EC:4.6.1.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:4.6.1.1 (adenylate cyclase)
19,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Urocortin was recently cloned from the rat midbrain. Urocortin is a member of the corticotropin releasing factor (CRF) peptide family and shows 45% sequence identity to CRF and 63% sequence identity to urotensin. It binds with a high affinity to CRF1 and CRF2 receptors, resulting in the stimulation of their adenylate cyclase activity. We used a polyclonal antibody against rat urocortin to define the distribution of urocortin-like immunoreactivity in the rat central nervous system. Several immunostained cell bodies were found in the supraoptic, paraventricular, and ventromedial hypothalamic nuclei. A large number of neurons with urocortin-like immunoreactivity were seen in the dorsolateral tegmental nucleus, in the linear and dorsal raphe nuclei, and in the substantia nigra. The most abundant immunoreactive (ir) perikarya were found in the Edinger-Westphal nucleus. Some neurons showed immunoreactivity in the interstitial nucleus of Cajal, the nucleus of Darkeschewitsch, and the periaqueductal gray. A dense immunoreactive fiber network was found in the lateral septal area. Some faintly stained axon terminals were observed among urocortin-ir perikarya in the supraoptic and paraventricular nuclei, in the central and periaqueductal gray, and in the Edinger-Westphal nucleus. No fibers with urocortin-ir were seen in the median eminence or the posterior pituitary. The distribution of urocortin-ir overlapped with the expression of the mRNA for the CRF2 receptor in several brain areas. These data support the hypothesis that this peptide is the endogenous ligand for the CRF2 receptor. Urocortin has been implicated in various endocrine responses, such as blood pressure regulation, as well as in higher cognitive functions.
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PMID:Distribution of urocortin-like immunoreactivity in the central nervous system of the rat. 952 35

Different truncated and conformationally constrained analogs of corticotropin-releasing factor (CRF) were synthesized on the basis of the amino acid sequences of human/rat CRF (h/rCRF), ovine CRF (oCRF), rat urocortin (rUcn), or sauvagine (Svg) and tested for their ability to displace [125I-Tyr0]oCRF or [125I-Tyr0]Svg from membrane homogenates of human embryonic kidney (HEK) 293 cells stably transfected with cDNA coding for rat CRF receptor, type 1 (rCRFR1), or mouse CRF receptor, type 2beta (mCRFR2beta). Furthermore, the potency of CRF antagonists to inhibit oCRF- or Svg-stimulated cAMP production of transfected HEK 293 cells expressing either rCRFR1 (HEK-rCRFR1 cells) or mCRFR2beta (HEK-mCRFR2beta cells) was determined. In comparison with astressin, which exhibited a similar affinity to rCRFR1 (Kd = 5.7 +/- 1.6 nM) and mCRFR2beta (Kd = 4.0 +/- 2.3 nM), [DPhe11,His12]Svg(11-40), [DLeu11]Svg(11-40), [DPhe11]Svg(11-40), and Svg(11-40) bound, respectively, with a 110-, 80-, 68-, and 54-fold higher affinity to mCRFR2beta than to rCRFR1. The truncated analogs of rUcn displayed modest preference (2- to 7-fold) for binding to mCRFR2beta. In agreement with the results of these binding experiments, [DPhe11, His12]Svg(11-40), named antisauvagine-30, was the most potent and selective ligand to suppress agonist-induced adenylate cyclase activity in HEK cells expressing mCRFR2beta.
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PMID:Structural requirements for peptidic antagonists of the corticotropin-releasing factor receptor (CRFR): development of CRFR2beta-selective antisauvagine-30. 986 Sep 57

In addition to its well established neuroendocrine and neurotransmitter effects, corticotropin releasing factor (CRF) exerts a potent vasorelaxant action. Recently, a CRF-related peptide, urocortin, has been identified in the mammalian brain. In the present study, the cerebral vasomotor action of this peptide and the mechanism underlying its relaxant effect are characterized. Ring segments obtained from the rat basilar artery were used for measurement of isometric force. The relaxant action of urocortin, CRF and sauvagine was studied in segments with a functionally intact endothelium. In segments precontracted with prostaglandin F2alpha, urocortin, CRF and sauvagine induced concentration-related relaxation. The order of potency was as follows (pD2+/-s.e.m. given in brackets): urocortin (9.32+/-0.07) > sauvagine (9.08+/-0.08) > CRF (7.50+/-0.07). Complete relaxation was achieved with each agonist. Relaxation was not affected by removal of the endothelium but was markedly attenuated in segments precontracted with 50 mM K+ Krebs solution. The relaxant effect of urocortin was inhibited by astressin in an apparently competitive manner. A pA2 value of 7.52 was estimated for astressin. Inhibition of urocortin-induced relaxation was also observed in the presence of the adenylate cyclase inhibitor SQ22536 (pD2 in the presence of 300 microM SQ22536, 9.36+/-0.05) and the K+ channel blockers tetraethylammonium (10 mM; pD2, 8.65+/-0.07), iberiotoxin (100 nM; pD2, 8.88+/-0.08) and apamin (10 nM; pD2, 8.94+/-0.07). However, the inhibitory actions of SQ22536 and apamin or iberiotoxin were not additive. The results suggest that urocortin induces relaxation of cerebral arteries by activating CRF-R2 receptors present in the vascular wall. Relaxation appears to be mediated by adenylate cyclase stimulation and activation of Ca2+-dependent K+ channels.
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PMID:Characterization of the relaxant action of urocortin, a new peptide related to corticotropin-releasing factor in the rat isolated basilar artery. 986 43

The CRF receptors belong to the VIP/GRF/PTH family of G-protein coupled receptors whose actions are mediated through activation of adenylate cyclase. Two CRF receptors, encoded by distinct genes, CRF-R1 and CRF-R2, and that can exist in two alternatively spliced forms, have been cloned. The type-1 receptor is expressed in many areas of the rodent brain, as well as in the pituitary, gonads, and skin. In the rodent, one splice variant of the type-2 receptor, CRF-R2 alpha, is expressed mainly in the brain, whereas the other variant, CRF-R2 beta, is found not only in the CNS, but also in cardiac and skeletal muscle, epididymis, and the gastrointestinal tract. The poor correlation between the sites of expression of CRF-R2 and CRF, as well as the relatively low affinity of CRF for CRF-R2, suggested the presence of another ligand, whose existence was confirmed in our cloning of urocortin. This CRF-like peptide is found not only in brain, but also in peripheral sites, such as lymphocytes. The broad tissue distribution of CRF receptors and their ligands underscores the important role of this system in maintenance of homeostasis. Functional studies of the two receptor types reveal differences in the specificity for CRF and related ligands. On the basis of its greater affinity for urocortin, in comparison with CRF, as well as its brain distribution, CRF-R2 may be the cognate receptor for urocortin. Mutagenesis studies of CRF receptors directed toward understanding the basis for their specificity, provide insight into the structural determinants for hormone-receptor recognition and signal transduction.
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PMID:Corticotropin releasing factor receptors and their ligand family. 1081 63

1. Novel analogues of antisauvagine-30 (aSvg-30), a selective antagonist for CRF(2) receptors, have been synthesized and characterized in vitro and in vivo. 2. The analogues were tested for their ability to compete for [(125)I-Tyr(0)]Svg binding and to inhibit Svg-stimulated adenylate cyclase activity in human embryonic kidney (HEK) 293 cells, permanently transfected with cDNA coding for the human CRF(1) (hCRF(1)), hCRF(2alpha) and hCRF(2beta) receptor. One analogue [D-Phe(11), His(12), Nle(17)]Svg(11-40), named K41498, showed high affinity binding to hCRF(2alpha) (K(i)=0.66+/-0.03 nM) and hCRF(2beta) (K(i)=0.62+/-0.01 nM) but not the hCRF(1) receptor (k(i)=425+50 nM) and decreased Svg-stimulated cAMP accumulation in hCRF(2) expressing cells. In conscious Wistar-Kyoto rats, K41498 (1.84 microg, i.v.) antagonized the hypotensive response to systemic urocortin (1.4 microg, i.v.), but did not block the pressor response to centrally administered urocortin (2.35 microg, i.c.v.). 3. K41498 was subsequently radio-iodinated, and in autoradiographic studies, specific (sensitive to rat urocortin, astressin and aSvg30, but insensitive to antalarmin) binding of (125)I-K41498 (100 pM) was detected in the heart and in selected brain regions including the nucleus tractus solitarius (NTS), spinal trigeminal nucleus, lateral septum and around the anterior and middle cerebral arteries. 4. Following unilateral nodose ganglionectomy, binding of (125)I-K41498 was reduced by 65% in the ipsilateral NTS, indicative of presynaptic CRF(2) receptors on vagal afferent terminals. 5. These data demonstrate that K41498 is a useful tool to study native CRF(2) receptors in the brain and periphery.
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PMID:The highly selective CRF(2) receptor antagonist K41498 binds to presynaptic CRF(2) receptors in rat brain. 1211 Jun 14

Considerable plasticity can occur within the amino acid sequence of amphiphilic peptide hormones. This is particularly evident within the corticotropin-releasing factor (CRF) family of peptides where, despite less than 15% sequence similarity among the four paralogous lineages, all are capable of acting as high affinity ligands to members of the CRF receptor family. This suggests that these peptides could undergo many mutational changes and remain as high affinity ligands to their receptors as long as the functional motifs do not change radically. Because paralogous peptide lineages are a product of genome duplications, additional genes encoding peptide-like sequences, which through mutation have lost their functional integrity, may exist. Function to these sequences may be restored if the appropriate motifs are reinserted into the primary structure. We screened rat genomic DNA with highly degenerate polymerase chain reaction (PCR) primers targeted to hybridize with the termini of CRF-related sequences. One set of sauvagine-based primers hybridized with a 120-bp sequence. The theoretical peptide sequence (SV4) showed similarity to the CRF family of peptides at the primary structure level. The encoded sequence was prepared by solid-phase synthesis and its activity assayed against mouse R1 and human R1/R2 receptors. SV4 did not bind to either mouse or human variants of the R1 receptor, but did bind to the R2 receptor with an affinity comparable to human CRF. SV4 exhibited a similar efficacy of cellular activation as CRF in trials quantifying the acidification rate of human R2alpha-transfected Chinese hamster ovary (CHO) cells, but not R1-transfected cells. SV4 utilizes adenylate cyclase as the principal secondary messenger of R2 signal transduction but, unlike urocortin or sauvagine, does not activate guanylate cyclase-, calcium- or mitogen-activated protein (MAP) kinase-mediated pathways. These data suggest that this artificial peptide may be useful to understand the cyclic adenosine monophosphate (cAMP)-dependent component of the CRF-R2 signal transduction cascade, and that additional sequences in the genome may be used to engineer bioactive peptides.
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PMID:An artificial peptide with corticotropin-releasing factor receptor-2 (CRF-R2) selective properties: the role of primary structure in the induction of signal transduction pathways. 1236 28

Corticotropin-releasing factor receptor type 2beta (CRF R2beta) is a member of the Class B heptahelical G protein-coupled receptors. This receptor is positively coupled to adenylate cyclase and is bound preferentially by the CRF-related peptides, urocortin (Ucn), Ucn II and Ucn III. In the rodent, CRF R2beta messenger RNA (mRNA) is expressed in the cardiovascular system, where its levels can be modulated by Ucn. In the present study, we investigated regulation of CRF R2beta levels by Ucn in A7r5 aortic smooth muscle cells. Ribonuclease protection assays show that A7r5 cells expressed the CRF R2beta subtype, which had two isoforms differing in one codon at the junction of exons 3 and 4. Ucn induced accumulation of intracellular cAMP via CRF R2beta in this cell line. In addition to the treatment with Ucn, cAMP agonists or analogues themselves caused a significant decrease in CRF R2beta mRNA levels. Blockade of Ucn- or cAMP-induced decreases in CRF R2beta mRNA levels by H7, a broad protein kinase inhibitor, suggested that a protein kinase pathway might be involved in this regulation. H89, a protein kinase A inhibitor, partially blocked Ucn- or cAMP-induced decreases in CRF R2beta mRNA levels. Thus, Ucn induces intracellular cAMP to downregulate CRF R2beta mRNA expression in A7r5 cells.
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PMID:Regulation of corticotropin-releasing factor receptor type 2beta mRNA via cyclic AMP pathway in A7r5 aortic smooth muscle cells. 1240 16

G protein-coupled receptors (GPCRs) help to regulate the physiology of all the major organ systems. They respond to a multitude of ligands and activate a range of effector proteins to bring about the appropriate cellular response. The choice of effector is largely determined by the interaction of individual GPCRs with different G proteins. Several factors influence this interaction, and a better understanding of the process may enable a more rational approach to identifying compounds that affect particular signalling pathways. A number of systems have been developed for the analysis of GPCRs. All provide useful information, but the genetic amenability and relative simplicity of yeast makes them a particularly attractive option for ligand identification and pharmaceutical screening. Many, but not all, GPCRs are functional in the budding yeast Saccharomyces cerevisiae, and we have developed reporter strains of the fission yeast Schizosaccharomyces pombe as an alternative host. To provide a more generic system for investigating GPCRs, we created a series of yeast-human Galpha-transplants, in which the last five residues at the C-terminus of the yeast Galpha-subunit are replaced with the corresponding residues from different human G proteins. These enable GPCRs to be coupled to the Sz. pombe signalling machinery so that stimulation with an appropriate ligand induces the expression of a signal-dependent lacZ reporter gene. We demonstrate the specificity of the system using corticotropin releasing factor (CRF) and CRF-related peptides on two CRF receptors. We find that different combinations of ligand and receptor activate different Galpha-transplants, and the specificity of the coupling is similar to that in mammalian systems. Thus, CRF signalled through the Gs- and Gi-transplants, consistent with its regulation of adenylate cyclase, and was more active against the CRF-R1A receptor than against the CRF-R2B receptor. In contrast, urocortin II and urocortin III were selective for the CRF-R2B receptors. Furthermore, urocortin, but not CRF, induced signalling through the CRF-R1A receptor and the Gq-transplant. This is the first time that human GPCRs have been coupled to the signalling pathway in Sz. pombe, and the strains described in this study will complement the other systems available for studying this important family of receptors.
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PMID:Modified yeast cells to investigate the coupling of G protein-coupled receptors to specific G proteins. 1253 76

Stress activates the hypothalamic-pituitary-adrenal (HPA) axis through release of corticotropin releasing factor (CRF), leading to production of glucocorticoids that down regulate immune responses. However, acute stress via CRF also has pro-inflammatory effects. We previously showed that acute stress increases rat blood-brain barrier (BBB) permeability, an effect involving brain mast cells and CRF, as it was absent in W/W(v) mast cell-deficient mice and was blocked by the CRF-receptor antagonist, Antalarmin. We investigated if CRF could also have a direct action on brain microvessel endothelial cells (BMEC) isolated from rat and bovine brain. BMEC were cultured and identified by electron microscopy. Western blot analysis of cultured BMEC identified CRF receptor protein; stimulation with CRF, or it structural analogue urocortin (Ucn) showed that the receptor is functionally coupled to adenylate cyclase as it increased cyclic AMP (cAMP) levels by 2-fold. These findings suggest that CRF could affect BMEC structure or function, as reported for increased cAMP levels by other studies. It is, therefore, possible that CRF may directly regulate BBB permeability, in addition to any effect mediated via brain mast cells.
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PMID:Corticotropin-releasing factor (CRF) can directly affect brain microvessel endothelial cells. 1266 88

Corticotropin-releasing factor receptor type 2beta, expressed in the rodent cardiovascular system, is a member of the G protein-coupled receptor family. This receptor is coupled positively to adenylate cyclase and is bound preferentially by the urocortin (Ucn)-related peptides (Uncs): Ucn, Ucn II, and Ucn III. In the present study, we investigated the effects of Ucns on IL-6 levels in A7r5 aortic smooth muscle cells. In this cell line, both Ucn and Ucn II induced accumulation of intracellular cAMP via corticotropin-releasing factor receptor type 2beta and also caused a significant increase in IL-6 output levels. The adenylate cyclase inhibitor, MDL-12330A, inhibited this Ucn- or Ucn II-induced increase in IL-6 levels. Although H89 (10 micro M), a protein kinase A inhibitor, had no effect on the increase in IL-6 concentration, bisindolylmaleimide I (10 nM), a protein kinase C inhibitor, was found to significantly inhibit IL-6 output levels. Blockade of Ucn- or Ucn II-induced increases in IL-6 levels by SB203580 (100 nM), a p38 MAPK inhibitor, suggested that the p38 MAPK pathway was involved in this regulation. The cAMP-mediated increase in IL-6 levels was suppressed synergistically by both bisindolylmaleimide I and SB203580. These findings demonstrate that both protein kinase C and p38 MAPK signaling cascades are involved downstream of the Ucns-cAMP pathway in A7r5 aortic smooth muscle cells.
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PMID:Urocortin-related peptides increase interleukin-6 output via cyclic adenosine 5'-monophosphate-dependent pathways in A7r5 aortic smooth muscle cells. 1274 80

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