Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P05412 (c-Jun)
 11,453 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Treatment of renal mesangial cells with the vasoconstrictor angiotensin II stimulates a concentration-dependent increase in stress-activated protein kinase (SAPK) activity as measured by phosphorylation of the substrate c-Jun. Time course studies reveal a transient SAPK activation by angiotensin II which is maximal after 5-10 min of stimulation and rapidly declines thereafter to basal levels within 30 min. Using the highly selective angiotensin II AT1 receptor antagonist valsartan, a concentration-dependent inhibition of angiotensin II-induced SAPK activity is observed, clearly implying the AT1-receptor in this angiotensin II-mediated response. To further elucidate the mechanism involved in angiotensin II-induced SAPK activation, cells were treated with different inhibitors. Genistein, a tyrosine kinase inhibitor, greatly blocks (by 90%) the angiotensin II response, whereas pertussis toxin only partially inhibits angiotensin II-activated SAPK activity (by 76%). A highly potent protein kinase C inhibitor [3-[1-[3-(amidinothio)propyl-1H-indoyl-3-yl]-3-(1-methyl-1H- indoyl-3-yl) maleimide methane sulfonate], Ro 31-8220, as well as protein kinase C depletion from the cells by prolonged phorbol ester pretreatment, fail to inhibit the angiotensin II-induced SAPK activation. In summary these results suggest that angiotensin II AT1-receptor is able to activate the SAPK cascade in mesangial cells by a pathway independent of protein kinase C, but requiring both pertussis-toxin-sensitive and -insensitive G-proteins and tyrosine kinase activation.
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PMID:Angiotensin II stimulation of the stress-activated protein kinases in renal mesangial cells is mediated by the angiotensin AT1 receptor subtype. 957 Apr 79

Dopamine D2 receptors are members of the G protein-coupled receptor superfamily and are expressed on both neurons and astrocytes. Using rat C6 glioma cells stably expressing the rat D2L receptor, we show here that dopamine (DA) can activate both the extracellular signal-regulated kinase (ERK) and c-Jun NH2-terminal kinase (JNK) pathways through a mechanism involving D2 receptor-G protein complexes and the Ras GTP-binding protein. Agonist binding to D2 receptors rapidly activated both kinases within 5 min, reached a maximum between 10 and 15 min, and then gradually decreased by 60 min. Maximal activation of both kinases occurred with 100 nM DA, which produced a ninefold enhancement of ERK activity and a threefold enhancement of JNK activity. DA-induced kinase activation was prevented by either (+)-butaclamol, a selective D2 receptor antagonist, or pertussis toxin, an uncoupler of G proteins from receptors, but not by (-)-butaclamol, the inactive isomer of (+)-butaclamol. Cotransfection of RasN17, a dominant negative Ras mutant, prevented DA-induced activation of both ERK and JNK. PD098059, a specific MEK1 inhibitor, also blocked ERK activation by DA. Transfection of SEK1 (K --> R) vector, a dominant negative SEK1 mutant, specifically prevented DA-induced JNK activation and subsequent c-Jun phosphorylation without effect on ERK activation. Furthermore, stimulation of D2 receptors promoted [3H]thymidine incorporation with a pattern similar to that for kinase activation. DA mitogenesis was tightly linked to Ras-dependent mitogen-activated protein kinase (MAPK) and JNK pathways. Transfection with RasN17 and application of PD098059 blocked DA-induced DNA synthesis. Transfection with Flag delta169, a dominant negative c-Jun mutant, also prevented stimulation of [3H]thymidine incorporation by DA. The demonstration of D2 receptor-stimulated MAPK pathways may help to understand dopaminergic physiological functions in the CNS.
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PMID:D2 dopamine receptors stimulate mitogenesis through pertussis toxin-sensitive G proteins and Ras-involved ERK and SAP/JNK pathways in rat C6-D2L glioma cells. 972 23

Lysophosphatidic acid (LPA), plasmalogen-glycerophosphate (alkenyl-GP) and, cyclic-phosphatidic acid (cyclic-PA) are naturally occurring phospholipid growth factors (PLGFs). PLGFs elicit diverse biological effects via the activation of G protein-coupled receptors in a variety of cell types. In NIH3T3 fibroblasts, LPA and alkenyl-GP both induced proliferation, whereas cyclic-PA was antiproliferative. LPA and alkenyl-GP decreased cAMP in a pertussis toxin-sensitive manner, whereas cyclic-PA caused cAMP to increase. LPA and alkenyl-GP both stimulated the activity of the mitogen-actived protein kinases extracellular signal regulated kinases 1 and 2 and c-Jun NH2-terminal kinase, whereas cyclic-PA did not. All three PLGFs induced the formation of stress fibers in NIH3T3 fibroblasts. To determine whether these lipids activated the same or different receptors, heterologous desensitization patterns were established among the three PLGFs by monitoring changes in intracellular Ca2+ in NIH3T3 fibroblasts. LPA cross-desensitized both the alkenyl-GP and cyclic-PA responses. Alkenyl-GP cross-desensitized the cyclic-PA response, but only partially desensitized the LPA response. Cyclic-PA only partially desensitized both the alkenyl-GP and LPA responses. We propose that pharmacologically distinct subsets of PLGF receptors exist that distinguish between cyclic-PA and alkenyl-GP, but are all activated by LPA. We provide evidence that the PSP24 receptor is selective for LPA and not activated by the other two PLGFs. RT-PCR and Northern blot analysis indicate the co-expression of mRNAs encoding the EDG-2, EDG-4, and PSP24 receptors in a variety of cell lines and tissues. However, the lack of mRNA expression for these three receptors in the LPA-responsive Rat-1 and Sp2-O-Ag14 cells suggests that a number of PLGF receptor subtypes remain unidentified.
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PMID:Naturally occurring analogs of lysophosphatidic acid elicit different cellular responses through selective activation of multiple receptor subtypes. 985 25

Lysophosphatidic acid (LPA) stimulates the c-Fos serum response element (SRE) by activating two distinct signal pathways regulated by the small GTPases, Ras and RhoA. Ras activates the ERK cascade leading to phosphorylation of the transcription factors Elk-1 and Sap1a at the Ets/TCF site. RhoA regulates an undefined pathway required for the activation of the SRF/CArG site. Here we have examined the role of the Ras and RhoA pathways in activation of the SRE and c-Fos expression in Rat-1 cells. Pertussis toxin and PD98059 strongly inhibited LPA-stimulated c-Fos expression and activation of a SRE:Luc reporter. C3 toxin completely inhibited RhoA function, partially inhibited SRE:Luc activity, but had no effect on LPA-stimulated c-Fos expression. Thus, in a physiological context the Ras-Raf-MEK-ERK pathway, but not RhoA, is required for LPA-stimulated c-Fos expression in Rat-1 cells. C3 toxin stimulated the stress-activated protein kinases JNK and p38 and potentiated c-Jun expression and phosphorylation; these properties were shared by another cellular stress agonist the protein kinase C inhibitor Ro-31-8220. However, C3 toxin alone or in combination with growth factors did not stimulate AP-1:Luc activity and actually antagonized the synergistic activation of AP-1:Luc observed in response to co-stimulation with growth factors and Ro-31-8220. These data indicate that C3 toxin is a cellular stress which antagonizes activation of AP-1 at a point downstream of stress-activated kinase activation or immediate-early gene induction.
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PMID:C3 toxin activates the stress signaling pathways, JNK and p38, but antagonizes the activation of AP-1 in rat-1 cells. 992 Sep 30

Extracellular signal-regulated kinases (ERKs) and c-Jun N-terminal kinases (JNKs, or stress-activated protein kinases) are activated by diverse extracellular signals and mediate a variety of cellular responses, including mitogenesis, differentiation, hypertrophy, inflammatory reactions and apoptosis. We have examined the involvement of Ca2+ and protein kinase C (PKC) in ERK and JNK activation by the human G-protein-coupled m2 and m3 muscarinic acetylcholine receptors (mAChR) expressed in Chinese hamster ovary (CHO) cells. We show that the Ca2+-mobilizing m3 AChR is efficiently coupled to JNK and ERK activation, whereas the m2 AChR activates ERK but not JNK. Activation of JNK in CHO-m3 cells by the agonist methacholine (MCh) was delayed in onset and more sustained relative to that of ERK in either CHO-m2 or CHO-m3 cells. The EC50 values for MCh-induced ERK activation in both cell types were essentially identical and similar to that for JNK activation in CHO-m3 cells, suggesting little amplification of the response. Agonist-stimulated Ins(1,4,5)P3 accumulation in CHO-m3 cells was insensitive to pertussis toxin (PTX), consistent with a Gq/phosphoinositide-specific phospholipase C-beta mediated pathway, whereas a significant component of ERK and JNK activation in CHO-m3 cells was PTX-sensitive, indicating Gi/o involvement. Using manipulations that prevent receptor-mediated extracellular Ca2+ influx and intracellular Ca2+-store release, we also show that ERK activation by m2 and m3 receptors is Ca2+-independent. In contrast, a significant component (>50%) of JNK activation mediated by the m3 AChR was dependent on Ca2+, mainly derived from extracellular influx. PKC inhibition and down-regulation studies suggested that JNK activation was negatively regulated by PKC. Conversely, ERK activation by both m2 and m3 AChRs required PKC, suggesting a novel mechanism for PKC activation by PTX-sensitive m2 AChRs. In summary, mAChRs activate JNK and ERK via divergent mechanisms involving either Ca2+ or PKC respectively.
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PMID:Regulation of extracellular-signal regulated kinase and c-Jun N-terminal kinase by G-protein-linked muscarinic acetylcholine receptors. 1005 31

c-Jun N-terminal kinases (JNK) participate in cellular responses to mitogenic stimuli and environmental stresses. We investigated whether and how TSH, which promotes the proliferation and differentiation of thyroid cells, regulates JNK activity in primary cultured human thyroid cells. TSH stimulated JNK activity in cytosolic fractions of thyroid cells measured by in vitro kinase assay. A low concentration of TSH (10(-11) M) stimulated JNK activity but at a higher dose (10(-8)-10(-7) M), TSH suppressed JNK activity without any change of JNK protein level. Activation of JNK by TSH was also observed in CHO cells stably transfected with TSH receptor complementary DNA (cDNA), suggesting a ligand-receptor specific interaction. TSH stimulated JNK activity through a pertussis toxin-sensitive pathway. We next elucidated the signal transduction pathways in TSH-induced JNK activation by examining the involvement of four distinct intracellular signal molecules; protein kinase C (PKC), cAMP, Ca2+, and PI3-kinase. The stimulation of JNK by TSH was blocked by two PKC inhibitors and suppressed by 8-bromo-cAMP or forskolin. These findings demonstrate that TSH regulates JNK activity biphasically in human thyroid cells through an interaction between Gi-PKC and cAMP-PKA pathways.
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PMID:Thyrotropin regulates c-Jun N-terminal kinase (JNK) activity through two distinct signal pathways in human thyroid cells. 1009 9

In CCL39 cells thrombin is a potent growth factor which requires sustained activation of mitogen activated protein kinases (MAPKs) to promote DNA synthesis. Some of the effects of thrombin can be mimicked by peptides based on the new amino terminus of the cleaved receptor; however, these thrombin receptor peptides (TRPs) fail to induce sustained activation of MAPK or DNA synthesis. We have used thrombin, TRP-7 and other agonists which elicit sustained or transient MAPK activation to identify immediate-early and delayed-early genes which are only expressed under conditions of sustained MAPK activation focusing on cyclin D1, p21CiP1 and the AP-1 transcription factor. Of the stimuli tested only FBS and thrombin were able to stimulate a sustained activation of MAPK, expression of cyclin D1, p21Cip1 and cell cycle re-entry. The expression of cyclin D1 was strongly, though not completely, inhibited by the MEK1 inhibitor PD098059. Thrombin stimulated a rapid but transient accumulation of c-Fos whereas the expression of Fra-1, Fra-2, c-Jun and JunB was sustained throughout the G1 phase of the cell cycle. We focussed our analysis on c-Fos (typical of AP-1 genes which are expressed rapidly and transiently) and Fra-1 and JunB (typical of AP-1 genes expressed after a delay but in a sustained manner). The expression of c-Fos, Fra-1 and JunB was dependent upon the activation of MAPK since these responses were inhibited by PD098059. However, a comparison of responses to FBS, thrombin, TRPs, LPA and EGF revealed that Fra-1 and JunB expression required sustained activation of MAPK whereas c-Fos expression was strongly induced even by non-mitogenic stimuli which elicited only transient MAPK activation. The expression of c-Fos (in response to thrombin, TRP or LPA) or Fra-1, JunB and cyclin D1 (thrombin only) was also inhibited by pertussis toxin. This suggests that both early and late AP-1 gene expression is regulated by the same Gi-mediated, MEK-dependent MAPK signalling pathway but that expression of late AP-1 genes and cyclin D1 requires that this pathway be persistently activated. The results suggest that the duration of receptor signalling and therefore MAPK activation is a key determinant of qualitative changes in gene expression during cell cycle re-entry.
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PMID:Sustained MAP kinase activation is required for the expression of cyclin D1, p21Cip1 and a subset of AP-1 proteins in CCL39 cells. 1034 Mar 80

Sphingosine 1-phosphate (S1P) regulates cell proliferation, apoptosis, motility, and neurite retraction. Contradictory reports propose that S1P acts as either an intracellular second messenger or an extracellular ligand for cell-surface receptors. Hence, the precise signaling mechanisms mediating the diverse cellular effects of S1P remain to be determined. Here, we investigate whether S1P stimulation of cell proliferation, survival, and related signaling events can be mediated by the recently cloned Edg family members of G protein-coupled receptors. We observed that S1P treatment significantly increased proliferation of HTC4 hepatoma cells stably transfected with human S1P receptor Edg3 or Edg5, which was attributable to stimulation of cell growth and inhibition of apoptosis caused by serum starvation. Edg3 and Edg5 transduced S1P-evoked signaling events relevant to cell proliferation and survival, including activation of the ERK/MAP kinases, and immediate-early induction of c-Jun and c-Fos. Trancriptional activation of reporter genes for the c-fos promoter and the serum response element by Edg3 and Edg5 transfected in Jurkat cells was inhibited by pertussis toxin and C3 exoenzyme, implicating G(i/o)- and Rho-dependent pathways. Our data also indicated that Edg3 and Edg5 mediated the serum response element activation through transcriptional factors Elk-1 and serum response factor. Thus, specific G protein-coupled receptors Edg3 and Edg5 account for, at least in part, S1P-induced cell proliferation, survival, and related signaling events.
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PMID:Sphingosine 1-phosphate-induced cell proliferation, survival, and related signaling events mediated by G protein-coupled receptors Edg3 and Edg5. 1061 17

We studied whether bovine pituitary thyrotropin (bTSH) or human recombinant thyrotropin (rhTSH) stimulated p42/p44 mitogen-activated protein kinases (MAPKs) in Chinese hamster ovary cells expressing human thyrotropin receptor (CHO-hTSHR cells). We show that p42/p44 MAPK phosphorylation was induced by both TSH preparations at similar levels in CHO-hTSHR cells and in wild-type CHO cells. In contrast, cyclic adenosine monophosphate (cAMP) production was stimulated by TSH only in CHO-hTSHR cells, demonstrating that p42/p44 MAPK stimulation was independent of the TSH receptor. Moreover, similar results were obtained with two other cell lines: the FRTL-5 thyroid cell line and the CCL39 fibroblast cell line. Maximal stimulation of p42/p44 MAPK phosphorylation was observed after a 5- to 10-minute incubation with bTSH and rhTSH preparations. At this time, the phosphorylation of GST-Elk1 was also increased in a time- and concentration-dependent manner by bTSH preparations. The phosphorylation of p42/p44 MAPKs was abolished by PD 98059 and GF 109203X, indicating the involvement of MAPK kinases (MEK 1/2) and protein kinase C. In contrast, the activation of p42/p44 MAPKs was insensitive to H89, to cholera toxin and to pertussis toxin. These data suggest that the protein kinase A pathway was not implicated in p42/p44 MAPK activation by TSH preparations. Moreover, Gs or Gi/Go proteins do not appear to participate in p42/p44 MAPK activation. We also showed that these TSH preparations failed to induce activation of c-Jun NH2 terminal kinase. We therefore conclude that the commercial TSH preparations used in this study contained factor(s) responsible for the specific activation of p42/p44 MAPKs by a TSH receptor-independent mechanism.
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PMID:The thyrotropin receptor is not involved in the activation of p42/p44 mitogen-activated protein kinases by thyrotropin preparations in Chinese hamster ovary cells expressing the human thyrotropin receptor. 1104 51

Neurological side effects are a major cause of concern following immunization with a number of vaccines, especially the whole cell pertussis vaccine (Pw). In this study we report that IL-1beta concentrations were significantly increased in the hippocampus following subcutaneous (s.c.) injection of Pw, and that this was accompanied by increased activity of the stress-activated kinase, c-Jun-N-terminal kinase (JNK) and a decrease in glutamate release. These effects were mimicked by s.c injection of active pertussis toxin (PT) or lipopolysaccharide (LPS). Incubation of hippocampal synaptosomes in the presence of Pw, PT or LPS also resulted in increased JNK activation and decreased glutamate release, effects which were mimicked by IL-1beta and blocked by the IL-1 receptor antagonist (IL-ra). Our observations are consistent with the hypothesis that IL-1beta induced by active bacterial toxins present in vaccine preparations, mediate the neurochemical and perhaps the neurological effects of Pw.
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PMID:Interleukin-1beta-dependent changes in the hippocampus following parenteral immunization with a whole cell pertussis vaccine. 1106 23


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