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)

Apelin, a peptide recently isolated from bovine stomach tissue extracts, has been identified as the endogenous ligand of the human orphan APJ receptor. We established a stable Chinese hamster ovary (CHO) cell line expressing a gene encoding the rat apelin receptor fused to the enhanced green fluorescent protein, to investigate internalization and the pharmacological profile of the apelin receptor. Stimulation of this receptor by the apelin fragments K17F (Lys1-Phe-Arg-Arg-Gln-Arg-Pro-Arg-Leu-Ser-His-Lys-Gly-Pro-Met-Pro-Phe17) and pE13F (pGlu5-Arg-Pro-Arg-Leu-Ser-His-Lys-Gly-Pro-Met-Pro-Phe17) resulted in a dose-dependent inhibition of forskolin-induced cAMP production and promoted its internalization. In contrast, the apelin fragments R10F (Arg8-Leu-Ser-His-Lys-Gly-Pro-Met-Pro-Phe17) and G5F (Gly13-Pro-Met-Pro-Phe17) were inactive. The physiological role of apelin and its receptor was then investigated by showing for the first time in rodent brain: (i) detection of apelin neurons in the supraoptic and paraventricular nuclei by immunohistochemistry with a specific polyclonal anti-apelin K17F antibody; (ii) detection of apelin receptor mRNA in supraoptic vasopressinergic neurons by in situ hybridization and immunohistochemistry; and (iii) a decrease in vasopressin release following intracerebroventricular injection of K17F, or pE13F, but not R10F. Thus, apelin locally synthesized in the supraoptic nucleus could exert a direct inhibitory action on vasopressinergic neuron activity via the apelin receptors synthesized in these cells. Furthermore, central injection of pE13F significantly decreased water intake in dehydrated normotensive rats but did not affect blood pressure. Together, these results suggest that neuronal apelin plays an important role in the central control of body fluid homeostasis.
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PMID:Physiological role of a novel neuropeptide, apelin, and its receptor in the rat brain. 1135 74

With the use of an antiserum against human apelin-36, apelin-immunoreactivity (irAP) was detected in neurons and cell processes of the supraoptic nucleus (SO), paraventricular nucleus (PVH), accessory neurosecretory nuclei (Acc) and suprachiasmatic nucleus. Strongly labeled cells/processes were noted in the internal layer of the median eminence, infundibular stem, anterior and posterior pituitary. Double-labeling the sections with goat polyclonal neurophysin I-antiserum and rabbit polyclonal apelin-antiserum revealed a population of magnocellular neurons in the PVH, SO and Acc expressing both irAP and neurophysin I-immunoreactivity (irNP), the latter being a marker of oxytocin-containing neurons. By inference, the AP-positive but irNP-negative magnocellular neurons could be vasopressin-containing. The presence of irAP in certain hypothalamic nuclei and pituitary suggests that the peptide may be a signaling molecule released from the hypothalamic-hypophysial axis.
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PMID:Apelin-immunoreactivity in the rat hypothalamus and pituitary. 1211 10

The peptide apelin originating from a larger precursor preproapelin molecule has been recently isolated and identified as the endogenous ligand of the human orphan G protein-coupled receptor, APJ (putative receptor protein related to the angiotensin receptor AT(1)). We have shown recently that apelin and apelin receptor mRNA are expressed in brain and that the centrally injected apelin fragment K17F (Lys(1)-Phe-Arg-Arg-Gln-Arg-Pro-Arg-Leu-Ser-His-Lys-Gly-Pro-Met-Pro-Phe(17)) decreased vasopressin release and altered drinking behavior. Using a specific polyclonal antiserum against K17F for immunohistochemistry, the aim of the present study was to establish the precise topographical distribution of apelin immunoreactivity in colchicine-treated adult rat brain. Immunoreactivity was essentially detected in neuronal cell bodies and fibers throughout the entire neuroaxis in different densities. Cells bodies have been visualized in the preoptic region, the hypothalamic supraoptic and paraventricular nuclei and in the highest density, in the arcuate nucleus. Apelin immunoreactive cell bodies were also seen in the pons and the medulla oblongata. Apelin nerve fibers appear more widely distributed than neuronal apelin cell bodies. The hypothalamus represented, by far, the major site of apelin-positive nerve fibers which were found in the suprachiasmatic, periventricular, dorsomedial, ventromedial nuclei and in the retrochiasmatic area, with the highest density in the internal layer of the median eminence. Fibers were also found innervating other circumventricular organs such as the vascular organ of the lamina terminalis, the subfornical and the subcommissural organs and the area postrema. Apelin was also detected in the septum and the amygdala and in high density in the paraventricular thalamic nucleus, the periaqueductal central gray matter and dorsal raphe nucleus, the parabrachial and Barrington nuclei in the pons and in the nucleus of the solitary tract, lateral reticular, prepositus hypoglossal and spinal trigeminal nuclei. The topographical distribution of apelinergic neurons in the brain suggests multiple roles for apelin especially in the central control of ingestive behaviors, pituitary hormone release and circadian rhythms.
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PMID:Distribution of apelin-synthesizing neurons in the adult rat brain. 1215 Jul 85

The novel apelin receptor (APJ receptor, APJR) has a restricted expression in the central nervous system suggestive of an involvement in the regulation of body fluid homeostasis. The endogenous ligand for APJR, apelin, is also highly concentrated in regions that are involved in the control of drinking behaviour. While the physiological roles of APJR and apelin are not fully known, apelin has been shown to stimulate drinking behaviour in rats and to have a regulatory effect on vasopressin release from magnocellular neurones of the hypothalamic paraventricular (PVN) and supraoptic (SON) nuclei. To determine the role of APJR in the regulation of water balance, this study examined the effects of osmotic stimulation on the expression of APJR mRNA in the magnocellular PVN (mPVN) and SON of salt-loaded and water-deprived rats. Intake of 2% NaCl and water deprivation for 48 h induced expression of APJR mRNA in the mPVN and SON. Using dual-label in situ hybridization histochemistry, we also investigated whether APJR is colocalized within vasopressin neurones in control, salt-loaded and water-deprived rats. APJR mRNA was found to colocalize with a small population of vasopressin-containing magnocellular neurones in control and water-deprived rats. Salt-loading resulted in an increased colocalization of APJR and vasopressin mRNAs in the SON. These data verify a role for APJ receptors in body fluid regulation and suggest a role for apelin in the regulation of vasopressin-containing neurones via a local autocrine/paracrine action of the peptide.
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PMID:Regulation of rat APJ receptor messenger ribonucleic acid expression in magnocellular neurones of the paraventricular and supraopric nuclei by osmotic stimuli. 1278 50

The apelin receptor (APJ receptor, APJR) has recently come to prominence following the isolation and identification of its endogenous ligand, apelin, from bovine stomach tissue extracts. Investigation of APJR mRNA expression has revealed a hypothalamic distribution similar to that of vasopressin suggesting that the apelin-APJR system may be involved in the regulation of the hypothalamic-adrenal-pituitary (HPA) stress axis. To investigate whether APJR is involved in the regulation of hypothalamic function during stress, APJR mRNA expression levels were measured by in situ hybridization in the hypothalamus of rats subjected to acute and repeated restraint stress. Acute stress caused an increase in APJR mRNA expression in the hypothalamic parvocellular paraventricular nucleus (pPVN) while repeated restraint stress induced a sustained up-regulation of pPVN APJR mRNA expression in intact rats. Removal of endogenous glucocorticoids by adrenalectomy also resulted in an increased expression of APJR mRNA in the PVN, suggesting a negative regulation of APJR mRNA expression by glucocorticoids. The role of glucocorticoids in mediating these stress-induced changes was investigated by analysing the effects of acute and repeated restraint stress on APJR mRNA levels in adrenalectomized rats. In these rats, APJR mRNA expression levels did not change above the already elevated levels of adrenalectomized-control rats. These data suggest that acute and repeated stress exert a stimulatory influence on APJR mRNA expression at the hypothalamic level that may be dependent on basal levels of circulating glucocorticoids, and further suggest a role for APJR in the regulation of hypothalamic function.
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PMID:APJ receptor mRNA expression in the rat hypothalamic paraventricular nucleus: regulation by stress and glucocorticoids. 1462 40

Apelin, a neuropeptide recently identified as the endogenous ligand for the G protein-coupled receptor APJ, is highly concentrated in brain structures involved in the control of body fluid homeostasis including the supraoptic (SON) and paraventricular (PVN) hypothalamic nuclei. To clarify the implication of apelin in the regulation of water balance, we sought to determine whether apelin colocalized with arginine vasopressin (AVP) in the rat SON and PVN. We also investigated the effects of water deprivation on the levels of apelin within these two nuclei by comparison with those of AVP. Using dual immunolabeling confocal microscopy, we found that a large proportion of apelin-immunoreactive neurons colocalized AVP within both the SON and PVN, but that the two peptides were segregated within distinct subcellular compartments inside these cells. Both the number and labeling intensity of magnocellular apelin-immunoreactive cells increased significantly after 24- or 48-h dehydration, whereas the number and labeling density of AVP-immunoreactive neurons significantly decreased. The dehydration-induced increase in apelin immunoreactivity was markedly diminished by central injection of a selective vasopressin-1 receptor antagonist. Conversely, the effect of dehydration was mimicked by a 16-min intracerebroventricular infusion of AVP, again in a vasopressin-1 receptor antagonist-reversible manner. These results provide additional evidence for the involvement of the neuropeptide apelin in the control of body fluid homeostasis. They further suggest that the dehydration-induced release of AVP from magnocellular hypothalamic neurons may be responsible for the observed increase in immunoreactive apelin levels within the same neurons and thus that the release of one peptide may block that of another peptide synthesized in the same cells.
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PMID:Dehydration-induced cross-regulation of apelin and vasopressin immunoreactivity levels in magnocellular hypothalamic neurons. 1516 25

Apelin is a peptide that was recently isolated as the endogenous ligand for the human orphan APJ receptor, a G protein-coupled receptor which shares 31 % amino-acid sequence identity with the angiotensin type 1 receptor. Apelin naturally occurs in the brain and plasma as 13 (pE13F) and 17 amino-acid (K17F) fragments of a single pro-peptide precursor. In transfected CHO cells, K17F and pE13F bind with high affinity to the rat APJ receptor, promote receptor internalization, and inhibit forskolin-induced cAMP formation. In the same cells, pE13F activates MAP kinase and PI3 kinase pathways. Apelin and APJ receptors are both widely distributed in the brain but are particularly highly expressed in the supraoptic (SON) and paraventricular (PVN) hypothalamic nuclei. Dual labeling studies demonstrate that within these two nuclei, apelin and its receptor are colocalized with vasopressin (AVP) in a subset of magnocellular neurons. In lactating rats, characterized by increases in both synthesis and release of AVP, central injection of apelin inhibits the phasic electrical activity of AVP neurons, reduces plasma AVP levels, and increases aqueous diuresis. Moreover, water deprivation, while increasing the activity of AVP neurons, reduces plasma apelin concentrations and induces an intra-neuronal pile up of the peptide, thereby decreasing the inhibitory effect of apelin on AVP release and preventing additional water loss at the kidney level. Taken together, these data demonstrate that apelin counteracts the effects of AVP in the maintenance of body fluid homeostasis. In addition, apelin and its receptor are present in the cardiovascular system, i.e. heart, kidney and vessels. Systemically administered apelin reduces arterial blood pressure, increases cardiac contractility and reduces cardiac loading. The development of non peptidic analogs of apelin may therefore offer new therapeutic avenues for the treatment of cardiovascular disorders.
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PMID:[Apelin, a neuropeptide that counteracts vasopressin secretion]. 1611 60

Recent studies suggest that adipose tissue hormones ("adipokines") are involved in the pathogenesis of various complications of obesity, including hyperlipidemia, diabetes mellitus, arterial hypertension, atherosclerosis, and heart failure. Apelin and visfatin are two recently described adipokines, although they are also synthesized outside adipose tissue. Apelin exists in at least three forms, consisting of 13, 17, or 36 amino acids, all originating from a common 77-amino-acid precursor. In the cardiovascular system, apelin elicits endothelium-dependent, nitric oxide-mediated vasorelaxation and reduces arterial blood pressure. In addition, apelin demonstrates potent and long-lasting positive inotropic activity which is preserved even in injured myocardium and is not accompanied by myocardial hypertrophy. Apelin synthesis in adipocytes is stimulated by insulin, and plasma apelin level markedly increases in obesity associated with insulin resistance and hyperinsulinemia. In addition to regulating cardiovascular function, apelin inhibits water intake and vasopressin production. Visfatin, previously recognized as a pre-B cell colony-enhancing factor (PBEF), is abundantly expressed in visceral adipose tissue and is upregulated in some, but not all, animal models of obesity. Preliminary studies suggest that plasma visfatin concentration is also increased in humans with abdominal obesity and/or type 2 diabetes mellitus. Visfatin binds to the insulin receptor at a site distinct from insulin and exerts hypoglycemic effect by reducing glucose release from hepatocytes and stimulating glucose utilization in peripheral tissues. Thus, apelin and visfatin are unique among adipose tissue hormones in that they are upregulated in the obese state and both exert primarily beneficial effects.
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PMID:Apelin and visfatin: unique "beneficial" adipokines upregulated in obesity? 1694 Sep 39

Signaling by the peptide ligand apelin and its cognate G protein-coupled receptor APJ has a potent inotropic effect on cardiac contractility and modulates systemic vascular resistance through nitric oxide-dependent signaling. In addition, there is evidence for counterregulation of the angiotensin and vasopressin pathways. Regulatory stimuli of the apelin-APJ pathway are of obvious importance but remain to be elucidated. To better understand the physiological response of apelin-APJ to disease states such as heart failure and to elucidate the mechanism by which such a response might occur, we have used the murine model of left anterior descending coronary artery ligation-induced ischemic cardiac failure. To identify the key cells responsible for modulation and production of apelin in vivo, we have created a novel apelin-lacZ reporter mouse. Data from these studies demonstrate that apelin and APJ are upregulated in the heart and skeletal muscle following myocardial injury and suggest that apelin expression remains restricted to the endothelium. In cardiac failure, endothelial apelin expression correlates with other hypoxia-responsive genes, and in healthy animals both apelin and APJ are markedly upregulated in various tissues following systemic hypoxic exposure. Experiments with cultured endothelial cells in vitro show apelin mRNA and protein levels to be increased by hypoxia, through a hypoxia-inducible factor-mediated pathway. These studies suggest that apelin-expressing endothelial cells respond to conditions associated with heart failure, possibly including local tissue hypoxia, and modulate apelin-APJ expression to regulate cardiovascular homeostasis. The apelin-APJ pathway may thus provide a mechanism for systemic endothelial monitoring of tissue perfusion and adaptive regulation of cardiovascular function.
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PMID:In vivo genetic profiling and cellular localization of apelin reveals a hypoxia-sensitive, endothelial-centered pathway activated in ischemic heart failure. 1790 1

Apelin is a vasoactive peptide identified as the endogenous ligand of an orphan G protein-coupled receptor called APJ. Apelin and its receptor have been found in the brain and the cardiovascular system. Here we show that the apelin receptor mRNA is highly expressed in the glomeruli while its level of expression is lower in all nephron segments including collecting ducts that express vasopressin V2 receptors. Intravenous injection of apelin 17 into lactating rats induced a significant diuresis. Apelin receptor mRNA was also found in endothelial and vascular smooth muscle cells of glomerular arterioles. Apelin administration caused vasorelaxation of angiotensin II-preconstricted efferent and afferent arterioles as shown by an increase in their diameter. Activation of endothelial apelin receptors caused release of nitric oxide which inhibited angiotensin II-induced rise in intracellular calcium. In addition, it appears that apelin had a direct receptor-mediated vasoconstrictive effect on vascular smooth muscle. These results show that apelin has complex effects on the pre- and post glomerular microvasculature regulating renal hemodynamics. Its role on tubular function (if any) remains to be determined.
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PMID:Effect of apelin on glomerular hemodynamic function in the rat kidney. 1850 23


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