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Query: UNIPROT:P01185 (
vasopressin
)
23,126
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Surgical pituitary stalk compression (PSC) causes neural lobe denervation and development of ectopic magnocellular terminals in the external zone of the median eminence, resulting in shunting of magnocellular
vasopressin
(VP) and oxytocin (OT) to the pituitary portal circulation. To determine the effects of PSC on hypothalamic and pituitary function, VP and
CRH
receptors and POMC messenger RNA (mRNA) in the pituitary, and
CRH
, VP, and OT mRNA levels in the PVN were examined in 7-day PSC and sham-operated rats. Immunohistochemical staining revealed marked accumulation of immunoreactive VP in the swollen pituitary stalk and the external zone of the distal median eminence of PSC rats. Plasma ACTH and corticosterone levels were significantly increased by PSC, an effect that was attenuated by minipump infusion of desamino-[D-Arg8]-
vasopressin
(DDAVP) given to correct the diabetes insipidus. [3H]VP binding to anterior pituitary membranes from PSC rats was reduced by 50% compared to that in sham-operated controls, but VP V1b receptor mRNA levels measured by in situ hybridization were unchanged. Pituitary
CRH
receptors measured by binding autoradiography and
CRH
receptor mRNA levels did not change after PSC. POMC mRNA was unchanged in the anterior pituitary lobe, but markedly increased in the intermediate lobe of PSC rats, with or without DDAVP infusion. In the hypothalamic supraoptic and paraventricular nuclei, PSC resulted in reduction of VP mRNA (-83%) and OT mRNA (-38%) levels, probably reflecting retrograde degeneration of magnocellular neurons. This decrease was more pronounced for VP mRNA than for OT mRNA
CRH
mRNA levels in parvicellular cells of the paraventricular nuclei of PSC rats were reduced by 55%. Correction of the diabetes insipidus by DDAVP treatment further decreased hypothalamic VP mRNA levels, but restored
CRH
mRNA to control levels. The data show that continuous exposure of the pituitary to high VP levels from ectopic magnocellular fibers in the median eminence results in VP, but not
CRH
, receptor loss. Pituitary VP receptor down-regulation and decreased hypothalamic
CRH
expression are likely to contribute to the reduced corticotroph responsiveness to VP reported in this experimental model.
...
PMID:Hypothalamic-pituitary corticotroph function after shunting of magnocellular vasopressin and oxytocin to the hypophyseal portal circulation. 859 5
Starvation-induced alterations of neuropeptide activity probably contribute to neuroendocrine dysfunctions in anorexia nervosa. For example,
CRH
alterations contribute to hypercortisolemia and NPY alterations may contribute to amenorrhea. Alterations of these peptides as well as opioids,
vasopressin
, and oxytocin activity could contribute to other characteristic psychophysiological disturbances, such as reduced feeding, in acutely ill anorexics. Such neuropeptide disturbances could contribute to the vicious cycle that has been hypothesized to occur in anorexia nervosa. That is, the consequences of malnutrition perpetuate pathological behavior.
...
PMID:Neuropeptide abnormalities in anorexia nervosa. 873 16
Angiotensin II (Ang) injected intracerebroventricularly stimulates
neurohypophyseal
vasopressin
(AVP) release into the peripheral circulation. As we have shown previously, central actions of Ang II in the rat forebrain are mediated by the AT1A receptor subtype. In the present paper, we attempted to clarify the cellular localization of the AT1A receptor mRNA in the hypothalamic paraventricular (PVN) and supraoptic (SON) nuclei, in order to reappraise the conflicting data on the nature of the angiotensin II receptor involved in Ang induced
vasopressin
release. For this purpose, double in situ hybridization was performed using a radioactive AT1A receptor riboprobe and a digoxygenin labeled AVP oligoprobe, and immunohistochemical localization of the glial marker glial fibrillary acidic protein (GFAP) on the same brain slice. The results show neuronal expression of AT1A receptor mRNA mainly in dorsal and medial parvocellular parts of the PVN, its localization in some magnocellular PVN neurons and the absence of its expression in AVP producing neurons either in the PVN or in the SON. Thus, while indirect evidence indicates the involvement of the AT1A receptor subtype in the regulation of
CRH
and oxytocin release, the stimulation of vasopressinergic neurons is likely due to indirect mechanisms, or to a yet unknown type of angiotensin receptor.
...
PMID:Comparative expression of vasopressin and angiotensin type-1 receptor mRNA in rat hypothalamic nuclei: a double in situ hybridization study. 875 Aug 69
The mechanism regulating pituitary
CRH
receptors during stress was studied by analysis of the changes in
CRH
receptor messenger RNA (mRNA) and
CRH
binding after acute and repeated stress and
CRH
and
vasopressin
(VP) administration in intact and adrenalectomized rats. Acute stress caused time- and stress type-dependent changes in pituitary
CRH
receptor expression. In situ hybridization studies showed biphasic changes in
CRH
receptor mRNA after immobilization stress for 1 h and decreases by 2 h (P < 0.01). Increases (P < 0.01) were seen 4 and 8 h after the initiation of the stress, and a return to near basal levels by 12 and 18 h. A different pattern, with a decrease by 4 h (P < 0.01) and levels similar to controls after 12 and 18 h, was observed after a single ip injection of hypertonic saline (1.5 M NaCl). Binding autoradiography showed significant increases in pituitary
CRH
binding 4, 10, and 12 h after immobilization stress, but significant decreases 4, 12, and 18 h after ip hypertonic saline. In contrast, repeated immobilization or ip hypertonic saline for 8 or 14 days increased pituitary
CRH
receptor mRNA, and
CRH
binding was decreased. To determine the role of hypothalamic
CRH
and VP on these stress-induced changes, rats were injected for 14 days with
CRH
, VP, or their combination at doses mimicking stress levels in pituitary portal circulation (1 microgram/day sc). Repeated injection of
CRH
or VP increased
CRH
receptor mRNA and
CRH
binding (P < 0.05).
CRH
receptor mRNA levels further increased after combined administration of
CRH
and VP (P < 0.01), but
CRH
binding showed a tendency to decrease. The role of glucocorticoids on
CRH
receptor regulation was studied by analysis of the effects of stress on
CRH
receptor mRNA and
CRH
binding in adrenalectomized (ADX) rats with and without corticosterone replacement in the drinking water. Although in 6-day ADX rats pituitary
CRH
receptor mRNA levels were markedly reduced after acute immobilization, glucocorticoid replacement restored the stimulatory effect of stress to levels observed in intact rats. Similarly, a single sc injection of
CRH
(1 microgram) decreased
CRH
receptor mRNA in ADX rats but not in glucocorticoid-replaced ADX rats.
CRH
binding showed the expected decrease after ADX and was unchanged after stress or
CRH
injection. The increased pituitary
CRH
receptor mRNA after stress suggests that stress-induced
CRH
receptor down-regulation is due to increased receptor occupancy and internalization rather than to a decrease in receptor synthesis. The data suggest that increased hypothalamic secretion of
CRH
and VP mediates the delayed up-regulatory effect of stress on
CRH
receptor mRNA, and that resting levels of glucocorticoids are required for this effect. In addition, increased VP levels are permissive for the down-regulation of
CRH
binding induced by chronic pituitary exposure to stress levels of
CRH
.
...
PMID:Regulation of messenger ribonucleic acid for corticotropin releasing hormone receptor in the pituitary during stress. 875 51
1. The forebrain is a major organizer of the complex behavioural, physiological and neuroendocrine responses to environmental challenges of a stressful nature. 2. Combined physiological and neuroanatomical studies suggest that a specific forebrain-brain stem network, composed of connections between the central nucleus of the amygdala, the paraventricular nucleus of the hypothalamus, the mesencephalic cuneiform nucleus, the parabrachial nucleus and the dorsal motor nucleus of the vagus nerve, may be important for integrating behavioural and physiological responses. 3. Based on studies using bilateral electrolytic lesions of the central nucleus of the amygdala, it has become clear that the central nucleus of the amygdala is one of the key structures involved in unconditioned responses to inescapable footshock. These responses include freezing behaviour, tachycardia and the release of adrenaline, noradrenaline, prolactin and corticosterone. However, this nucleus is involved only in the freezing behaviour and bradycardiac responses to conditioned emotional stress or to social defeat. 4. Both peptidergic (
corticotropin releasing hormone
and
vasopressin
/oxytocin) and aminergic (noradrenaline and dopamine) mechanisms in the central amygdala are involved in the regulation of integrated behavioural, physiological and neuroendocrine stress responses. This is indicated by studies with an infusion of an agonist and/or antagonist of the peptides or neurotransmitters into the central amygdala of freely moving rats. Sympathetic cardiac control is intensified by
corticotropin releasing hormone
and oxytocin, probably by inhibiting vagal output. In contrast, vagal activity is facilitated by
vasopressin
, noradrenaline and dopamine.
...
PMID:Forebrain pathways and their behavioural interactions with neuroendocrine and cardiovascular function in the rat. 881 49
The role of afferent innervation to the hypothalamic paraventricular nucleus (PVN) on
CRH
mRNA and
CRH
receptor mRNA levels was studied in control and stressed rats. Groups of rats were subjected to unilateral transection of the stria terminalis (ST), the medial forebrain bundle at the rostral hypothalamic level (RMFB), or the lower brainstem through the medulla oblongata between the obex and the locus coeruleus (CBs). Twelve days after surgery, each group of rats was further divided into controls (basal conditions) and stressed (1 h immobilization), before collecting brains for mRNA analysis by in situ hybridization histochemistry. While ST and RMFB cuts had no effect on basal
CRH
mRNA levels in the PVN, CBs cut decreased
CRH
mRNA in the PVN ipsilaterally to the knife cut but it was without effect on the contralateral side (-40% and -37% vs contralateral and sham-operated, respectively, P < 0.01). Acute stress (rats were killed 3 h after immobilization) increased
CRH
mRNA levels by about 30% bilaterally, an effect which was unchanged by any of the three hemisections. Under basal conditions,
CRH
receptor mRNA levels in the PVN were indistinguishable from the surrounding areas in sham-operated controls, ST and RMFB operated rats. However, brainstem hemisection resulted in clear expression of
CRH
receptor mRNA in areas consistent with the dorsal, medial-ventral and lateral parvicellular subdivisions of the PVN, ipsilateral to the transection.
CRH
neurons in these subdivisions project to the lower brainstem and the spinal cord. Expression of
CRH
receptor mRNA in the medial-dorsal and anterior parvicellular divisions (
CRH
neurons with median eminence projections) was not affected by CBs cut. In these subdivisions, immobilization stress markedly increased
CRH
receptor mRNA levels but it did not influence CBs cut-induced
CRH
receptor expression. ST and RMFB hemisections were without effect on PVN
CRH
receptor mRNA levels under basal or stress conditions. Oxytocin (OT) and
vasopressin
(VP) mRNA levels in the magnocellular subdivision of the PVN were unchanged after immobilization, or following ST, RMFB or CBs cuts, whereas OT mRNA in the medial-ventral and caudal parvicellular subdivisions was decreased by 52% after CBs cut. The data demonstrate that: 1) basal
CRH
mRNA levels in the PVN are under tonic stimulatory influence of the lower brainstem (and/or spinal cord) afferents; 2)
CRH
receptor mRNA expression in PVN subdivisions (pituitary vs lower brainstem/spinal cord projecting neurons) is under different control mechanisms, and 3) immobilization-induced changes in
CRH
mRNA and
CRH
receptor mRNA levels are mediated either by neural inputs from brain areas other than those investigated here, or by humoral factors.
...
PMID:Neural regulation of corticotropin releasing hormone (CRH) and CRH receptor mRNA in the hypothalamic paraventricular nucleus in the rat. 886 57
Recently, we demonstrated that single administration of interleukin-1 beta (IL-1) to adult rats induces a long-lasting (weeks) increase of
vasopressin
(AVP) stores in terminals of
CRH
neurons in the external zone of the median eminence (ZEME). This is accompanied by hypersecretion of AVP into the pituitary portal circulation and long-lasting hyperresponsiveness of the hypothalamo-pituitary-adrenal (HPA) axis to stressors. Here, we determine whether this form of plasticity of hypothalamic
CRH
neurons is specific for IL-1 or represents a general response to a stressor. Single exposure of rats to lipopolysaccharide (LPS), IL-1, brain surgery or electric footshocks increases the AVP stores in the ZEME 7 and 11 days later. Exposure to insulin or ether does not affect the AVP stores. The stressors have little or no effect on the
CRH
stores in the ZEME. The amplitude of the increase in AVP as measured 7-11 days after stimulation correlates with the overall ACTH response to the stressor (area under curve, r = 0.89, P < 0.0001), with the peak ACTH levels (r = 0.52, P < 0.05), but not with the duration of the ACTH response nor with any parameter of the corticosterone response. Administration of ACTH or corticosterone at doses that mimic stress-induced plasma levels does not increase AVP stores 7 days later. We conclude that long-lasting increases of AVP stores in
CRH
terminals in the ZEME can be induced by various stressors and postulate that the amplitude of such increases depends on the degree of activation of the
CRH
neurons by the stressor. (NWO grant: 900-543-101.)
...
PMID:Short stressor induced long-lasting increases of vasopressin stores in hypothalamic corticotropin-releasing hormone (CRH) neurons in adult rats. 887 19
To assess the ability of desmopressin to differentiate between pituitary and ectopic ACTH-dependent Cushing's syndrome and to determine whether diagnostic accuracy could be improved by administering it together with human sequence
CRH
, we examined its effects on cortisol and ACTH secretion when given alone or in combination with
CRH
in patients with Cushing's syndrome of varied etiology and compared these data to the results of a standard
CRH
test in the same individuals. Each patient was studied on three occasions, in random order, separated by at least 48 h. At 0900 h, via an indwelling forearm cannula, 10 micrograms desmopressin, 100 micrograms
CRH
, or a combination of the two were given as an iv bolus; thereafter, blood was drawn every 15 min for 2 h. The responses to the individual agents were determined according to the timing and calculation criteria suggested by Nieman et al. (1993). A total of 25 patients with Cushing's syndrome were studied: 17 patients with pituitary-dependent Cushing's syndrome, Cushing's disease (CD); 5 patients with occult ectopic ACTH secretion (EC); and 3 patients with primary adrenal (ACTH-independent) Cushing's syndrome. In this series, the best discrimination among ACTH-dependent patient groups was achieved using the combined test. Using the responses of plasma cortisol, all 17 patients with CD showed a rise greater than any of the 5 patients with EC, whereas 1 patient with CD showed a plasma ACTH response within the range seen in the patients with EC. Plasma cortisol responses to desmopressin alone were seen in 14 of 17 patients with CD and 1 of 5 patients with EC and, after
CRH
alone, in 15 of 17 patients with CD but in no patient with EC. In contrast, plasma ACTH responses after
CRH
alone were seen in 14 of 17 patients with CD and 2 of 5 patients with EC and, after desmopressin alone, in 12 of 17 with CD and 3 of 5 with EC, thus indicating overlapping responses between the groups and poorer discrimination. No responses were seen in the ACTH-independent group. These data indicate that desmopressin causes the secretion of ACTH and cortisol in patients with ACTH-dependent Cushing's syndrome, and that in combination with
CRH
, it may provide an improvement over the standard
CRH
test in the differential diagnosis of ACTH-dependent Cushing's syndrome. Furthermore, these data suggest that there may be abnormalities in
vasopressin
receptor function or number in ACTH-secreting tumors.
...
PMID:A combined test using desmopressin and corticotropin-releasing hormone in the differential diagnosis of Cushing's syndrome. 898 55
Previous studies showed that various stressors can induce delayed (days) and long-lasting (weeks) increases of
vasopressin
(AVP) stores in terminals of
CRH
neurons in the external zone of the median eminence (ZEME) in adult rats. Here we tested whether this long-lasting neuroplastic change can be induced by mechanisms other than stressor provoked transsynaptic activation of
CRH
neurons. Single i.v. administration of a
CRH
antibody to adult rats causes a delayed (at least 1 day) and long-lasting (3 weeks) increase (2-3 fold) of AVP stores in the ZEME without affecting
CRH
stores. It suppresses ether-induced ACTH-responses for at least 8 days. In contrast, resting pm levels of ACTH and corticosterone (CORT) were suppressed only during the first 2 days. Suppletion of CORT levels on day 1 and 2, attenuates the antibody induced AVP-increase by 57%.
CRH
-immunoneutralization did not affect the AVP stores in CORT supplemented ADX rats. Thus, long-term increases of AVP stores induced by
CRH
-immunoneutralization largely depend on short-term suppression of pm CORT levels. Accordingly, single administration of metyrapone, which causes a transient suppression of pm CORT levels, increases AVP (1.5 fold) but not
CRH
stores one week later. We conclude that transient activation of hypothalamic
CRH
neurons results in long-lasting increases in AVP co-expression irrespective of the nature of the activating stimulus.
...
PMID:Transient suppression of resting corticosterone levels induces sustained increase of AVP stores in hypothalamic CRH-neurons of rats. 902 40
The febrile and neuroendocrine responses to circulating endotoxin are effected, at least in part, by a central action of prostaglandins with interleukins serving as intermediaries. Data from rodents suggest that prostaglandin and interleukin (IL-1 beta) synthesis in response to endotoxin challenge may occur within the circumventricular organs of the brain, especially the choroid plexus; the present study investigated this possibility using the sheep as an experimental model. A pyretic dose of bacterial endotoxin (40 micrograms lipopolysaccharide) was given intravenously to sheep (n = 5) and the effect on gene expression in the choroid plexus after a 40 min interval was compared with that observed in vehicle-treated animals (n = 5) using in situ hybridisation histochemistry. Evidence of activational and synthetic events following endotoxin administration was provided by significant increases in c-fos (P < 0.05) and IL-1 beta (P < 0.01) mRNA expression. Constitutive cyclooxygenase (cox-1 mRNA) and inducible cyclooxygenase (cox-2 mRNA) synthesis were unchanged. The investigation also sought to provide evidence for endotoxin effects on neuroendocrine activity in this species by examining changes in hypothalamic gene expression. The results showed that c-fos mRNA increased in the paraventricular (P < 0.01) and supraoptic (P < 0.05) nuclei and that
CRH
mRNA was upregulated in the paraventricular nucleus (P < 0.001). However, in agreement with previous work, there was no change in
vasopressin
gene expression although oxytocin mRNA was enhanced throughout the paraventricular nucleus (P < 0.05). These findings suggest the following: (1) possible involvement of the choroid plexus in the response of sheep to immunological challenge: (2) endotoxin-induced changes in gene expression in the ovine hypothalamus similar in those caused by other stressors: and (3) possible changes in oxytocin synthesis concomitant with fever in the sheep.
...
PMID:Bacterial endotoxin-induced gene expression in the choroid plexus and paraventricular and supraoptic hypothalamic nuclei of the sheep. 903 17
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