Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

In order to test the hypothesis that prenatal hormones influence the emotional maturation of the offspring, the hypothalamo-pituitary-adrenal (HPA) axis activity was studied at the end of pregnancy in two rat breeding lines differing consistently in their innate anxiety-related behaviour in the elevated plus-maze. Virgin and pregnant rats were fitted with a chronic jugular vein catheter and tested 5 days later. The high basal level of anxiety-related behaviour (HAB) described in males and females of the HAB breeding line persists in pregnancy as indicated by a significantly reduced number of entries into and time spent on the open arms of the elevated plus-maze between days 18 and 20 of pregnancy compared with pregnant rats of the breeding line with low anxiety-related behaviour (LAB). In general, an increase in anxiety was found in both breeding lines in pregnancy compared with the respective virgin controls. With respect to HPA axis activity, increased basal levels of adrenocorticotropin (ACTH) and corticosterone have been found in pregnant rats of the HAB line compared with pregnant LAB rats. ACTH and corticosterone secretion in response to emotional and complex physical stressors (exposure to the elevated plus-maze and forced swimming, respectively) did not differ between virgin and pregnant rats of either breeding line. However, independent of the inborn emotionality of the animals, a general attenuation in the HPA axis response to stressors and to exogenous CRH could be confirmed in pregnant rats. The basal and stress-induced activity of the hypothalamo-neurohypophysial system secreting oxytocin and vasopressin was also tested, and no differences were found relating to the emotionality or reproductive state of the animals except for a reduced vasopressin secretion in pregnant HAB rats after forced swimming. The elevated basal activity of the HPA axis, including enhanced circulating concentrations of corticosterone in pregnant HAB rats, may influence both the neuroendocrine and emotional development of their offspring. Thus, the passing-on of maternal behavioural characteristics via prenatal, hormonal 'imprinting' has to be considered as a possible contribution to emotional maturation during an individual's development.
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PMID:Increased basal activity of the hypothalamo-pituitary-adrenal axis during pregnancy in rats bred for high anxiety-related behaviour. 980 20

The present work was aimed at studying the combined effects of somatostatin and corticotropin releasing hormone on the activities of the pituitary-adrenocortical axis and neurohypophysis. Patients with active acromegaly were intravenously injected with a 100 micrograms human corticotropin releasing hormone bolus before and after a 3-month subcutaneous treatment with somatostatin-octreotide (SMS 201 995; Sandostatin; 200 micrograms t. i. d.). When the Sandostatin effect was investigated, corticotropin releasing hormone test was started 2 hrs after its first daily dose. Peripheral venous blood samples were taken before and 20, 60, 90 and 120 min after the corticotropin releasing hormone load. Plasma corticotropin, arginine-8-vasopressin and oxytocin were measured by radioimmunoassay, and serum cortisol by fluorimetry. In healthy subjects, corticotropin releasing hormone stimulus elicited increases of plasma corticotropin, serum cortisol, plasma arginine-8-vasopressin and oxytocin levels by 186, 41, 178 and 58 per cent, respectively. Untreated acromegalics exhibited missing arginine-8-vasopressin, blunted corticotropin, and normal oxytocin and cortisol responses. Sandostatin therapy improved the arginine-8-vasopressin reaction, suppressed the basal levels of corticotropin and cortisol with the maintenance of cortisol stimulability; the peak-reaction of corticotropin became normal in two patients, however, with a shortened duration of response. Diuresis of the patients increased under the treatment. Sandostatin markedly alleviated the clinical symptoms and suppressed the growth hormone secretion, but did not influence the size of the pituitary adenomas. Among other factors, the alterations of growth hormone and cortisol may be hypothesized to take part in the changes of the corticotroph and neurohypophysial functions.
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PMID:[Effect of somatostatin-octreotide on secretion of adrenocorticotropin, cortisol and neuro-hypophyseal hormones in acromegaly]. 991 27

The role of placental CRH in human pregnancy is currently unknown. The myometrium expresses CRH receptors that during pregnancy become coupled to adenylate cyclase. Oxytocin (OT) is one of the main regulators of uterine activity, acting via activation of the inositol triphosphate pathway. In view of the possible cross-talk between the CRH and OT signal transduction pathways we have sought to examine in more detail the second messenger mechanisms involved. CRH receptor binding affinity for CRH and activation of adenylate cyclase were reduced in the presence of OT in pregnant (at term, but not preterm) human myometrium. OT action was mediated via pertussis toxin-sensitive G proteins, which directly inhibit adenylate cyclase and, via activation of protein kinase C, phosphorylate the CRH receptor, leading to desensitization. Activation of protein kinase C by OT could be partially inhibited in human pregnant myometrial cells by OT antagonists (F327 and CAP476; 1 microM) or phospholipase C inhibitors (U73122; 10 microM). These results suggest that in term myometrium, CRH receptor function is modulated by OT, leading to reduced biological activity, lower cAMP levels, and a subsequent shift in favor of contractility rather than relaxation.
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PMID:Activation of protein kinase C by oxytocin inhibits the biological activity of the human myometrial corticotropin-releasing hormone receptor at term. 992 81

During pregnancy, placental CRH acts on human myometrium via specific receptors and might play a role in the regulation of myometrial contractility and hence human parturition. The myometrium is the site of production and target of several PGs, which can be activated by cytokines, especially during infection-induced preterm labor. We established primary human myometrial cell cultures that express functional CRH receptors (CRH-R1alpha, -R1beta, -Rlc, and -R2beta) to investigate the possible regulation of PG production by CRH. We studied the effect of CRH on the two major myometrial PGs, PGE2 and 6-keto PGF1alpha. Human CRH was able to partially inhibit basal, interleukin-1beta-stimulated, and oxytocin-stimulated PGE2 production (56 +/- 11%, 45 +/- 8%, and 58 +/- 6% inhibition, respectively). This effect was blocked by a specific CRH receptor antagonist in a concentration-dependent manner. Furthermore, CRH had no effect on 6-keto PGF1alpha production, indicating that the CRH inhibitory action does not involve suppression of cyclooxygenase, the enzyme responsible for the production of both PGE2 and 6-keto-PGF1alpha. These data further support the view that during pregnancy, CRH may promote myometrial quiescence and might play an important role in the regulation of human labor.
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PMID:Basal and interleukin-1beta-stimulated prostaglandin production from cultured human myometrial cells: differential regulation by corticotropin-releasing hormone. 1037 32

The thymus provides an optimal humoral microenvironment for the development of immunocompetent T cells. Although yolk sac derived pre-T, committed hematopoietic stem cells enter the thymus using a homing receptor, the immigration process also requires secretion of a peptide called thymotaxin by the cells of the reticulo-epithelial (RE) network of the thymic cellular microenvironment. The majority of RE cells have a round or irregular pale nucleus, which contains few, scattered, chromatin granules with a defined, spherical nucleolus, rich in basic histones. Their cytoplasm occasionally displays RNP granules, and is rich in non-histone proteins, fine phospholipid, lipid or cholesterin granules, and vacuoles filled with secreted substances. The cells of the subcapsular, endocrine RE cell layer (giant or nurse cells), characterized by PAS positive granules, express A2B5/TE4 cell surface antigens and MHC Class I (HLA A, B, C) molecules. In contrast to medullar RE cells, these subcapsular nurse cells also produce thymosins beta 3 beta 4. Thymic nurse cells (TNCs) display a neuroendocrine cell specific immunophenotype (IP): Thy-1+, A2B5+, TT+, TE4+, UJ13/A+, UJ127.11+, UJ167.11+, UJ181.4+, and presence of common leukocyte antigen (CLA+). Medullar RE cells display MHC Class II (HLA-DP, HLA-DQ, HLA-DR) molecule restriction. These cells also contain transforming growth factor-beta (TGF-beta) type II receptors and participate in the positive selection of T cells. Transmission electron-microscopic (TEM) observations have defined four functional subtypes of medullar RE cells: undifferentiated, squamous, villous, and cystic. All subtypes are connected by desmosomes. Immunocytochemical observations have shown that the secreted thymic hormones, thymosin alpha 1 and thymopoietin (and its short form, thymopentin or TP5), are produced by the same RE cells. Thymic RE cells also produce numerous cytokines including IL1, IL6, G-CSF, M-CSF, and GM-CSF that likely are important in various stages of thymocyte activation and differentiation. The co-existence of pituitary hormone and neuropeptide secretion, such as growth hormone, prolactin, adrenocorticotropic hormone, thyroid stimulating hormone, triiodothyronine, somatostatin, oxytocin, follicle stimulating hormone, luteinizing hormone, arginine vasopressin, growth hormone releasing hormone, corticotropin releasing hormone, nerve growth factor, vasoactive intestinal peptide, (pro) enkephalin, and beta-endorphin, production of a number of interleukins and growth factors, as well as the expression of receptors for all, by the same RE cell is an unique molecular biological phenomenon. These data illustrate the immensely important and diverse immuno-neuroendocrine functions of the thymic RE cellular network. Based on our systematic observations of the thymus in humans and other mammalian species, we suggest that the thymic RE cell network represents an extremely important cellular and humoral microenvironment in homeopathic regulatory mechanisms of the multicellular organism. Intrathymic T lymphocyte selection is a complex, multistep process, influenced by several functionally specialized RE cell subtypes and under constant immuno-neuroendocrine regulation, reflecting the dynamic changes of the organism.
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PMID:Molecular biological ontogenesis of the thymic reticulo-epithelial cell network during the organization of the cellular microenvironment. 1045 6

Magnocellular neurosecretory cells (MNCs) in the hypothalamo-neurohypophysial system that express and secrete the nonapeptides oxytocin (OT) and vasopressin (VP) were evaluated for the expression of multiple genes in single magnocellular neurons from the rat supraoptic nucleus using a single cell RT-PCR protocol. We found that all cells representing the two major phenotypes, the OT and VP MNCs, express a small, but significant, amount of the other nonapeptide's messenger RNA (mRNA). In situ hybridization histochemical analyses confirmed this observation. A third phenotype, containing equivalent amounts of OT and VP mRNA, was detected in about 19% of the MNCs from lactating female supraoptic nuclei. Analyses of these phenotypes for other coexisting peptide mRNAs (e.g. CRH, cholecystokinin, galanin, dynorphin, and the calcium-binding protein, calbindin) generally confirmed expectations from the literature, but revealed cell to cell variation in their coexpression. Our results also show that the high voltage-activated calcium channel subunit genes, alpha1A-D, alpha2, and beta1-4 are expressed in virtually all MNCs. However, the alpha1E subunit gene is not expressed at detectable levels in these cells. The expression of all of the beta-subunit genes in each MNC may account for the variations in physiological and pharmacological properties of the high voltage-activated channels found in these neurons. (Endocrinology 140: 5391-5401, 1999)
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PMID:Single cell reverse transcription-polymerase chain reaction analysis of rat supraoptic magnocellular neurons: neuropeptide phenotypes and high voltage-gated calcium channel subtypes. 1053 71

We have recently shown that intracerebroventricular (i.c.v.) administration of the hypothalamic neuropeptide cocaine-amphetamine-regulated transcript (CART) inhibits food intake and induces the expression of c-fos in several nuclei involved in the regulation of food intake. A high number of CART-induced c-Fos-positive nuclei in the paraventricular nucleus of the hypothalamus prompted us to examine the effect of i.c.v. recombinant CART-(42-89) on activation of CRH-, oxytocin-, and vasopressin-synthesizing neuroendocrine cells in the paraventricular nucleus (PVN). In addition, plasma levels of glucose were examined after central administration of CART-(42-89). Seventy-six male Wistar rats were fitted with i.c.v. cannulas and singly housed under 12-h light, 12-h dark conditions. One week postsurgery the animals were injected i.c.v. in the morning with 0.5 microg recombinant CART-(42-89) or saline. Trunk blood was collected by decapitation at 0 (baseline), 10, 20, 40, 60, 120, or 240 min. CART caused a strong increase in circulating corticosterone that was significantly different from saline at 20, 40, 60, and 120 min postinjection (P<0.05). Furthermore, CART caused a transient rise in plasma oxytocin levels (P<0.05 at 10 and 20 min postinjection), whereas plasma vasopressin levels were unaffected by i.c.v. CART. Animals injected i.c.v. with CART showed a rise in blood glucose levels 10 min postinjection (P<0.05). To examine whether the stimulatory effect of i.c.v. CART on corticosterone and oxytocin secretion is caused by activation of paraventricular nucleus/supraoptic nucleus (PVN/SON) neuroendocrine neurons, we used c-Fos as a marker of neuronal activity. Animals injected with CART showed a strong increase in c-Fos-immunoreactive nuclei in the PVN. Double immunohistochemistry revealed that a high (89+/-0.4%) number of CRH-immunoreactive neurons in the PVN contained c-Fos after CART i.c.v.. c-Fos expression was also observed in oxytocinergic cells (in both magnocellular and parvicellular PVN neurons as well as in the supraoptic nuclei) 120 min after CART administration, whereas none of the vasopressinergic neurons contained c-Fos. Triple immunofluorescence microscopy revealed that CART-immunoreactive fibers closely apposed c-Fos-positive CRH neurons, suggestive of a direct action of CART on PVN CRH neurons. In summary, i.c.v. CART activates central CRH neurons as well as both magnocellular (presumably neurohypophysial) and parvicellular (presumably descending) oxytocinergic neurons of the PVN. The effect of CART on CRH neurons most likely leads to corticosterone secretion from the adrenal gland, which may contribute to the inhibitory effects of CART on feeding behavior.
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PMID:Central administration of cocaine-amphetamine-regulated transcript activates hypothalamic neuroendocrine neurons in the rat. 1065 Sep 62

The thyrnus provides an optimal cellular and humoral microenvironment for the development of immunocompetent T lymphocytes. Although yolk sac derived pre-T, committed hematopoietic stem cells enter the thymus using a homing receptor, the immigration process also requires secretion of a peptide, called thymotaxin by the cells of the reticulo-epithelial (RE) network of the thymic cellular microenvironment. The thymic RE cells are functionally specialized based on their location within the thymic microenvironment. Thus, although subcapsular, cortical, and medullary RE cells are derived from a common, endodermal in origin epithelial precursor cell, their unique location within the gland causes their specialization in terms of their immunophenotypical and in situ physiological properties. The subcapsular, endocrine, RE cell layer (giant or nurse cells) is comprised of cells filled with PAS positive granules, which also express A2B5/TE4 cell surface antigens and MHC Class I (HLA A, B, C) molecules. In contrast to the medullary RE cells, these subcapsular nurse cells also produce thymosins beta 3 and beta 4. The thymic nurse cells (TNCs) display a neuroendocrine cell specific immunophenotype (IP): Thy-1+, A2B5+, TT+, TE4+, UJ13/A+, UJ127.11+, UJ167.11+, UJ181.4+, and presence of common leukocyte antigen (CLA+). Medullar RE cells display MHC Class II (HLA-DP, HLA-DQ, HLA- DR) molecule restriction. These cells also contain transforming growth factor (TGF)-beta type II receptors and are involved in the positive selection of T cells. Transmission electronmicroscopic (TEM) observations have defined four, functional subtypes of medullary RE cells: undifferentiated squamous, villous and cystic. All subtypes were connected with desmosomes. The secreted thy nic hormones, thymulin, thymosin-alpha 1 and thymopoietin (its short form, thymopentin or TP5) were detected immunocytochemically to be produced by RE cells. Thymic RE cells also produce numerous cytokines including IL-1, IL-6, G-CSF, M-CSF, and GM-CSF molecules that likely are important in various stages of thymocyte activation and differentiation. The co-existence of pituitary hormone and neuropeptide secretion [growth hormone (GH), prolactin (PRL), adrenocorticotropic hormone (ACTH), thyroid stimulating hormone (TSH), triiodothyronine (T3), somatostatin, oxytocin (OT), follicle stimulating hormone (FSH), luteinizing hormone (LH), arginine vasopressin (AVP), growth hormone releasing hormone (GHRH), corticotropin releasing hormone (CRH), nerve growth factor (NGF), vasoactive intestinal peptide (VIP), pro-enkephalin (pro-enk), and beta-endorphin (beta-end)], as well as production of a number of interleukins and growth factors and expression of receptors for all, by RE cells is an unique molecular biological phenomenon. The thymic RE cell network is most probably comprised of cells organized into sub-networks--functional units composed of RE cells with differing hormone production/hormone receptor expression profiles, involved in the various stages of T lymphocyte maturation. Furthermore, it is quite possible that even on the level of individual RE cells, the numerous projections associated with a single cell, which engulf developing lymphocytes, nurturing and guiding them in their maturation, may differ in their hormone production and/or hormone receptor expression profile, thus allowing a single cell to be involved in distinct, separate steps of the T cell maturation process. Based on our systematic observations of the thymus in humans and other mammalian species, we suggest that the thymic RE cells represent an extremely important cellular and humoral network within the thymic microenvironment and are involved in the homeopathic regulation mechanisms of the multicellular organism, in addition to the presentation of various antigens to developing lymphocytes, and providing growth regulatory signals which may range from stimulatory to apoptotic signaling within the thymus. (ABSTRACT TRUNCA
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PMID:The role of the reticulo-epithelial (RE) cell network in the immuno-neuroendocrine regulation of intrathymic lymphopoiesis. 1092 21

Epinephrine is an important neurotransmitter that is synthesized in relatively few neurons of the medullary regions C1-C3. Epinephrine is involved, among others in the control of most neuroendocrine systems, such as corticotropin releasing hormone-, gonadotropin releasing hormone- and oxytocin/vasopressin-containing neurons as part of complex feedback loop systems that often include interactions with the gonadal or adrenal steroid hormones. In order to determine if the interactions between gonadal steroid hormones with the adrenergic neurons are direct or involve steroid-receptive interneurons that in turn innervate the adrenergic neurons, dual immunohistochemistry was applied to identify if estrogen receptor-alpha (ERalpha) protein was expressed by adrenergic, phenylethanolamine-N-methyl transferase (PNMT)-positive neurons and if estradiol can activate these neurons as determined by the transient expression of the transcription factor c-Fos. The results show that an average of 22% of all PNMT neurons in the C1 region, 38% in C2 and 42% in the C3 region express estrogen receptor-alpha protein with the highest numbers of dual labeled neurons in the central levels of the C1-C3 regions. Overall, the percentages of dual labeled PNMT/ERalpha neurons did not change during the steroid-induced LH surge. In contrast, the percentage of c-Fos expressing PNMT neurons changed significantly during the LH surge. Thus, c-Fos immunoreactivity was highest in all three regions at 1200 h with 69% of the PNMT neurons in C1, 60% in C2 and 79% in C3 co-expressing c-Fos. C-Fos expression was lowest before and after the surge with 39% of the PNMT neurons in the C2 region containing c-Fos at 0800 h, 52% c-Fos-positive PNMT neurons in C1 and 54% in area C3. The results show that many adrenergic neurons are direct targets for estradiol and that most PNMT neurons in the brainstem are activated during the initiation of the steroid-induced LH surge which suggests that epinephrine is one of the triggers that stimulates GnRH release during the surge.
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PMID:Expression of estrogen receptor-alpha and c-Fos in adrenergic neurons of the female rat during the steroid-induced LH surge. 1096 99

The gene of prolactin-releasing peptide (PrRP) was first cloned in 1998 and preproproteins encoded by cDNAs produced at least two isoforms of PrRP with different lengths; PrRP31 and PrRP20. PrRP has been shown to release prolactin from the anterior pituitary at least in vitro (Hinuma, Y.S., Habata, Y., Fuji, R., Hosoya, M., Fukusumi, S., Kitada, C., Masuo, Y., Asano, T., Matsumoto, H., Sekiguchi, M., Kurokawa, T., Nishimura, O., Onda, H., and Fujino, A., 1998. A prolactin-releasing peptide in the brain. Nature 393, 272-6). PrRP receptor has also been detected by quantitive reverse transcription polymerase chain reaction, and in situ hybridization histochernistry revealed that expression of PrRP receptor mRNA was found in the broad areas of the brain and in the anterior pituitary of the rat. This review surveys morphological studies on PrRP, PrRP mRNA and PrRP receptor mRNA in the rat brain and discusses the possible functional significance of PrRP in the brain. PrRP immunoreactive neuronal perikarya showed a similar distributional pattern to those with PrRP mRNA signals. However, distribution of nerve processes and terminals with PrRP immunoreactivity was broadly expanded in the forebrain and brainstem. They were hardly detected in the median eminence particularly in its external layer. PrRP receptor mRNA signals were distributed in the preoptic area, and the hypothalamic area, where PrRP immunoreactive nerve processes and terminals were also detected. The strongest signal of PrRP receptor mRNA was detected in the reticular nucleus of the thalamus where neither PrRP immunoreactive nerve processes nor axon terminals were distributed. From the distribution pattern of PrRP and its receptor, it is suggested that PrRP is involved in control of secretion of oxytocin, corticotropin releasing hormone and somatostatin.
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PMID:Morphological survey of prolactin-releasing peptide and its receptor with special reference to their functional roles in the brain. 1107 Jan 88


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