oxytocin and functionally related. 277 22
Arginine vasopressin (AVP) is a potent neuroactive and vasoactive nonapeptide encoded in and processed from a precursor, preproarginine vasopressin-neuro-physin II (preproAVP-NPII). To study the physiologic consequences of a genetic model of chronic hypervasopressinemia transgenic mice were produced by introduction of a mouse metallothionein-rat-ppAVP-NPII fusion gene into the germ line of mice. Three stable transgenic pedigrees were analyzed through several generations. Levels of immunoreactive AVP and
neurophysin
(NP) in sera, livers, kidneys, intestines, pancreas, and brains were markedly elevated. Chromatographic analyses showed sera levels of approximately 500 pg/ml (normal 0-20 pg/ml) of authentic AVP non-apeptide and serum osmolalities were elevated, 315.4 +/- 1.4 mosm/liter (control, 307.3 +/- 1.1), consistent with a state of mild nephrogenic diabetes insipidus. Brain levels of immunoreactive AVP in transgenic mice were 3-4-fold elevated 145 +/- 15 ng/g versus 31 +/- 7 (controls). Although immunoreactive AVP in livers and intestines, and to some extent kidneys, consisted predominantly of unprocessed precursors, in brain and pancreas greater than 90% of AVP consisted of processed bioactive nonapeptide, as determined by chromatography and measurements of cAMP-generation in LLC-PK1 cells. Immunocytochemistry localized immunoreactive AVP to the exocrine pancreas and to the magnacellular neurons (
SON
and PVN) of the hypothalamus. Expression of the fusion gene in the hypothalamus was further demonstrated by Northern analyses of fusion gene specific transcripts and in situ histohybridization. Although the fusion gene contained only 35 base pairs of 5'-flanking DNA of the ppAVP-NPII gene, a tentative neuronal cell-specific expression element, -17GCCCAG-CC-10 resides in this sequence and may confer neuron-specific expression to the fusion gene.
...
PMID:Metallothionein-vasopressin fusion gene expression in transgenic mice. Nephrogenic diabetes insipidus and brain transcripts localized to magnocellular neurons. 280 95
The neurones in the supraoptic and paraventricular nuclei (
SON
and PVN) which secrete vasopressin are separate from those which secrete
oxytocin
and are distributed in different parts of the nuclei. They may be distinguished electrophysiologically by a characteristic phasic pattern of firing. A selective afferent neural input to these neurones would provide a mechanism for the release of vasopressin independently of
oxytocin
in response to appropriate physiological stimuli. Release of vasopressin is controlled by changes in blood volume or pressure ('volume control') and in plasma osmolality ('osmotic control'). Stimuli involved in volume control such as haemorrhage, hypotension and carotid occlusion cause vasopressin to be released into the circulation with little or no detectable
oxytocin
. An osmotic stimulus releases vasopressin alone in some species but not apparently in the rat in which both hormones are released. Volume control is mediated reflexly by peripheral receptors in the cardiovascular system. Activation of baro- and stretch receptors results in inhibition, and activation of chemoreceptors in stimulation, of release. Afferent impulses from these receptors are conveyed in the vagi and carotid sinus nerves to the NTS on the dorsal surface of the brain stem. All afferent impulses to the NTS are excitatory. It follows that the afferents from chemoreceptors must stimulate an excitatory, and those from baro- and stretch receptors an inhibitory, projection from the NTS to the vasopressin-secreting cells in the
SON
and PVN. Two alternative models are presented of the neural pathways and transmitters involved. The model of Fig. 2 shows an excitatory relay through a cholinoceptive area on the ventral surface of the brain stem which has been termed the 'nicotine-sensitive area' because topical application of nicotine to this area in the cat released vasopressin without
oxytocin
. An inhibitory relay is shown through the A1 group of noradrenergic neurones on the ventral surface which selectively innervate the vasopressin-secreting neurones in the
SON
. This model implies an inhibitory role for noradrenaline acting on beta- or alpha 2-receptors. However the most recent investigations suggest an excitatory, rather than inhibitory, function of the A1 noradrenergic neurones involving alpha 1-receptors. This is the basis of the model in Fig. 3. The A1 neurones project either directly to the
SON
and PVN or indirectly through the lateral preoptic nucleus which lies in close proximity to the
SON
. The nicotine-sensitive area may be coincident with the A1 group of noradrenergic neurones.(ABSTRACT TRUNCATED AT 400 WORDS)
...
PMID:Control of release of vasopressin by neuroendocrine reflexes. 290 66
To investigate the central nervous system (CNS) changes in the spontaneously hypertensive rat (SHR), a tissue culture model was used to examine the content and release (24 hour) of the peptide hormones, vasopressin (VP) and
oxytocin
(OT), from brain explants. Nuclear regions consisting of the paraventricular (PVN) or supraoptic (
SON
) nuclei were microdissected from prehypertensive SHR and Wistar-Kyoto (WKY) rats. Media levels of VP and OT were measured at 1, 3, 4, and 7 days of culture. After three days of culture, the PVN explants from SHR secreted significantly less VP and OT (both reduced 80%) than did those from WKY. Release of both VP and OT in the
SON
explants was significantly lower (approximately 50% lower) in the SHR only at seven days of culture. Additionally, tissue content of the peptides was measured after 0, 1, 4, and 7 days of culture. Tissue content of VP and OT was decreased (40% or more) in the SHR in both nuclear regions after four and seven days of culture. In addition, nicotine was found to stimulate the release of VP from
SON
, but not PVN, cultures in both SHR and WKY explants. Immunohistochemical data showed that there was not a preferential loss of VP or OT neurons in explants from the SHR. Therefore, this in vitro model would indicate that there is a difference in the ability of cultured explants of PVN and
SON
from SHR and WKY (four-week-old) to synthesize and/or release the peptide hormones VP and OT.
...
PMID:Cultured hypothalamic explants from spontaneously hypertensive rats have decreased vasopressin and oxytocin content and release. 291 84
Diurnal changes in the expression of the vasopressin (VP) and
oxytocin
(OT) genes in the supraoptic (
SON
), paraventricular (PVN) and suprachiasmatic nuclei (SCN) of the rat were investigated by dot-blot and in situ hybridization of the VP and OT mRNAs. A significant diurnal variation in VP mRNA level was measured in the SCN, with highest levels around 17.00 h and lowest levels around midnight. No variations in levels of VP mRNA and OT mRNA were detected in
SON
and PVN. The data indicate that the regulation of the VP gene in the SCN is independent of that in the magnocellular nuclei.
...
PMID:Diurnal variation in vasopressin and oxytocin messenger RNAs in hypothalamic nuclei of the rat. 321 75
Experiments were done to provide a detailed map of the location and a description of morphological characteristics of vasopressin (AVP-IR)-, neurophysin II (NII-IR)- and
oxytocin
(OXY-IR)-immunoreactive neuronal perikarya in the forebrain of the cat. In addition, the location of cells in the forebrain retrogradely labeled following injections of tracers into the neurohypophysis was determined. The distribution of AVP-IR and NII-IR was similar in all cases studied. Most of the cells containing AVP-IR and OXY-IR were observed in the hypothalamic paraventricular (PVH) and supraoptic (
SON
) nuclei. In addition, AVP-IR and OXY-IR cell bodies were found in the regions of the nucleus of the diagonal band of Broca, the dorsal chiasmatic nucleus, the anterior hypothalamic-preoptic area, the periventricular area, the nucleus circularis, the perifornical area of the lateral hypothalamus, the accessory
SON
, the area of the tuber cinereum (Tca), and the medial nucleus of the amygdala. The density of AVP-IR cells was greater than that of OXY-IR cells in these regions. Several forebrain areas were also observed to contain only AVP-IR perikarya: the suprachiasmatic nucleus (Sc), the bed nucleus of the stria terminalis, and the region of the substantia innominata and ventral globus pallidus (SI/GP). In addition, the dorsomedial nucleus of the hypothalamus only contained OXY-IR perikarya. Most of the cells immunoreactive to AVP were multipolar and had spinelike processes over their somata and proximal dendrites. In addition, the majority of cells in the PVH and
SON
were round or oval, whereas those outside these nuclei were fusiform or triangular. The mean somal area of AVP-IR cells in the region of the SI/GP was significantly (P less than 0.05) larger than that of AVP-IR cells in all other regions examined, whereas the mean somal area of Sc AVP-IR cells was significantly (P less than 0.05) smaller than that of all other groups of AVP-IR cells examined. Most OXY-IR cells were similar morphologically to those immunoreactive to AVP, except that OXY-IR cell bodies and their appendages did not have spinelike processes. In addition, OXY-IR perikarya were generally of uniform size. OXY-IR cells in the PVH and accessory
SON
were significantly (P less than 0.05) larger than AVP-IR cells in the same regions, but were not different from AVP-IR cells in the lateral hypothalamus and
SON
.(ABSTRACT TRUNCATED AT 400 WORDS)
...
PMID:Distribution and morphology of vasopressin-, neurophysin II-, and oxytocin-immunoreactive cell bodies in the forebrain of the cat. 329 31
The hypothalamic supraoptic (
SON
) and paraventricular nuclei (PVN), median eminences (ME) and neural lobes (NL) of normally hydrated control rats (group 1), and of rats drinking 2% NaCl for 7 (group 2), 30 (group 3) or 90 days (group 4) were investigated using immunohistochemistry for neurophysins (NP), arginine vasopressin (AVP) or
oxytocin
(
OXY
). Animals from the 3 experimental groups showed equivalent decreased levels of immunoreactive NP in the
SON
and PVN, but the greatest decrease was in the
SON
. Dendrites of
SON
and PVN neurons became loaded progressively with immunoreactive NP, AVP and
OXY
as salt loading proceeded. In rats of group 2, axons leaving the
SON
and PVN showed a marked depletion of immunoreactive material. The latter was found mainly at the periphery of widely spaced axonal swellings, clearly contrasting with the small and narrowly spaced beads of the neurosecretory axons of control rats. In rats of groups 3 and 4, axons leaving the
SON
and PVN resembled those of control rats. In the ME of the animals in all experimental groups, the same degree of decrease of immunoreactive NP was observed. In rats of group 3, bundles of axons containing immunoreactive AVP and
OXY
frequently projected through the ependymal lining of the ME into the third ventricle. In the NL of all experimental animals, a marked decrease occurred in the amount of immunoreactive NP, AVP and
OXY
. The decrease of immunoreactive AVP, however, was more pronounced in rats of group 2 than in those of groups 3 and 4. The NL of rats in group 4 were approximately 80% larger than those of control rats.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Immunohistochemical investigation of the magnocellular peptidergic hypothalamo-neurohypophysial system of the rat chronically stimulated by long-term administration of hypertonic saline. 337 58
These studies determined the differential autoradiographic distribution of [125I]alpha-bungarotoxin versus [3H]nicotine relative to the histochemically defined perikarya for
neurophysin
and corticotropin releasing factor (CRF). Specific [3H]nicotine binding sites occurred in relatively greater density within the neuropil surrounding PVN and
SON
compared to within the nuclei. In contrast, the highest density of [125I]alpha-BTX sites codistributed with
neurophysin
immunoreactive perikarya within these nuclei.
...
PMID:Distribution of nicotinic binding sites with respect to CRF and neurophysin immunoreactive perikarya within the rat hypothalamus. 349 57
The distribution of vasopressin (VP) and
oxytocin
(OT) neurons in the rat supraoptic (
SON
), paraventricular (PVN), and accessory magnocellular (AMN) nuclei was studied by localizing both peptides on the same section with a double immunocytochemical staining procedure employing specific monoclonal antibodies (MAB). This procedure allows us to visualize the distribution of one cell type relative to the other. In the rostral
SON
, VP cells lie dorsal and medial to the OT cells. Near the mid-point of the nucleus along its rostral-caudal length, there is a transition zone in which the two cell types are mixed. Proceeding caudalward, the relative locations of OT and VP cells are exchanged so that most of VP cells are located in the ventral and medial sector of the nucleus, whereas the OT cells are situated dorsal and lateral. However, there is no absolute segregation of the two types of cells anywhere in the nucleus. In the anterior part of the PVN a rostral group (rPVN) of cells composed of a medial portion and a lateral wing can be recognized. Nearly all of the cells in the rPVN are
oxytocin
-containing. The rPVN is separated from the next group, the middle PVN (mPVN), by a cell poor zone of about 100-150 micron. The mPVN contains both OT and VP neurons. As one proceeds caudally, the OT cells extend in the rostrocaudal direction from an anterior and ventromedial location, forming a shell around a core of VP neurons. In the most caudal PVN (cPVN), a triangular cell group characterized by fusiform cells with long-beaded processes can be distinguished from the more rounded cells of the remaining PVN. Many fusiform cells in the cPVN appear to send their axons to the posterior perifornical nucleus and the nucleus of the medial forebrain bundle. Other fusiform cells of the cPVN are oriented in a rostral-caudal plane and are situated more medially in this subdivision. The dendrites of these cells project into the mPVN while their posterior processes, most of which also appear to be dendrites, project caudally along a medial route.
...
PMID:Comparative distribution of vasopressin and oxytocin neurons in the rat brain using a double-label procedure. 354 Jul 1
The present study examines the relative levels of vasopressin (AVP) mRNA within the paraventricular (PVN), supraoptic (
SON
), and suprachiasmatic (SCN) nuclei of the rat hypothalamus, and details the rates at which these levels change over the course of a 6 d salt-loading regimen. The quantitation of vasopressin mRNA was achieved by using three different procedures: (1) cell-free translation in rabbit reticulocyte lysate or (2) Northern analysis of poly(A)RNAs isolated from micro-punch dissected
SON
, PVN, and SCN, and (3) in situ hybridization histochemistry. The former involved the quantitative immunoprecipitation of the
neurophysin
precursors containing arginine8-vasopressin (AVP) or
oxytocin
, and the latter two techniques employed a radiolabeled synthetic oligodeoxynucleotide complementary to the 3' region of the AVP mRNA. Both the cell-free studies and the Northern gel analyses detected a sevenfold increase of AVP mRNA in the
SON
, a fivefold increase in the PVN, and no significant change in the SCN following 6 d of salt-loading. After the initiation of salt-drinking, these increases were shown to occur between 24 and 48 hr in the
SON
and between 48 and 72 hr in the PVN. The in situ hybridization studies revealed the anatomically correct hybridization of either 32P- or 3H-labeled AVP oligonucleotide to magnocellular perikarya within both the
SON
and PVN. Autoradiographic grains could be shown to be confined to the cytoplasm of these cells, and could be co-localized with immunoreactivity directed against the carboxy terminus of the AVP percursor. Comparison of x-ray level autoradiograms of control and 6 day salt-loaded
SON
revealed up to a sevenfold increase in specific signal in the salt-loaded sections. It is concluded that the response of AVP mRNA to osmotic stimuli in the three hypothalamic nuclei is heterogeneous, and that this heterogeneity can be explained by separating AVP neurons into two systems: one responsible for eliciting the antidiuretic actions of AVP via plasma AVP levels, and the other involved in CNS activities not directly involved with antidiuresis.
...
PMID:Vasopressin mRNA regulation in individual hypothalamic nuclei: a northern and in situ hybridization analysis. 371 4
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