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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)
Growth factor-dependent kinases, such as phosphatidylinositol 3-kinase (PI 3-kinase) and Raf kinases, have been implicated in the suppression of apoptosis. We have recently established Rat-1 fibroblast cell lines overexpressing
B-Raf
, leading to activation of the MEK/Erk
mitogen-activated protein kinase
pathway. Overexpression of
B-Raf
confers resistance to apoptosis induced by growth factor withdrawal or PI 3-kinase inhibition. This is accompanied by constitutive activation of Erk without effects on the PI 3-kinase/Akt pathway. The activity of MEK is essential for cell survival mediated by
B-Raf
overexpression, since either treatment with the specific MEK inhibitor PD98059 or expression of a dominant inhibitory MEK mutant blocks the antiapoptotic activity of
B-Raf
. Activation of MEK is not only necessary but also sufficient for cell survival because overexpression of constitutively activated MEK, Ras, or Raf-1, like
B-Raf
, prevents apoptosis after growth factor deprivation. Overexpression of
B-Raf
did not interfere with the release of cytochrome c from mitochondria after growth factor deprivation. However, the addition of cytochrome c to cytosols of cells overexpressing
B-Raf
failed to induce caspase activation. It thus appears that the
B-Raf
/MEK/Erk pathway confers protection against apoptosis at the level of cytosolic caspase activation, downstream of the release of cytochrome c from mitochondria.
...
PMID:B-Raf inhibits programmed cell death downstream of cytochrome c release from mitochondria by activating the MEK/Erk pathway. 1040 22
M-Ras is a Ras-related protein that shares approximately 55% identity with K-Ras and TC21. The M-Ras message was widely expressed but was most predominant in ovary and brain. Similarly to Ha-Ras, expression of mutationally activated M-Ras in NIH 3T3 mouse fibroblasts or C2 myoblasts resulted in cellular transformation or inhibition of differentiation, respectively. M-Ras only weakly activated extracellular signal-regulated kinase 2 (ERK2), but it cooperated with Raf, Rac, and Rho to induce transforming foci in NIH 3T3 cells, suggesting that M-Ras signaled via alternate pathways to these effectors. Although the
mitogen-activated protein kinase
/ERK kinase inhibitor, PD98059, blocked M-Ras-induced transformation, M-Ras was more effective than an activated
mitogen-activated protein kinase
/ERK kinase mutant at inducing focus formation. These data indicate that multiple pathways must contribute to M-Ras-induced transformation. M-Ras interacted poorly in a yeast two-hybrid assay with multiple Ras effectors, including c-Raf-1, A-Raf,
B-Raf
, phosphoinositol-3 kinase delta, RalGDS, and Rin1. Although M-Ras coimmunoprecipitated with AF6, a putative regulator of cell junction formation, overexpression of AF6 did not contribute to fibroblast transformation, suggesting the possibility of novel effector proteins. The M-Ras GTP/GDP cycle was sensitive to the Ras GEFs, Sos1, and GRF1 and to p120 Ras GAP. Together, these findings suggest that while M-Ras is regulated by similar upstream stimuli to Ha-Ras, novel targets may be responsible for its effects on cellular transformation and differentiation.
...
PMID:M-Ras/R-Ras3, a transforming ras protein regulated by Sos1, GRF1, and p120 Ras GTPase-activating protein, interacts with the putative Ras effector AF6. 1044 49
Mitogenic signaling involves protein kinases that phosphorylate the
mitogen-activated protein kinase
(
MAPK
) activator, MEK. In rats, basal hepatic MEK kinase activity is low in vivo in both adult rats and late gestation fetal rats, and is markedly stimulated by intraperitoneal administration of epidermal growth factor (EGF). The level of stimulated MEK phosphorylating activity is approximately 15 times higher in fetal liver than in adult liver. To identify regulated forms of the two categories of MEK kinase, Raf and MEKK, Western immunoblotting, immunoprecipitation kinase assays and immunodepletion studies were performed. Western immunoblotting confirmed that Raf-1, A-Raf,
B-Raf
, MEKK1 and MEKK2 were present at similar levels in E19 and adult liver. However, specific immunoprecipitation kinase assays did not detect any kinases that could account for marked EGF sensitivity or the higher level of activity in E19 fetuses. Immunodepletion studies produced a marked reduction in immunoreactive Raf/MEKK content and activity, but a minimal decrease in the ability of chromatography fractions to phosphorylate and activate recombinant MEK-1. Our results indicate that hepatic, EGF-sensitive MEK kinase activity may reside with a previously unidentified and physiologically relevant form of Raf and/or MEKK.
...
PMID:Hepatic epidermal growth factor-regulated mitogen-activated protein kinase kinase kinase activity in the rat: lack of identity with known forms of raf and MEKK. 1064 42
Activity-dependent regulation of neuronal events such as cell survival and synaptic plasticity is controlled by increases in neuronal calcium levels. These actions often involve stimulation of intracellular kinase signaling pathways. For example, the
mitogen-activated protein kinase
, or
extracellular signal-regulated kinase
(
ERK
), signaling cascade has increasingly been shown to be important for the induction of gene expression and long term potentiation. However, the mechanisms leading to
ERK
activation by neuronal calcium are still unclear. In the present study, we describe a protein kinase A (PKA)-dependent signaling pathway that may link neuronal calcium influx to ERKs via the small G-protein, Rap1, and the neuronal Raf isoform,
B-Raf
. Thus, in PC12 cells, depolarization-mediated calcium influx led to the activation of
B-Raf
, but not Raf-1, via PKA. Furthermore, depolarization also induced the PKA-dependent stimulation of Rap1 and led to the formation of a Rap1/
B-Raf
signaling complex. In contrast, depolarization did not lead to the association of Ras with
B-Raf
. The major action of PKA-dependent Rap1/
B-Raf
signaling in neuronal cells is the activation of ERKs. Thus, we further show that, in both PC12 cells and hippocampal neurons, depolarization-induced calcium influx stimulates
ERK
activity in a PKA-dependent manner. Given the fact that both Rap1 and
B-Raf
are highly expressed in the central nervous system, we suggest that this signaling pathway may regulate a number of activity-dependent neuronal functions.
...
PMID:Neuronal calcium activates a Rap1 and B-Raf signaling pathway via the cyclic adenosine monophosphate-dependent protein kinase. 1065 72
A number of Raf-associated proteins have recently been identified, including members of the 14-3-3 family of phosphoserine-binding proteins. Although both positive and negative regulatory functions have been ascribed for 14-3-3 interactions with Raf-1, the mechanisms by which 14-3-3 binding modulates Raf activity have not been fully established. We report that mutational disruption of 14-3-3 binding to the
B-Raf
catalytic domain inhibits
B-Raf
biological activity. Expression of the isolated
B-Raf
catalytic domain (B-Rafcat) induces PC12 cell differentiation in the absence of nerve growth factor. By contrast, the B-Rafcat 14-3-3 binding mutant, B-Rafcat S728A, was severely compromised for the induction of PC12 cell differentiation. Interestingly, the B-Rafcat 14-3-3 binding mutant retained significant in vitro catalytic activity. In Xenopus oocytes, the analogous full-length
B-Raf
14-3-3 binding mutant blocked progesterone-stimulated maturation and the activation of endogenous mitogen-activated protein kinase kinase and
mitogen-activated protein kinase
. Similarly, the full-length
B-Raf
14-3-3 binding mutant inhibited nerve growth factor-stimulated PC12 cell differentiation. We conclude that 14-3-3 interaction with the catalytic domain is not required for kinase activity per se but is essential to couple
B-Raf
catalytic activity to downstream effector activation.
...
PMID:Disruption of the 14-3-3 binding site within the B-Raf kinase domain uncouples catalytic activity from PC12 cell differentiation. 1066 May 30
Brain-derived neurotrophic factor contributes profoundly to modulate activity-dependent synaptic plasticity in adult brain areas such as the hippocampus, but the mechanisms underlying this important role still remain unclear. Recently, we have shown that two serine/threonine kinases, calcium/calmodulin-dependent protein kinase-2 and casein kinase-2, are capable of mediating brain-derived neurotrophic factor responses in adult rat hippocampus. In the present study, using hippocampal slices from adult rat, we show that phospholipase C-regulated calcium signals couple the brain-derived neurotrophic factor receptor to two distinct pathways: a pathway in which calcium/calmodulin-dependent protein kinase-2 stimulates a signalling module involving the p38 subfamily of mitogen-activated protein kinases and its downstream target, usually named
mitogen-activated protein kinase
-activated protein kinase-2; and a pathway in which the
extracellular signal-regulated kinase
subfamily of mitogen-activated protein kinases activates casein kinase-2. Our results suggest that: (i)
extracellular signal-regulated kinase
is activated by
B-Raf
in response to a calcium-sensitive adenylate cyclase; and (ii)
extracellular signal-regulated kinase
activates casein kinase-2 via a protein phosphatase(s) that may be of the PP1 and/or PP2A type. Interestingly, we also show that neurotrophin-induced activation of the two signalling cascades promotes a sustained activation of
mitogen-activated protein kinase
-activated protein kinase-2 and casein kinase-2 in slices. Considering the ability of these two kinases to be persistently activated, and that most of the protein kinases which lie in these pathways are believed to be important for multiple events underlying neuronal plasticity, it is suggested that the mechanisms described here might contribute both to rapid synaptic changes through local effects and to long-lasting synaptic responses through new gene transcription in the hippocampus.
...
PMID:Identification of two persistently activated neurotrophin-regulated pathways in rat hippocampus. 1067 Apr 37
We have shown previously in the developing cerebral cortex that estrogen elicits the rapid and sustained activation of multiple signaling proteins within the mitogen-activated protein (MAP) kinase cascade, including
B-Raf
and
extracellular signal-regulated kinase
(
ERK
). Using estrogen receptor (ER)-alpha gene-disrupted (ERKO) mice, we addressed the role of ER-alpha in mediating this action of estrogen in the brain. 17beta-Estradiol increased
B-Raf
activity and MEK (
MAP kinase
/
ERK
kinase)-dependent
ERK
phosphorylation in cerebral cortical explants derived from both ERKO and their wild-type littermates. The
ERK
response was stronger in ERKO-derived cultures but, unlike that of wild-type cultures, was not blocked by the estrogen receptor antagonist ICI 182,780. Surprisingly, both the ER-alpha selective ligand 16alpha-iodo-17beta-estradiol and the ER-beta selective ligand genistein failed to elicit
ERK
phosphorylation, suggesting that a different mechanism or receptor may mediate estrogen-induced
ERK
phosphorylation in the cerebral cortex. Interestingly, the transcriptionally inactive stereoisomer 17alpha-estradiol did elicit a strong induction of
ERK
phosphorylation, which, together with the inability of the ER-alpha- and ER-beta-selective ligands to elicit
ERK
phosphorylation, and of ICI 182,780 to block the actions of estradiol in ERKO cultures, supports the hypothesis that a novel, estradiol-sensitive and ICI-insensitive estrogen receptor may mediate 17beta-estradiol-induced activation of
ERK
in the brain.
...
PMID:Estrogen-induced activation of the mitogen-activated protein kinase cascade in the cerebral cortex of estrogen receptor-alpha knock-out mice. 1068 71
We demonstrated that ECS activates the kinase activity of
B-Raf
and Raf-1 in the rat hippocampus. The activity was maximal at one minute after ECS and temporally coincided with the increased membrane translocation of Rafs and the reported activity of
MAPK
, but not with the phosphorylation of Rafs.
...
PMID:The activation of B-Raf and Raf-1 after electroconvulsive shock in the rat hippocampus. 1072 91
Many receptors coupled to the pertussis toxin-sensitive G(i/o) proteins stimulate the
mitogen-activated protein kinase
(
MAPK
) pathway. The role of the alpha chains of these G proteins in
MAPK
activation is poorly understood. We investigated the ability of Galpha(o) to regulate
MAPK
activity by transient expression of the activated mutant Galpha(o)-Q205L in Chinese hamster ovary cells. Galpha(o)-Q205L was not sufficient to activate
MAPK
but greatly enhanced the response to the epidermal growth factor (EGF) receptor. This effect was not associated with changes in the state of tyrosine phosphorylation of the EGF receptor. Galpha(o)-Q205L also potentiated
MAPK
stimulation by activated Ras. In Chinese hamster ovary cells, EGF receptors activate
B-Raf
but not Raf-1 or A-Raf. We found that expression of activated Galpha(o) stimulated
B-Raf
activity independently of the activation of the EGF receptor or Ras. Inactivation of protein kinase C and inhibition of phosphatidylinositol-3 kinase abolished both
B-Raf
activation and EGF receptor-dependent
MAPK
stimulation by Galpha(o). Moreover, Galpha(o)-Q205L failed to affect
MAPK
activation by fibroblast growth factor receptors, which stimulate Raf-1 and A-Raf but not
B-Raf
activity. These results suggest that Galpha(o) can regulate the
MAPK
pathway by activating
B-Raf
through a mechanism that requires a concomitant signal from tyrosine kinase receptors or Ras to efficiently stimulate
MAPK
activity. Further experiments showed that receptor-mediated activation of Galpha(o) caused a
B-Raf
response similar to that observed after expression of the mutant subunit. The finding that Galpha(o) induces Ras-independent and protein kinase C- and phosphatidylinositol-3 kinase-dependent activation of
B-Raf
and conditionally stimulates
MAPK
activity provides direct evidence for intracellular signals connecting this G protein subunit to the
MAPK
pathway.
...
PMID:Activation of B-Raf and regulation of the mitogen-activated protein kinase pathway by the G(o) alpha chain. 1074 19
In melanocytes and melanoma cells, cAMP activates extracellular signal-regulated kinases (ERKs) and MEK-1 by an unknown mechanism. We demonstrate that
B-Raf
is activated by cAMP in melanocytes. A dominant-negative mutant of
B-Raf
, but not of Raf-1, blocked the cAMP-induced activation of
ERK
, indicating that
B-Raf
is the MEK-1 upstream regulator mediating this cAMP effect. Studies using Clostridium sordelii lethal toxin and Clostridium difficile toxin B have suggested that Rap-1 or Ras might transduce cAMP action. We show that Ras, but not Rap-1, is activated cell-specifically and mediates the cAMP-dependent activation of ERKs, while Rap-1 is not involved in this process in melanocytes. Our results suggest a novel, cell-specific mechanism involving Ras small GTPase and
B-Raf
kinase as mediators of
ERK
activation by cAMP. Also, in melanocytes, Ras or
ERK
activation by cAMP is not mediated through protein kinase A activation. Neither the Ras exchange factor, Son of sevenless (SOS), nor the cAMP-responsive Rap-1 exchange factor, Epac, participate in the cAMP-dependent activation of Ras. These findings suggest the existence of a melanocyte-specific Ras exchange factor directly regulated by cAMP.
...
PMID:Ras mediates the cAMP-dependent activation of extracellular signal-regulated kinases (ERKs) in melanocytes. 1085 35
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