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Query: EC:2.7.11.24 (
mitogen-activated protein kinase
)
95,810
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Treatment of a mouse macrophage cell line, P388D1, for 1 h with bacterial
LPS
caused a transient increase in the level of junB mRNA expression. These cells became refractory in terms of the junB gene response to exposure to a second round of
LPS
or lipid A, but not to PMA. The
LPS
-induced desensitized state was not due to the shortening of the half-life of junB mRNA, but was suggested, by nuclear run-on analysis, to be caused by reduction of junB gene transcription. Pretreating cells with herbimycin A, a tyrosine kinase inhibitor, substantially inhibited
LPS
-induced expression of junB mRNA and decreased tyrosine phosphorylation of 38- to 42-kDa proteins, which comigrated with p38 and p42 mitogen-activated protein (MAP) kinases. Parallel to down-regulation of junB mRNA expression, activation of the p38 MAP kinase was markedly reduced in
LPS
-tolerant cells, whereas activation of p42
MAP kinase
was relatively constant. The specific p38 MAP kinase inhibitor, SB202190, potently inhibited
LPS
-induced junB mRNA expression. These results suggest that the
LPS
-induced desensitization of junB gene expression occurs at or upstream of the level of gene transcription and may be involved in a defective
LPS
-induced p38 MAP kinase pathway.
...
PMID:Lipopolysaccharide-induced desensitization of junB gene expression in a mouse macrophage-like cell line, P388D1. 975 90
Activation of the
extracellular signal-regulated kinase
(
ERK
) pathway has been shown to occur in monocytes following stimulation with
LPS
. However, the importance of this event for monocyte function is not clear. To address this issue, we used the novel MAP/
ERK
kinase (MEK) inhibitor, U0126. Stimulation of monocytes with
LPS
resulted in activation of the
mitogen-activated protein kinase
(
MAPK
) family members
ERK
, Jun NH2-terminal kinase (JNK), and p38. Treatment of monocytes with
LPS
in the presence of U0126 blocked the activation of
ERK1
and
ERK2
. However, the activation of Jun NH2-terminal kinase and p38 family members was not affected by the compound, confirming the selectivity of U0126. To examine the effects of MEK inhibition on monocyte function, we measured production of the cytokines IL-1, IL-8, and TNF, as well as PGE2. Monocytes treated with
LPS
in the presence of U0126 failed to release IL-1, IL-8, TNF, or PGE2. The failure to secrete IL-1 and TNF was due to decreased levels of mRNA. These results demonstrate that activation of MEK/
ERK
is critical for cytokine and PGE2 production by monocytes in response to
LPS
.
...
PMID:Inhibition of MAP kinase kinase prevents cytokine and prostaglandin E2 production in lipopolysaccharide-stimulated monocytes. 982 May 49
p38 mitogen-activated protein kinase (
MAPK
) (p38) is involved in various cellular responses, including
LPS
stimulation of monocytes, resulting in production of proinflammatory cytokines such as TNF-alpha. However, the function of p38 during antigenic stimulation of T cells is largely unknown. Stimulation of the human Th cell clone HA-1.70 with either the superantigen staphylococcal enterotoxin B (SEB) or with a specific antigenic peptide resulted in p38 activation and the release of TNF-alpha. MAPK-activated protein kinase-2 (MAPKAPK-2), an in vivo substrate for p38, was also activated by T cell signaling. SB 203580, a selective inhibitor of p38, blocked p38 and MAPKAPK-2 activation in the T cell clone but did not completely inhibit TNF-alpha release. PD 098059, a selective inhibitor of
MAPK
kinase 1 (MEK1), blocked activation of
extracellular signal-regulated kinase
(
ERK
) and partially blocked TNF-alpha production by the clone. In human peripheral T cells, p38 was not activated by SEB, but rather by CD28 cross-linking, whereas in the human leukemic T cell line Jurkat, p38 was activated by CD3 and CD28 cross-linking in an additive fashion. TNF-alpha production by peripheral T cells in response to SEB and anti-CD28 mAb correlated more closely with
ERK
activity than with p38 activity. Therefore, various forms of T cell stimulation can activate the p38 pathway depending on the cells examined. Furthermore, unlike
LPS
-stimulated monocytes, TNF-alpha production by T cells is only partially p38-dependent.
...
PMID:T cell activation signals up-regulate p38 mitogen-activated protein kinase activity and induce TNF-alpha production in a manner distinct from LPS activation of monocytes. 991 83
Nitric oxide production by macrophages is principally regulated by the calcium-independent enzyme, inducible nitric oxide synthase (iNOS). Both lipopolysaccharide and TNF-alpha synergize with IFN-gamma in the expression of iNOS with subsequent production of nitric oxide. Previous work has shown that IL-4 downregulates iNOS and nitric oxide expression by macrophages stimulated with
LPS
and IFN-gamma. In this study, we found that IL-4 also downregulated iNOS and nitric oxide expression induced by IFN-gamma and TNF-alpha and in mouse macrophages. Because various members of the mitogen-activated protein kinases and their upstream kinases have been shown to directly or indirectly activate a number of transcription factors including AP-1 and NFkappaB, we examined the effects of IL-4 on TNF-alpha activation of the MAPKs. Our results show that IL-4 modestly inhibited
JNK
/
SAPK
and ERK activation by TNF-alpha. Previously, we showed that selective pharmacologic inhibition of the ERK and/or p38mapk pathway did not affect NO2- expression. Treatment of cells with the chloride channel blocker 5-nitro-2-(3-phenylpropylamino) benzoic acid (NPPB) showed a dose-response inhibition of NO2- expression. NPPB was also found to inhibit ERK and
JNK
/
SAPK
activation but not p38mapk with TNF-alpha stimulation. The discordance between the marked degree of inhibition of iNOS transcript by IL-4 and the modest inhibition of
JNK
/
SAPK
and ERK suggests that the mechanism by which IL-4 inhibits iNOS transcription appears more complex than a mere inhibition of these MAPKs.
...
PMID:Potential role of the JNK/SAPK signal transduction pathway in the induction of iNOS by TNF-alpha. 991 6
Altered endotoxin (
LPS
) signal transduction in macrophages (Mphi) may mediate development of organ dysfunction in sepsis. C3H/HeJ Mphi have a specific genetic defect that renders them "tolerant" to in vitro
LPS
activation.
LPS
tolerance can be induced in normal C3H/HeN Mphi following in vitro
LPS
pretreatment. In these experiments, in vitro
LPS
-stimulated activation of Mphi mitogen-activated protein (MAP) kinases were compared in C3H/HeJ and C3H/HeN mice. C3H/HeJ and C3H/HeN Mphi were cultured+/-10 ng/mL
LPS
pretreatment for 24 h, then stimulated with 0-1,000 ng/mL
LPS
for 6 h. Western blots were performed on lysates with monoclonal antibody to active
ERK1
,2 (p42/44),
stress-activated protein kinase
(
SAPK
, p54/46), and p38 kinase. Supernatant TNF or IL-1 was determined by bioassay. High dose
LPS
stimulation activated ERK,
SAPK
, and p38 kinases in both C3H/HeN and C3H/HeJ Mphi. ERK activation, p46
SAPK
, and p38 activation were inhibited in C3H/HeN Mphi after
LPS
pretreatment, whereas they were unchanged or increased in HeJ Mphi. TNF secretion was significantly decreased in C3H/HeN Mphi following
LPS
pretreatment, but absent in C3H/HeJ Mphi at all times. Mphi from normal C3H/HeN mice rendered endotoxin tolerant by in vitro, low dose
LPS
pretreatment have specific signal transduction defects that are not present in genetically
LPS
hyporesponsive C3H/HeJ mice.
...
PMID:In vitro macrophage endotoxin tolerance: defective in vitro macrophage map kinase signal transduction after LPS pretreatment is not present in macrophages from C3H/HeJ endotoxin resistant mice. 992 18
A toxic dose of the nitric oxide (NO) donor S-nitrosoglutathione (GSNO; 1 mM) promoted apoptotic cell death of RAW 264.7 macrophages, which was attenuated by cellular preactivation with a nontoxic dose of GSNO (200 microM) or with lipopolysaccharide, interferon-gamma, and NG-monomethyl-L-arginine (
LPS
/IFN-gamma/NMMA) for 15 h. Protection from apoptosis was achieved by expression of cyclooxygenase-2 (Cox-2). Here we investigated the underlying mechanisms leading to Cox-2 expression.
LPS
/IFN-gamma/NMMA prestimulation activated nuclear factor (NF)-kappaB and promoted Cox-2 expression. Cox-2 induction by low-dose GSNO demanded activation of both NF-kappaB and activator protein-1 (AP-1). NF-kappaB supershift analysis implied an active p50/p65 heterodimer, and a luciferase reporter construct, containing four copies of the NF-kappaB site derived from the murine Cox-2 promoter, confirmed NF-kappaB activation after NO addition. An NF-kappaB decoy approach abrogated not only Cox-2 expression after low-dose NO or after
LPS
/IFN-gamma/NMMA but also inducible protection. The importance of AP-1 for Cox-2 expression and cell protection by low-level NO was substantiated by using the
extracellular signal-regulated kinase
inhibitor PD98059, blocking NO-elicited Cox-2 expression, but leaving the cytokine signal unaltered. Transient transfection of a dominant-negative c-Jun mutant further attenuated Cox-2 expression by low-level NO. Whereas cytokine-mediated Cox-2 induction relies on NF-kappaB activation, a low-level NO-elicited Cox-2 response required activation of both NF-kappaB and AP-1.
...
PMID:NF-kappaB and AP-1 activation by nitric oxide attenuated apoptotic cell death in RAW 264.7 macrophages. 995 Jun 82
Mycoplasma fermentans-derived membrane lipoproteins (LAMPf) have been demonstrated to stimulate monocytic cells and to induce the secretion of proinflammatory cytokines by a mechanism involving the triggering of protein tyrosine kinase and
mitogen-activated protein kinase
cascades. Herein, we have examined the effects of LAMPf on the activation of a series of transcription factors potentially involved in cytokine gene expression. LAMPf was capable of inducing NF-kappa B, activated protein 1 (AP-1), and c-fos activation in macrophages and of stimulating NF-kappa B and AP-1 transactivation. Furthermore, we have delineated the contribution of each
mitogen-activated protein kinase
pathway to the LAMPf-mediated activation of AP-1, c-fos, and NF-kappa B. Whereas the selective
extracellular signal-regulated kinase
pathway inhibitor PD-98059 did not affect the LAMPf-mediated transactivation of AP-1, c-fos, or NF-kappa B, the specific p38 inhibitor SB203580 abrogated this activity. A
c-Jun N-terminal kinase
-dominant negative was shown to block the activation of AP-1 without altering NF-kappa B or c-fos activation by LAMPf. In addition, D609, a selective inhibitor of phosphatidylcholine-specific phospholipase C, was shown to block both translocation and transactivation of either NF-kappa B or AP-1 in response to LAMPf. Although LAMPf-mediated macrophage activation is CD14 independent, we could not distinguish between the intracellular mechanisms leading to the macrophage activation triggered by either
LPS
or LAMPf. This suggests that macrophages display a common signaling machinery leading to the secretion of proinflammatory cytokines in response to different bacterial products. The comprehension of these mechanisms may help to better understanding the bacterial pathogenesis and to elucidate general mechanisms of macrophage activation leading to cytokine secretion.
...
PMID:Signal transduction pathways involved in the activation of NF-kappa B, AP-1, and c-fos by Mycoplasma fermentans membrane lipoproteins in macrophages. 997 95
Kinases mediating phosphorylation and activation of cytosolic phospholipase A2 (cPLA2) in intact cells remain to be fully characterized. Platelet-activating factor stimulation of human neutrophils increases cPLA2 phosphorylation. This increase is inhibited by PD 98059, a mitogen-activated protein (MAP)/extracellular signal-regulating kinase (erk) 1 inhibitor, but not by SB 203580, a p38 MAP kinase inhibitor, indicating that this action is mediated through activation of the p42
MAP kinase
(erk2). However, platelet-activating factor-induced arachidonic acid release is inhibited by both PD 98059 and SB 203580. Stimulation by TNF-alpha increases cPLA2 phosphorylation, which is inhibited by SB 203580, but not PD 98059, suggesting a role for p38 MAP kinase.
LPS
increases cPLA2 phosphorylation and arachidonic acid release. However, neither of these actions is inhibited by either PD 98059 or SB 203580. PMA increases cPLA2 phosphorylation. This action is inhibited by PD 98059 but not SB 203580. Finally, FMLP increases cPLA2 phosphorylation and arachidonic acid release. Interestingly, while the FMLP-induced phosphorylation of cPLA2 is not affected by the inhibitors of the p38 MAP kinase or erk cascades, both inhibitors significantly decrease arachidonic acid release stimulated by FMLP. SB 203580 or PD 98059 has no inhibitory effects on the activity of coenzyme A-independent transacylase.
...
PMID:Phosphorylation of cytosolic phospholipase A2 and the release of arachidonic acid in human neutrophils. 997 12
A critical feature of sepsis-induced acute lung injury is the release of cytokines from endotoxin (
LPS
)- stimulated alveolar macrophages (AM).
LPS
is also known to activate various members of the mitogen- activated protein kinase (MAPK) family in other types of cells. In this study, we evaluated whether multiple members of the MAPK family regulate cytokine gene expression in
LPS
-stimulated AM. We found that
LPS
activates both the
extracellular signal-regulated kinase
(Erk) and p38 kinases, and that this activation is augmented when the cells are cultured in serum. Inhibition of either the Erk (with PD98059) or p38 (with SB203580) kinase pathway resulted in only a partial reduction in cytokine (interleukin-6 and tumor necrosis factor) messenger RNA accumulation and cytokine release, whereas inhibition of both pathways simultaneously resulted in a decrease in cytokine gene expression to near-control levels. Nuclear run-on assays showed that the effect of these MAPK pathways on
LPS
-induced expression of the cytokine genes was attributable, at least in part, to regulation of gene transcription. These findings suggest that activation of both the Erk and p38 kinase pathways is necessary for optimal cytokine gene expression in
LPS
-stimulated human AM, and that the MAPK pathways play a critical role in the inflammatory response that occurs in sepsis-induced acute lung injury.
...
PMID:Both Erk and p38 kinases are necessary for cytokine gene transcription. 1010 Oct 8
Four p38 mitogen-activated protein kinases (p38alpha, beta, gamma, delta) have been described. To understand the role of p38 family members in inflammation, we determined their relative expression in cells that participate in the inflammatory process. Expression was measured at the level of mRNA by reverse-transcriptase PCR and protein by Western blot analysis. p38alpha was the dominant form of p38 in monocytes; expression of
p38delta
was low and p38beta was undetected. In macrophages, p38alpha and
p38delta
were abundant, but p38beta was undetected. p38alpha and
p38delta
were also expressed by neutrophils, CD4+ T cells, and endothelial cells. Again, p38beta was not detected in neutrophils, although low amounts were present in CD4+ T cells. In contrast, p38beta was abundant in endothelial cells. p38gamma protein was not detected in any cell type, although p38gamma mRNA was present in endothelial cells. Immunokinase assays showed a strong activation of p38alpha and a lesser activation of
p38delta
in
LPS
-stimulated macrophages. Abs specific for mono- and dual-phophorylated forms of p38 suggested that
LPS
induces dual phosphorylation of p38alpha, but primarily mono-phosphorylation of
p38delta
. IL-1beta activated p38alpha and p38beta in endothelial cells. However, p38alpha was the more activated form based on kinase assays and phosphorylation analysis. Expression and activation patterns of p38alpha in macrophages and endothelial cells suggest that p38alpha plays a major role in the inflammatory response. Additional studies will be needed to define the contribution of
p38delta
to macrophage, neutrophil, and T cell functions, and of p38beta to signaling in endothelial cells and T cells.
...
PMID:Differential expression and activation of p38 mitogen-activated protein kinase alpha, beta, gamma, and delta in inflammatory cell lineages. 1020 54
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