EC:2.7.11.1 - FACTA Search

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Query: EC:2.7.11.1 (protein kinase)
81,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A new signaling mechanism common to mammalian insulin, insulin-like growth factor I, relaxin and mollusc insulin-like peptide, and involving receptor-tyrosine kinase==>G(i) protein (betagamma)==>phosphatidylinositol-3-kinase==>protein kinase Czeta==>adenylyl cyclase==>protein kinase A was discovered in the muscles and some other tissues of vertebrates and invertebrates. The authors' data were used to reconsider the problem of participation of the adenylyl cyclase-cAMP system in the regulatory effects of insulin superfamily peptides. A hypothesis has been put forward according to which the adenylyl cyclase signaling mechanism producing cAMP has a triple co-ordinating role in the regulatory action of insulin superfamily peptides on the main cell processes, inducing the mitogenic and antiapoptotic effects and inhibitory influence on some metabolic effects of the peptides. It is suggested that cAMP is a key regulator responsible for choosing the transduction pathway by concerted launching of one (proliferative) program and switching off (suppression) of two others, which lead to cell death and to the predomination of anabolic processes in a cell. The original data obtained give grounds to conclude that the adenylyl cyclase signaling system is a mechanism of signal transduction not only of hormones with serpentine receptors, but also of those with receptors of the tyrosine kinase type (insulin superfamily peptides and some growth factors).
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PMID:A novel view on the mechanisms of action of insulin and other insulin superfamily peptides: involvement of adenylyl cyclase signaling system. 1252 30

The decidualization of endometrial stromal cells in the secretory phase of the menstrual cycle is an essential prerequisite for the implantation of a blastocyst. This profound differentiation process is accompanied by sustained elevated intracellular cAMP concentrations in vivo. Primary cell cultures of endometrial stromal cells decidualize by treatment with cAMP-elevating agents in vitro. Our previous findings indicated that the cAMP-degrading activities of phosphodiesterases (PDE) and signaling of the peptide hormone relaxin are coupled in human endometrial stromal cells. In the present study we have chosen a pharmacological approach to test whether relaxin binding and PDE inhibition cooperate to induce decidualization. Measurement of PDE activity and relaxin-stimulated cAMP accumulation in the presence of diverse PDE inhibitors identified PDE4 and PDE8 as the principal PDE isoforms involved in human endometrial stromal cells. The PDE4 inhibitor rolipram was most effective in elevating intracellular cAMP concentrations and synergizing with relaxin to achieve maximal in vitro decidualization, as determined by measurement of the expression of the decidual marker genes for prolactin and IGF-binding protein-1 and measurement of prolactin secretion. Gene expression for PDE4D and PDE4C was significantly up-regulated during in vitro decidualization. Treatment of cell cultures with the protein kinase A inhibitor H89 revealed a minor role for protein kinase A-mediated positive feedback control of PDE4 activity in human endometrial stromal cells, consistent with sustained elevated cAMP essential for decidualization in vitro. These findings introduce the new idea of clinically applying the combination of a specific PDE4 inhibitor with an effector such as relaxin, thereby offering an alternative nonsteroidal luteal phase support for the endometrium to encourage endometrial development and implantation in subfertile women undergoing assisted reproductive technology procedures.
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PMID:Phosphodiesterase 4 inhibition synergizes with relaxin signaling to promote decidualization of human endometrial stromal cells. 1471 68

During the evolution of mammals, the endometrium has developed for one reason only: to implant an embryo in the uterus. In higher primates, should an oocyte fail to be fertilized, then the endometrial layer is sloughed off during menses and the menstrual cycle starts again with a new round of endometrial differentiation. This stromal differentiation process is called decidualization and is accompanied in vivo by sustained high levels of intracellular cAMP. The present study was conducted to determine whether manipulation of cAMP-phosphodiesterase (PDE) activities in cultured human endometrial stromal cells could positively influence the decidualization process. The combination of relaxin treatment with inhibition of PDE4 by the specific inhibitor rolipram induced a strong increase in relaxin-mediated cAMP production, both acutely, after 20 min, and after long-term treatment for 3 days, to promote a sustained intracellular cAMP concentration. Moreover, there was a dramatic synergistic effect on the decidualization phenotype, characterized both morphologically and by increased production of prolactin and insulin-like growth factor binding protein-1 gene transcripts. The observations that expression of PDE4D transcripts were selectively increased by cAMP and that inhibition of protein kinase A by H89 to potentially block negative feedback regulation enhanced the relaxin/rolipram-mediated cAMP accumulation lead to a complex picture of cAMP regulation in these cells. There appears to be a coordinated contribution by relaxin and PDE4 at different levels to promote a sustained increased cAMP concentration during decidualization, and thus to provide an adequate maternal interface for the implanting blastocyst.
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PMID:Relaxin and phosphodiesterases collaborate during decidualization. 1565 33

The aim of this study was to investigate relaxin (RLX) receptor-mediated gene activation in human endometrium. We determined the promoter activities of insulin-like growth factor binding protein-1 (IGFBP-1) and prolactin (PRL) and identified sequence(s) that mediate RLX activated transcription in human decidual cells and endometrial stromal cells. In human decidual cells, the promoter activity of IGFBP-1 was increased significantly in cells incubated with RLX. In endometrial stromal cells, the RLX mediated activation was enhanced only when stromal cells were co-transfected with RLX-receptor (LGR7) expression vector and RLX alone had little effect (Mazella et al., 2004). Deletion and mutation analysis showed that the cAMP regulatory element (CRE, -263 to -259 bp) in the IGFBP-1 promoter was essential for the activation. In addition, RLX increased the phosphorylation of CRE binding protein (CREB to p-CREB) and p-CREB resided in the nucleus, indicating that RLX activates the protein kinase (PKA) system in decidual cells. Gel shift assay showed that nuclear extracts prepared from RLX treated decidual cells increased the binding to the CRE site of the IGFBP-1 promoter. RLX increased the PRL promoter activity mediated through the region containing multiple CCAAT/enhancer-binding proteins (C/EBP) binding sites that have been shown to mediate the PRL gene activation by cAMP analogue (Pohnke et al., 1999). RLX enhanced IGFBP-1 promoter activity was inhibited by cAMP dependent PKA inhibitor, H-89. PRL promoter activity was inhibited by both H-89 and U0126 indicating multiple signalling pathways are activated by RLX in endometrial cells for different target gene activation.
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PMID:Ligand activated relaxin receptor increases the transcription of IGFBP-1 and prolactin in human decidual and endometrial stromal cells. 1572 41

Decidualization of endometrial stromal cells and IL-11 signaling are essential for embryo implantation in the mouse. We investigated the effects of relaxin (RLX) and prostaglandin E(2) (PGE(2)) on IL-11 secretion by human endometrial stromal cells (HESC) and during cAMP or medroxyprogesterone acetate (P)-induced decidualization. cAMP-decidualized HESC secreted high levels of IL-11. RLX, cAMP, or PGE(2) increased IL-11 mRNA and IL-11 secretion, with maximal response to RLX and cAMP. Addition of the cAMP/protein kinase A inhibitor Rp-adenosine-3,5-cyclic-monophosphorothioate to either RLX- or PGE(2)-treated cells decreased IL-11 secretion. Indomethacin treatment decreased IL-11 secretion, which was largely restored by cotreatment with PGE(2) or RLX. Cotreatment of HESC with RLX, PGE(2), or cAMP and estrogen plus P down-regulated IL-11 mRNA and IL-11 secretion at 24 h, before secretion of prolactin (decidualization marker). Addition of W147AIL-11 (IL-11 signaling inhibitor) reduced prolactin secretion stimulated by RLX or PGE(2) and estrogen plus P. This is the first demonstration that cAMP-decidualized HESC secrete IL-11 and that IL-11 mRNA and IL-11 secretion are regulated by RLX and PGE(2), partly via a cAMP/protein kinase A-dependent pathway. Blocking IL-11 signaling reduced RLX+P- or PGE(2)+P-induced decidualization, suggesting that RLX and PGE(2) act via IL-11. This is important in understanding implantation and regulation of fertility.
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PMID:Relaxin and prostaglandin E(2) regulate interleukin 11 during human endometrial stromal cell decidualization. 1578 19

Although much is known about the pleiotropic effects mediated by relaxin, the exact signaling pathways involved remain relatively elusive. This study examines LGR7 and LGR8 signaling using reporter gene technology. The greatest response was observed at the CRE reporter (indicates activation of cAMP-PKA and p38/JNK pathways), although INSL3 treatment of LGR8 produced a lower response than H2 relaxin treatment of LGR7. AP1 (which indicates activation of JNK pathways) was stimulated to a lesser degree. Three other reporters produced no response. The reporter gene studies suggest that ligand stimulation of LGR7 and LGR8 involves cAMP-PKA and p38/JNK signaling.
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PMID:Signaling pathways of the LGR7 and LGR8 receptors determined by reporter genes. 1595 20

Relaxin exhibits pleiotropic effects on reproductive and nonreproductive tissues; the signaling mechanisms underlying these functions are still not well understood. Activation of protein kinase A and several other signal-regulated protein kinases results in the phosphorylation of phospholipase C (PLC)-beta3 and inhibit Galpha(q)-stimulated PLC activity. Therefore, PLCbeta3 may be targeted by both contractant and relaxant signaling pathways in myometrium and play a critical role in the balance between them. PHM1 cells express mRNA for relaxin receptor LGR7, and relaxin inhibits oxytocin-stimulated PLC activity in these cells. Thus, this model system may be useful in delineating signaling pathways used by relaxin. Here, we present evidence that relaxin stimulates phosphorylation of PLCbeta3 in PHM1 cells.
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PMID:Pathways used by relaxin to regulate myometrial phospholipase C. 1595 22

For the first time, the adenylate cyclase signaling mechanism (ACSM) of the action of relaxin H2 was revealed and deciphered in human and rat muscle tissues. The comparative study of signaling blocks forming the ACSM of relaxin and insulin (discovered earlier) showed that the postreceptor signaling chain of relaxin coincides with that of insulin. However, the type of relaxin receptor involved in ACSM remains obscure. Currently, the ACSM of relaxin may be represented as a signaling cascade: receptor --> Gi protein (betagamma-dimer) --> phosphatidylinositol 3-kinase (PI3K) --> protein kinase Czeta (PKCzeta) --> Gs protein --> adenylate cyclase.
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PMID:A novel, adenylate cyclase, signaling mechanism of relaxin H2 action. 1595 23

We tested the effects of relaxin on [Ca2+]i response to angiotensin II in smooth muscle (vSMC) and endothelial cells isolated from hypertensive (SHR) and normotensive (WKY) rats. Relaxin markedly reduced the [Ca2+]i response of vSMCs from WKY, but not from SHR rats. Western blots showed that cGMP-dependent protein kinase G was reduced in vSMCs from SHR as compared with WKY rats. Relaxin also blunted the [Ca2+]i response in endothelial cells from WKY, but not from SHR rats. However, in endothelial cells from SHR and WKY rats, protein kinase G was nearly unexpressed, thus accounting for an alternative pathway of the intracellular response to nitric oxide and relaxin. Hence, vSMCs and endothelial cells in SHR rats show a deficiency response to nitric oxide that may render them insensitive to relaxin.
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PMID:Effects of relaxin on vascular smooth muscle and endothelial cells in normotensive and hypertensive rats. 1595 25

Although the hormone relaxin was discovered 80 years ago, only in the past 5 years have the receptors for relaxin and three other receptors that respond to related peptides been identified with all four receptors being G-protein-coupled receptors. In this review it is suggested that the receptors for relaxin (LGR7) and those for the related peptides insulin-like peptide 3 (LGR8), relaxin-3 (GPCR135), and insulin-like peptide 5 (LGPCR142) be named the relaxin family peptide receptors 1 through 4 (RXFP1-4). RXFP1 and RXFP2 are leucine-rich repeat-containing G-protein-coupled receptors with complex binding characteristics involving both the large ectodomain and the transmembrane loops. RXFP1 activates adenylate cyclase, protein kinase A, protein kinase C, phosphatidylinositol 3-kinase, and extracellular signaling regulated kinase (Erk1/2) and also interacts with nitric oxide signaling. RXFP2 activates adenylate cyclase in recombinant systems, but physiological responses are sensitive to pertussis toxin. RXFP3 and RXFP4 resemble more conventional peptide liganded receptors and both inhibit adenylate cyclase, and in addition RXFP3 activates Erk1/2 signaling. Physiological studies and examination of the phenotypes of transgenic mice have established that relaxin has roles as a reproductive hormone involved in uterine relaxation (some species), reproductive tissue growth, and collagen remodeling but also in the cardiovascular and renal systems and in the brain. The connective tissue remodeling properties of relaxin acting at RXFP1 receptors have potential for the development of agents effective for the treatment of cardiac and renal fibrosis, asthma, and scleroderma and for orthodontic remodelling. Agents acting at RXFP2 receptors may be useful for the treatment of cryptorchidism and infertility, whereas antagonists may be used as contraceptives. The brain distribution of RXFP3 receptors suggests that actions at these receptors have the potential for the development of antianxiety and antiobesity drugs.
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PMID:International Union of Pharmacology LVII: recommendations for the nomenclature of receptors for relaxin family peptides. 1650 80

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