Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UMLS:C0043167 (pertussis)
 19,595 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Angiotensin-II (AII), which stimulates steroidogenesis in bovine adrenocortical (BAC) cells through the phosphoinositides pathway, activates p42-p44 mitogen-activated protein kinases (MAPKs) after 5 min of treatment (EC50 = 0.1 nM). This activation is 1) completely inhibited by the AII receptor AT1 subtype antagonist Dup 753 (10 microM), but unaffected by the AT2 antagonist PD 123177; 2) not reproduced by the AT2 agonist CGP 42112A; 3) insensitive to pretreatment with pertussis toxin; and 4) abolished by a 48-h preexposure of the cells to the phorbol ester 12-O-tetradecanoylphorbol 13-acetate (TPA; 1 microM), which down-regulates protein kinase-C activity. Fibroblast growth factor-2, a potent mitogen for BAC cells, which acts through its tyrosine kinase receptor, also activates MAPK (EC50 = 0.3 in a TPA-insensitive manner, while exhibiting no detectable effect on BAC cell steroidogenesis. In contrast, ACTH, which stimulates steroidogenesis via cAMP and inhibits BAC cell proliferation, does not stimulate MAPK. Indeed, ACTH completely blocks (IC50 = 0.01 nM) the stimulation of MAPK by AII, fibroblast growth factor-2, or TPA. Therefore, bovine adrenocortical cells provide an example of positive and negative hormonal regulation of MAPK activity through a cross-talk between the inositide-, cAMP-, and growth factor-activated tyrosine kinase pathways.
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PMID:Hormonal regulation of mitogen-activated protein kinase activity in bovine adrenocortical cells: cross-talk between phosphoinositides, adenosine 3',5'-monophosphate, and tyrosine kinase receptor pathways. 786 5

1. A brief challenge of rat astrocytes with either alpha, beta-methyleneATP (alpha, beta-meATP) or basic fibroblast growth factor (bFGF) resulted, three days later, in morphological differentiation of cells, as shown by marked elongation of astrocytic processes. The P2 receptor antagonist suramin prevented alpha, beta-meATP- but not bFGF-induced astrocytic elongation. Similar effects on astrocytic elongation were also observed with ATP and other P2 receptor agonists (beta, gamma meATP, ADP beta S, 2meSATP and, to a lesser extent, UTP). 2. Pertussis toxin completely abolished alpha, beta-meATP- but not bFGF-induced effects. No effects were exerted by alpha, beta-meATP on cyclic AMP production; similarly, neomycin had no effects on elogation of processes induced by the purine analogue, suggesting that adenylyl cyclase and phospholipase C are probably not involved in alpha, beta-meATP-induced effects (see also the accompanying paper by Centemeri et al., 1997). The tyrosine-kinase inhibitor genistein greatly reduced bFGF- but not alpha, beta-meATP-induced astrocytic elongation. 3. Challenge of cultures with alpha, beta-meATP rapidly and concentration-dependently increased [3H]-arachidonic acid (AA) release from cells, suggesting that activation of phospholipase A2 (PLA2) may be involved in the long-term functional effects evoked by purine analogues. Consistently, exogenously added AA markedly elongated astrocytic processes. Moreover, various PLA2 inhibitors (e.g. mepacrine and dexamethasone) prevented both the early alpha, beta-meATP-induced [3H]-AA release and/or the associated long-term morphological changes, without affecting the astrocytic elongation induced by bFGF. Finally, the protein kinase C (PKC) inhibitor H7 fully abolished alpha, beta-meATP- but not bFGF-induced effects. 4. Both alpha, beta-meATP and bFGF rapidly and transiently induced the nuclear accumulation of Fos and Jun. Both c-fos and c-jun induction by the purine analogue could be fully prevented by pretreatment with suramin. In contrast, the effects of bFGF were unaffected by this P2 receptor antagonist. 5. It was concluded that alpha, beta-meATP- and bFGF-morphological differentiation of astrocytes occurs via independent transductional pathways. For the purine analogue, signalling involves a Gi/G(o) protein-coupled P2Y-receptor which may be linked to activation of PLA2 (involvement of an arachidonate-sensitive PKC is speculated); for bFGF, a tyrosine kinase receptor is involved. Both pathways merge on some common intracellular target, as suggested by induction of primary response genes, which in turn may regulate late response genes mediating long-term phenotypic changes of astroglial cells. 6. These findings implicate P2 receptors as novel targets for the pharmacological regulation of reactive astrogliosis, which has intriguing implications in nervous system diseases characterized by degenerative events.
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PMID:Characterization of the signalling pathways involved in ATP and basic fibroblast growth factor-induced astrogliosis. 928 5

The pineal hormone, melatonin, inhibits proliferation of estrogen receptor (ER)-positive MCF-7 human breast cancer cells, modulates both ER mRNA and protein expression, and appears to be serum dependent, indicating interaction between melatonin and serum components. To examine the effects of melatonin on ER activity, ER transactivation assays were performed by transiently transfecting MCF-7 cells with an ERE-luciferase reporter construct. MCF-7 cells pre-treated with melatonin for as little as 5 min followed by either epidermal growth factor (EGF) or insulin resulted in the estrogen-independent transactivation of the ER. None of the compounds when used alone transactivated the ER. The ability of melatonin and EGF to transactivate the ER was abolished by the addition of the antiestrogen, ICI 164384, suggesting that melatonin and EGF co-operate to transactivate the ER. The modulation of ER transactivation was associated with changes in mitogen activated protein kinase activity and ER phosphorylation. This ER transactivation was blocked by pertussis toxin, a Galpha i-protein-coupled receptor inhibitor, suggesting cross talk between the G-protein-coupled melatonin receptor pathway and the EGF/insulin tyrosine kinase receptor pathways in modulating ER transactivation. Exactly how the ability of melatonin in combination with EGF to transactivate the ER relates to melatonin's observed growth suppressive effects is not clear. It is possible that, although melatonin and EGF transactivate the ER, this transactivation does not result in the full transcription of estrogen-responsive genes, but rather, makes the ER refractory to activation by estradiol, thus, blocking the mitogenic actions of estradiol.
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PMID:Estrogen receptor transactivation in MCF-7 breast cancer cells by melatonin and growth factors. 972 86

Glucocorticoid hormones influence manifold neuronal processes including learning, memory, and emotion via the glucocorticoid receptor (GR). Catecholamines further modulate these functions, although the underlying molecular mechanisms are poorly understood. Here, we show that epinephrine and norepinephrine potentiate ligand-dependent GR transactivation in a hippocampal cell line (HT22) via beta(2)-adrenergic receptors. This enhancement was strongest at low concentrations of glucocorticoids and was accompanied by increased GR binding to a glucocorticoid-responsive element (GRE). beta(2)-Adrenergic receptor-mediated GR enhancement was relayed via G protein beta gamma-subunits, insensitive to pertussis toxin and independent of protein kinase A (PKA). In contrast, the catecholamine-evoked GR enhancement was strongly reduced by wortmannin, suggesting a critical role for phosphoinositide 3-kinase (PI3-K). In agreement, epinephrine directly activated PI3-K in vivo. Similarly, stimulation of tyrosine kinase receptors coupled to PI3-K activation, e.g. receptors for insulin-like growth factor I (IGF-I) or fibroblast growth factor (FGF), increased GR transactivation. Further analysis indicated that G protein-coupled receptor (GPCR) and tyrosine kinase receptor signals converge on PI3-K through separate mechanisms. Blockade of GR enhancement by wortmannin was partially overcome by expression of the downstream-acting protein kinase B (PKB/Akt). Collectively, our findings demonstrate that GPCRs can regulate GR transactivation by stimulating PI3-K. This novel cross-talk may provide new insights into the molecular processes of learning and memory and the treatment of stress-related disorders.
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PMID:Beta(2)-adrenergic receptors potentiate glucocorticoid receptor transactivation via G protein beta gamma-subunits and the phosphoinositide 3-kinase pathway. 1126 7

We investigated the ability of GM1 to induce phosphorylation of the tyrosine kinase receptor for neurotrophins, Trk, in rat brain, and activation of possible down-stream signaling cascades. GM1 increased phosphorylated Trk (pTrk) in slices of striatum, hippocampus and frontal cortex in a concentration- and time-dependent manner, and enhanced the activity of Trk kinase resulting in receptor autophosphorylation. The ability of GM1 to induce pTrk was shared by other gangliosides, and was blocked by the selective Trk kinase inhibitors K252a and AG879. GM1 induced phosphorylation of TrkA > TrkC > TrkB in a region-specific distribution. Adding GM1 to brain slices activated extracellular-regulated protein kinases (Erks) in all three brain regions studied. In striatum, GM1 elicited activation of Erk2 > Erk1 in a time-and concentration-dependent manner. The GM1 effect on Erk2 was mimicked by other gangliosides, and was blocked by the Trk kinase inhibitors K252a and AG879. Pertussis toxin, as well as Src protein tyrosine kinase and protein kinase C inhibitors, did not prevent the GM1-induced activation of Erk2, apparently excluding the participation of Gi and Gq/11 protein-coupled receptors. Intracerebroventricular administration of GM1 induced a transient phosphorylation of TrkA and Erk1/2 in the striatum and hippocampus complementing the in situ studies. These observations support a role for GM1 in modulating Trk and Erk phosphorylation and activity in brain.
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PMID:GM1 ganglioside induces phosphorylation and activation of Trk and Erk in brain. 1206 29

The P2Y12 ADP receptor is one of the major regulators of platelet activation and the target of antithrombotic thienopyridines (ticlopidine and clopidogrel). It has been recently cloned but the signaling pathways triggered by this receptor are still poorly documented. Here, we show that stimulation of the human P2Y12 receptor stably expressed in Chinese hamster ovary cells activates two major intracellular signaling mechanisms leading either to cell proliferation or to actin cytoskeleton reorganization. Both effects were blocked by the active metabolite of clopidogrel, a specific antagonist of P2Y12. The P2Y12-mediated stimulation of proliferation required the pertussis toxin-sensitive activation of PI3-kinase/Akt upstream of MAP-kinases. A partial contribution of a transactivation mechanism, through the tyrosine kinase receptor platelet-derived growth factor (PDGF)-R-beta, was also observed. Conversely, the P2Y12-mediated reorganization of the actin cytoskeleton was Gi-independent, requiring activation of RhoA and Rho-kinase. Our results provide new insights into the molecular basis of P2Y12-mediated intracellular signaling. These data may prove to be useful for a better understanding of the physiological role of P2Y12, particularly in platelets and glial cells which express this important therapeutic target.
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PMID:Gi-dependent and -independent mechanisms downstream of the P2Y12 ADP-receptor. 1471 77

Hepatocyte growth factor (HGF)-induced migration of endothelial cells is critical for angiogenesis. Sphingosine kinase (SPK) is a key enzyme catalyzing the formation of sphingosine-1-phosphate (S1P), a lipid messenger that is implicated in the regulation of a wide variety of important cellular events through both intracellular and extracellular mechanisms. The aim of this study was to investigate whether activation of SPK is involved in the migration of endothelial cells induced by HGF. The biological functions of HGF are mediated through the activation of its high-affinity tyrosine kinase receptor, c-met protooncogene. In the present study, Treatment of ECV304 endothelial cells with HGF resulted in tyrosine phosphorylation of c-Met and activation of SPK in a concentration-dependent manner. Either Ly294002 or PD98059, specific inhibitor of the PI3K and ERK/MAPK pathways, respectively, blocked the HGF-induced activation of SPK. HGF stimulation significantly increased intracellular S1P level, but no detectable secretion of S1P into the cell culture medium was observed. Treatment of ECV304 cells with pertussis toxin (PTX) has no effect on the HGF-induced migration, indicating extracellular S1P is dispensable for this process. Overexpression of wild-type SPK gene in ECV 304 cells increased the intracellular S1P and enhanced the HGF-induced migration, whereas inhibition of cellular SPK activity by N,N-dimethylsphingosine (DMS), a potent inhibitor of SPK, or by expression of a dominant-negative SPK (DN-SK) blocked the HGF-induced migration of ECV 304 cells. It is suggested that PI3K and ERK/MAPK mediated the activation of SPK and would be involved in the HGF-induced migration of endothelial cells. These results elucidate a novel mechanism by which intracellularly generated S1P mediates signaling from HGF/c-Met to the endothelial cell migration.
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PMID:Sphingosine kinase activation regulates hepatocyte growth factor induced migration of endothelial cells. 1526 5

Several members of the neuropeptide family exert chemotactic actions on blood monocytes consistent with neurogenic inflammation. Furthermore, chromogranin A (CgA) containing Alzheimer plaques are characterized by extensive microglia activation and such activation induces neuronal damage. We therefore hypothesized that the catecholamine release inhibitory peptide catestatin (hCgA(352-372)) would induce directed monocyte migration. We demonstrate that catestatin dose-dependently stimulates chemotaxis of human peripheral blood monocytes, exhibiting its maximal effect at a concentration of 1 nM comparable to the established chemoattractant formylated peptide Met-Leu-Phe (fMLP). The naturally occurring catestatin variants differed in their chemotactic property insofar as that the Pro370Leu variant was even more potent than wild type, whereas the Gly364Ser variant was less effective. Specificity of this effect was shown by inhibition of catestatin-induced chemotaxis by a specific neutralizing antibody. In addition, catestatin mediated effect was blocked by dimethylsphingosine and treatment with endothelial differentiation gene (Edg)-1 and Edg-3 antisense RNA as well as by incubation with pertussis toxin and genistein indicating involvement of tyrosine kinase receptor-, G-protein- and sphingosine-1-phosphate signaling. Catestatin also stimulated Akt- and extracellular signal related kinase (ERK)-phosphorylation and catestatin-induced chemotaxis was blocked by blockers of phosphoinositide-3 (PI-3) kinase and nitric oxide as well as by inhibition of the mitogen-activated protein kinases (MAPK) system indicating involvement of these signal transduction pathways. In summary, our data indicate that catestatin induces monocyte chemotaxis by activation of a variety of signal transduction pathways suggesting a role of this peptide as an inflammatory cytokine.
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PMID:Monocyte migration: a novel effect and signaling pathways of catestatin. 1883 77

Signaling through G protein-coupled receptors (GPCRs) promotes breast cancer metastasis. G proteins convey GPCR signals by dissociating into Galpha and Gbetagamma subunits. The aim of the present study was to determine whether blockade of Gbetagamma signaling suppresses breast cancer cell migration and invasion, which are critical components of metastasis. Conditioned media (CM) of NIH-3T3 fibroblasts are widely used as chemoattractants in in vitro cancer metastasis studies. Expression of a Gbetagamma scavenger peptide attenuated NIH-3T3 CM-induced migration and invasion of both metastatic breast cancer MDA-MB-231 and MDA-MB-436 cells by 40 to 50% without effects on cell viability. Migration and invasion of cells in response to NIH-3T3 CM were also blocked by 8-(4,5,6-trihydroxy-3-oxo-3H-xanthen-9-yl)-1-naph-thalene-carboxylic acid) (M119K), a Gbetagamma inhibitor, with maximum inhibition exceeding 80% and half-maximal inhibitory concentration (IC50) values of 1 to 2 microM. M119K also attenuated Rac-dependent formation of lamellipodia, a key structure required for metastasis. Constitutively active Rac1 rescued Gbetagamma blockade-mediated inhibition of breast cancer cell migration, whereas dominant negative Rac1 inhibited cell migration similar to Gbetagamma blockade. Furthermore, M119K suppressed Gi protein-coupled CXC chemokine receptor 4 (CXCR4)-dependent MDA-MB-231 cell migration by 80% with an IC50 value of 1 microM, whereas tyrosine kinase receptor-dependent cell migration was significantly less inhibited. However, CXCR4-dependent inhibition of adenylyl cyclase, a Gialpha-mediated response in MDA-MB-231 cells, was not blocked by M119K but was blocked by pertussis toxin, which selectively inactivates Gialpha. This report is the first to directly demonstrate the role of Gbetagamma in cancer cell migration and invasion and suggests that targeting Gbetagamma signaling pathways may provide a novel strategy for suppressing breast cancer metastasis.
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PMID:Gbetagamma signaling promotes breast cancer cell migration and invasion. 2011 Mar 78