UNIPROT:P01189 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P01189 (beta-endorphin)
21,003 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Corticotropin-releasing factor (CRF) acts on at least two types of CRF receptors. To search for selective CRF receptor agonists, 37 ovine CRF analogs, systematically substituted with D-amino acids, were tested for inhibitory activity on edema induced in the pentobarbital-anesthetized rat paw by heat (immersion in 58 degrees C water for 1 min). The activity of each analog, administered 21 nmol/kg i.v. 10 min before heat, was compared to published data on the analog's potency in stimulating adrenocorticotropin (ACTH) release from cultured rat pituitary cells. In general, a positive rank correlation was found between the anti-edema and neuroendocrine activities of these analogs, however, one outlier, [D-Pro5]ovine CRF, exhibited greater selectivity for anti-edema activity. The human/rat analog of [D-Pro5]CRF was synthesized and found to be equipotent to human/rat CRF for suppression of heat-edema. In cells transfected with two types of cloned CRF receptors, the intracellular cAMP response to [D-Pro5]human/rat CRF was equipotent to human/rat CRF in the heart-muscle CRF (CRF2 beta) receptor assay but was five times less potent than human/rat CRF in the pituitary-central nervous system CRF (CRF1) receptor assay. We conclude that changing residue Pro5 in the CRF molecule from a L- to a D-configuration confers selectivity by decreasing second messenger activation at the CRF1 receptor whilst retaining full potency at the CRF2 beta receptor.
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PMID:[D-Pro5]Corticotropin-releasing factor analogs as selective agonists at corticotropin-releasing factor receptors. 881 28

The regional distribution of corticotropin-releasing factor1 (CRF1) and CRF2 binding sites was assessed autoradiographically in adult rat brain. The differential pharmacological profiles of the CRF1 and CRF2 receptor subtypes were used for the discrimination of the CRF1 and CRF2 receptor subtypes in rat brain. Pharmacological characterization at the human CRF1 receptor subtype, expressed in baculovirus-infected Sf9 cells, showed high affinity binding (Ki < or = 10.0 nM) for the peptide agonists sauvagine, urotensin I, rat/human CRF, and ovine CRF. Pharmacological characterization at the rat CRF2 receptor subtype expressed in CHO cells showed a rank order affinity for the peptide agonists such that sauvagine, urotensin I and rat/human CRF showed high affinity binding whereas ovine CRF had a Ki value of 300 nM. Based on this differential binding affinity for ovine CRF, [125I]sauvagine binding in the presence of increasing concentrations of ovine CRF was used to discriminate CRF1 from CRF2 receptor subtypes in rat brain. The CRF1 receptor subtype was found to be localized to various regions of the cerebellum, as well as to several cortical areas. The CRF2 receptor subtype was shown to be localized to the lateral septal nucleus, entorhinal cortex, and to amygdaloid and hypothalamic regions. The present autoradiographic findings provide evidence that each subtype has a distinct regional distribution, thus strengthening the suggestion that CRF1 and CRF2 receptors serve different roles in mediating CRF function. Such data suggest that the development of CRF receptor subtype selective antagonists should help to delineate the role of CRF1 and CRF2 receptor subtypes in central nervous system function.
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PMID:Autoradiographic localization of CRF1 and CRF2 binding sites in adult rat brain. 934 46

Corticotropin releasing factor (CRF) is the key coordinator of the neuroendocrine and behavioral responses to stress. In the central nervous system, CRF excites select neuronal populations, and infusion of CRF into the cerebral ventricles of infant rats produces severe age-dependent limbic seizures. These seizures, like other CRF effects, result from activation of specific receptors. Both of the characterized members of the CRF receptor family (CRF1 and CRF2), are found in the amygdala, site of origin of CRF-induced seizures, and may therefore mediate these seizures. To determine which receptor is responsible for the excitatory effects of CRF on limbic neurons, a selective, non-peptide CRF1 antagonist was tested for its ability to abolish the seizures, in comparison to non-selective inhibitory analogues of CRF. Pretreatment with the selective CRF1 blocker (NBI 27914) increased the latency and decreased the duration of CRF-induced seizures in a dose-dependent manner. The higher doses of NBI 27914 blocked the behavioral seizures and prevented epileptic discharges in concurrent electroencephalograms recorded from the amygdala. The selective CRF1 blocker was poorly effective when given systemically, consistent with limited blood-brain barrier penetration. Urocortin, a novel peptide activating both types of CRF receptors in vitro, but with preferential affinity for CRF2 receptors in vivo, produced seizures with a lower potency than CRF. These limbic seizures, indistinguishable from those induced by CRF, were abolished by pretreatment with NBI 27914, consistent with their dependence on CRF1 activation. In summary, CRF induces limbic seizures in the immature rat, which are abolished by selective blocking of the CRF1 receptor. CRF1-messenger RNA levels are maximal in sites of seizure origin and propagation during the age when CRF is most potent as a convulsant. Taken together, these facts strongly support the role of the developmentally regulated CRF1 receptor in mediating the convulsant effects of CRF in the developing brain.
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PMID:The CRF1 receptor mediates the excitatory actions of corticotropin releasing factor (CRF) in the developing rat brain: in vivo evidence using a novel, selective, non-peptide CRF receptor antagonist. 937 7

Corticotropin releasing factor (CRF) activates two known receptor types, CRF1, and CRF2. In the adult rat brain, CRF2 has a distinct distribution pattern, suggesting that it may mediate functions exclusive of CRF1. The goal of this study was to determine the age-dependent distribution of CRF2-messenger RNA (CRF2-mRNA) in the rat brain. Brains from rats sacrificed under stress-free conditions on fetal days (F) 15, 16, 17 and 19, and postnatal days 1, 3, 5, 7, 9, 12, 15, 25, 49, and 90 (adult) were analyzed using semiquantitative in situ hybridization histochemistry. The onset and distribution of CRF2-mRNA in the developing rat brain revealed important differences from the adult expression pattern: earliest expression of CRF2-mRNA was observed in the ventromedial hypothalamus (VMH) on F16. High levels of CRF2-mRNA were present in the fronto-parietal cortex in the fetal and early postnatal brain but not later. Conversely, no CRF2-mRNA was detectable in the ventroposterior (lateral and medial) thalamic nuclei prior to postnatal day 7. Distinct developmental profiles of CRF2-mRNA were also observed in the lateral septum, medial, basal and cortical amygdala nuclei, and in several hippocampal fields. In conclusion, CRF2 is expressed in the hypothalamus on F16, prior to the detection of CRF itself in the paraventricular nucleus. The differential levels and distributions of CRF2-mRNA in hypothalamic and limbic brain regions indicate a precise regulation of this receptor's expression during development, as shown for CRF1. Regulation of the levels of CRF2 may modulate the effects of CRF (and related ligands) on target neurons, consistent with differential maturation of the functions mediated by this receptor.
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PMID:The developmental profile of the corticotropin releasing factor receptor (CRF2) in rat brain predicts distinct age-specific functions. 960 71

Corticotropin releasing factor (CRF) is a major integrator of adaptive responses to stress. Two biochemically and pharmacologically distinct CRF receptor subtypes (CRFR1 and CRFR2) have been described. We have generated mice null for the CRFR1 gene to elucidate the specific developmental and physiological roles of CRF receptor mediated pathways. Behavioral analyses revealed that mice lacking CRFR1 displayed markedly reduced anxiety. Mutant mice also failed to exhibit the characteristic hormonal response to stress due to a disruption of the hypothalamic-pituitary-adrenal (HPA) axis. Homozygous mutant mice derived from crossing heterozygotes displayed low plasma corticosterone concentrations resulting from a marked agenesis of the zona fasciculata region of the adrenal gland. The offspring from homozygote crosses died within 48 hr after birth due to a pronounced lung dysplasia. The adrenal agenesis in mutant animals was attributed to insufficient adrenocorticotropic hormone (ACTH) production during the neonatal period and was rescued by ACTH replacement. These results suggest that CRFR1 plays an important role both in the development of a functional HPA axis and in mediating behavioral changes associated with anxiety.
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PMID:Corticotropin releasing factor receptor 1-deficient mice display decreased anxiety, impaired stress response, and aberrant neuroendocrine development. 965 98

A novel series of derivatives of oxo-7H-benzo[e]perimidine-4-carboxylic acid (I) potently displaced radioligand binding of 125I-CRF to both CRF1 and CRF2 receptors. The members of this series antagonized CRF-stimulated cAMP formation and CRF-stimulated corticotropin release from rat pituitary in vivo. These are the first nonpeptide antagonists to show activity at both CRF1 and CRF2 receptors.
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PMID:Synthesis and biological activity of oxo-7H-benzo[e]perimidine-4-carboxylic acid derivatives as potent, nonpeptide corticotropin releasing factor (CRF) receptor antagonists. 1020 44

Corticotropin releasing factor (CRF) receptors belong to the super-family of G protein-coupled receptors. These receptors are classified into two subtypes (CRF1 and CRF2). Both receptors are positively coupled to adenylyl cyclase but they have a distinct pharmacology and distribution in brain. Two isoforms belonging to the CRF2 subtype receptors, CRF2alpha and CRF2beta, have been identified in rat and man. The neuropeptides CRF and urocortin mediate their actions through this CRF G protein-coupled receptor family. In this report, we describe the pharmacological characterization of the recently identified hCRF2, receptor. We have used radioligand binding with [125I]-tyr0-sauvagine and a gene expression assay in which the firefly luciferase gene expression is under the control of cAMP responsive elements. Association kinetics of [125I]-tyr0-sauvagine binding to the hCRF2beta receptor were monophasic while dissociation kinetics were biphasic, in agreement with the kinetics results obtained with the hCRF2alpha receptor. Saturation binding analysis revealed two affinity states in HEK 293 cells with binding parameters in accord with those determined kinetically and with parameters obtained with the hCRF2alpha receptor. A non-hydrolysable GTP analog, Gpp(NH)p, reduced the high affinity binding of [125I]-tyr0-sauvagine to both hCRF2 receptor isoforms in a similar manner. The rank order of potency of CRF agonist peptides in competition experiments was identical for both hCRF2 isoforms (urocortin > sauvagine > urotensin 1 > r/hCRF > alpha-helical CRF(9-41) > oCRF). Similarly, agonist potency was similar for the two isoforms when studied using the luciferase gene reporter system. The peptide antagonist alpha-helical CRF(9-41) exhibited a non-competitive antagonism of urocortin-stimulated luciferase expression with both hCRF2 receptor isoforms. Taken together, these results indicate that the pharmacological profiles of the CRF2 splice variants are identical. This indicates that the region of the N-terminus that varies between the receptors is probably not important in the binding of peptide CRF receptor ligands or functional activation of the receptor.
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PMID:Human CRF2 alpha and beta splice variants: pharmacological characterization using radioligand binding and a luciferase gene expression assay. 1021 82

We investigated pharmacological properties of CRA1000 (2-(N-(2-methylthio-4-isopropylphenyl)-N-ethylamino-4-(4-(3-fluoro phenyl)-1,2,3,6-tetrahydropyridin-1-yl)-6-methylpyrimidine) and CRA1001 (2-( N-(2-bromo-4-isopropylphenyl)-N-ethylamino-4-(4-(3-fluorophenyl)-1 ,2,3,6-tetrahydropyridin-1-yl)-6-methylpyrimidine), novel and selective antagonists for the corticotropin-releasing factor1 (CRF1) receptor. Both CRA1000 and CRA1001 inhibited [125I]ovine CRF binding to membranes of COS-7 cells expressing the rat CRF1 receptor with IC50 values of 30 and 38 nM, respectively, without affecting [125I]sauvagine binding to membranes of COS-7 cells expressing the rat CRF2alpha receptor. CRF elicited intracellular cyclic AMP (cAMP) accumulation in AtT-20 cells which express the CRF1 receptor but not the CRF2 receptor, and COS-7 cells expressing CRF1 or CRF2alpha receptors. The CRF-induced cAMP accumulation was inhibited by both CRA1000 and CRA1001, concentration-dependently, in AtT-20 cells and COS-7 cells expressing the CRF1 receptor, while these compounds did not attenuate the CRF response in COS-7 cells expressing the CRF2alpha receptor. CRF increased adrenocorticotropin (ACTH) secretion from AtT-20 cells, and CRA1000 and CRA1001 inhibited CRF-induced ACTH secretion, concentration-dependently, as did other CRF1 receptor antagonists. These results show that both CRA1000 and CRA1001 are potent and selective CRF1 receptor antagonists.
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PMID:In vitro pharmacological profile of nonpeptide CRF1 receptor antagonists, CRA1000 and CRA1001. 1035 58

Corticotropin-releasing factor (CRF) is a hypothalamic 41-amino acid peptide which stimulates corticotropin (ACTH) release from the anterior pituitary and is also involved in the body response to stress. CRF1 receptors represent a potential target for novel antidepressant/anxiolytic drugs. The aim of the present study was to search for a human cell line expressing native, functional CRF1 receptors as a starting material for screening purposes. We identified CRF1 receptors functionally coupled to cAMP formation in human neuroblastoma SH-SY5Y cells. CRF induced concentration-dependent increases in cAMP accumulation in SH-SY5Y cells (maximal increase 6.9 +/- 0.9 fold over basal values, n = 14). This effect was mimicked by related peptides with similar potencies: (mean pEC50 value) human/rat CRF (8.63), rat urocortin (9.32), sauvagine (8.97), urotensin I (8.93), ovine CRF (8.81). The efficacies of these agonists were nearly the same, with the exception of ovine CRF which was slightly less efficacious (75% the Emax of CRF). The responses to CRF were competitively antagonised by the following peptide fragments (mean pKB value): alpha-helical-CRF (9-41) (7.54), [D-Phe12,Nle21,38,C alpha MeLeu37]CRF (12-41) (8.36) and [D-Tyr12]astressin (9.49) and by the selective, non-peptidic CRF1 receptor antagonists, CP-154,526 (7.76) and antalarmin (9.19). Estimation of receptor density by [125I]Tyr0-ovine CRF saturation binding yielded a modest number of binding sites (Bmax 12 fmol/mg protein, KD 0.2 nM). Analysis of mRNA by reverse transcription-polymerase chain reaction clearly revealed the presence of mRNA for CRF1 receptors in SH-SY5Y cells. A slight signal for CRF2 receptor mRNA was also observed. We conclude that neuroblastoma SH-SY5Y cells are endowed with native CRF1 receptors positively coupled to cAMP formation. They therefore constitute a useful functional model for the search of CRF1 selective compounds with potential anxiolytic/antidepressant activity.
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PMID:Functional, endogenously expressed corticotropin-releasing factor receptor type 1 (CRF1) and CRF1 receptor mRNA expression in human neuroblastoma SH-SY5Y cells. 1045 90

Corticotropin-releasing factor (CRF), urocortin, sauvagine and urotensin I form the CRF family. These peptides bind with different affinities to two subtypes of CRF receptor (CRFR), CRFR1 and CRFR2. The latter exists as two splice variants, the neuronal CRFR2a and the peripheral CRFR2b. CRFR is a G protein-dependent receptor which acts mainly through Gs enhancing cAMP production. However, CRFR1 expressed in neutrophils of the spleen in response to immunologic stimulation and psychological stress does not seem to function through Gs, as indicated by the inability of CRF to stimulate the cAMP production of CRFR1+ neutrophils. Besides the two receptors, a 37 kD CRF binding protein (CRF-BP) binds several CRF peptides with high affinity. CRFR and CRF-BP do not share a common amino acid sequence representing the ligand binding site. In view of the unusually slow offrate of CRF-BP, it is proposed that CRF-BP provides an efficient uptake of free extracellular CRF. Thus, the time of exposure of CRFR to CRF or urocortin can be limited. At this time, the fate of the ligand CRF-BP complex is unclear. CRFR1 is not only involved in the hypophyseal stimulation of corticotropin release, but hippocampal CRFR1 mediates enhancement of stress-induced learning. CRFR1 may also be involved in basic anxiety. In contrast, at least in the mouse, CRFR2 of the lateral intermediate septum mediates tonic impairment of learning. In response to stressful stimuli or after local injection of high CRF doses, CRFR2 mediates anxiety. Effects requiring CRFR2 can be blocked specifically by the recently developed peptidic antagonist antisauvagine-30.
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PMID:Actions of CRF and its analogs. 1051 12

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