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Query: EC:2.7.10.2 (
focal adhesion kinase
)
44,029
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Protein-tyrosine kinases (PTKs) of the JAK family have been characterized on the basis of their ability to mediate the rapid induction of transcription of interferon-responsive genes through the stimulation of a class of latent cytoplasmic transcription factors known as signal transducers and activators of transcription (STATs).
STAT
activation, which has been described as being Ras-independent, requires tyrosine phosphorylation, but
STAT
transactivating activity is enhanced by phosphorylation on serine as well, probably by extracellular signal-regulated kinase/mitogen-activated protein kinase(s) (ERK/MAPK). STATs can be activated upon binding of ligands to receptor PTKs, to G-protein-linked receptors, and to cytokine receptors. Whether JAKs are required for the activation of signaling pathways other than that leading to
STAT
activation is not known. The binding of growth hormone (GH) to its receptor (GHR) activates
JAK2
and STATs as well as ERK/MAP kinases. We have used a transient transfection system in 293 cells to evaluate the requirement for
JAK2
in the activation of ERK2/MAPK by GH. We found that
JAK2
is required for GH-simulated activation of ERK2/MAPK. Employing the transient expression of dominant negative forms of H-Ras and Raf-1, we determined that the GHR/
JAK2
-mediated activation of ERK2/MAPK is dependent on both Ras and Raf. Thus, JAK protein-tyrosine kinases may represent a common component in the activation of the ERK2/MAPK and
STAT
signaling pathways, which appear to bifurcate upstream of Ras activation but converge with ERK/MAPK phosphorylation of STATs.
...
PMID:JAK2, Ras, and Raf are required for activation of extracellular signal-regulated kinase/mitogen-activated protein kinase by growth hormone. 853 33
The growth hormone receptor (GHR) belongs to the superfamily of transmembrane proteins that includes the prolactin receptor and a number of cytokine receptors. Two forms exist for the GHR: the full-length membrane-bound human receptor is a protein of 620 amino acids with a single transmembrane region; and the GH binding protein (GHBP) is a short soluble from corresponding to the extracellular domain of the full-length receptor. In rodents, GHBP is encoded by a specific mRNA of 1.2-1.5 kb, whereas in man and other species GHBP is believed to result from proteolytic cleavage of the membrane receptor. Growth hormone binding protein prolongs the half-life of GH but other functions for GHBP remain to be demonstrated. Recombinant GHBP complexed to human GH shows a 2:1 stoichiometric crystal structure. Growth hormone-induced dimerization of the cell surface GHR appears to be a prerequisite for biological activity of the hormone.
JAK2
has been identified as a tyrosine kinase associated with GHR and other receptors of the superfamily. Binding of GH to its receptor results in dimerization of the GHR, phosphorylation of
JAK2
and of the GHR. Other substrates for
JAK2
have to be identified. Transcription factors belonging to the
STAT
(signal transducers and activators of transcriptions) family are involved in the transcriptional effects of GH. The activity of mutants of the GHR has been measured in functional tests to identify sequences of the cytoplasmic domain of the receptor that are important for signal transduction. A proline-rich sequence, called Box I, conserved among members of the receptor family has been shown to be crucial for GH effects on gene transcription. MAP kinase activity and cell proliferation. The C-terminal region of the GHR is required for tyrosine phosphorylation of the receptor and for a hormonal effect on gene transcription, whereas only 46 membrane proximal amino acids of the cytoplasmic domain are necessary for activation of
JAK2
and transduction of the GH proliferative signal. Much work remains to be done to identify other protein kinases and signalling molecules involved in the mechanism of action of GH.
...
PMID:Growth hormone receptor: structure and signal transduction. 854 48
It is well established that the two major glial cells in the central nervous system (CNS), astrocytes and microglia, are key participants in mediating the neurologic dysfunction associated with HIV infection of the CNS. In this study, we investigated the ability of the major envelope glycoprotein of HIV, glycoprotein 120 (gp120), to regulate intercellular adhesion molecule-1 (ICAM-1) expression in glial cells, because ICAM-1 is important in mediating immune responsiveness in the CNS, facilitating entry of HIV-infected cells into the CNS, and promoting syncytia formation. Our results indicate that gp120 enhances ICAM-1 gene expression in primary rat astrocytes, primary human astrocytes, a human astroglioma cell line CRT, and primary rat microglia. The signal transduction events involved in gp120-mediated enhancement of ICAM-1 appear to involve activation of both protein kinase C and tyrosine kinase, because inhibitors of protein kinase C and tyrosine kinase abrogate gp120-mediated ICAM-1 expression in both astrocytes and microglia. Moreover, gp120 induces tyrosine phosphorylation of signal transducer and activator of transcription (
STAT
-1 alpha) as well as the Janus kinase (
JAK2
) in glial cells. We also demonstrate that gp120-mediated ICAM-1 expression has functional significance, as it enhances the ability of monocytic cells to bind to gp120-stimulated human astrocytes in an ICAM-1/beta 2 integrin-dependent fashion. These results provide new insights into how gp120 can influence the involvement of glial cells in the pathogenesis of AIDS dementia complex.
...
PMID:HIV glycoprotein 120 enhances intercellular adhesion molecule-1 gene expression in glial cells. Involvement of Janus kinase/signal transducer and activator of transcription and protein kinase C signaling pathways. 855 11
A number of cytokines and growth factors use the JAK-
STAT
pathway to signal from the cell membrane to the nucleus. While homodimerizing cytokine receptors may transmit signal via a single form of JAK (i.e. growth hormone receptors), several multicomponent cytokine receptors have been shown to require simultaneous activation of pairs of different JAK kinases (i.e. interferon receptors). Recent evidence for a preferential coupling of
JAK3
to interleukin-2 receptor-gamma (IL-2R gamma) and
JAK1
to IL-2R beta supports the concept of heterotrans-activation of
JAK1
and
JAK3
caused by IL-2-induced heterodimerization of their receptor partners. The present study verified the ability of IL-2 to cause tyrosine phosphorylation and activation of
JAK1
and
JAK3
, but demonstrated that IL-2 stimulated
JAK3
to a significantly larger extent than
JAK1
in human T lymphocytes and the YT cell line. This conclusion was based upon several independent criteria, including more vigorous tyrosine phosphorylation of
JAK3
, more marked enzymatic activation of
JAK3
as well as higher abundance of
JAK3
in activated IL-2 receptor complexes. Furthermore, when human IL-2R beta was stably expressed in murine BA/F3 cells, robust IL-2-induced proliferation and
JAK3
activation occurred without detectable involvement of either
JAK1
,
JAK2
or
TYK2
. We therefore propose that IL-2 receptor signal transduction does not depend on equimolar heterodimerization of
JAK1
and
JAK3
following IL-2-induced heterodimerization of IL-2R beta and IL-2R gamma. Nonetheless, a membrane-proximal region of human IL-2R beta (Asn240-Leu335) was critical for
JAK3
activation, and the amount of
JAK3
present in activated IL-2 receptor complexes increased with time, suggesting that stabilization of
JAK3
binding to the receptor complex relies on both IL-2R beta and IL-2R gamma. Moreover, STAT5 was found to be the predominant
STAT
transcription factor used by IL-2 in human T cells, and specifically required a COOH-terminal region of IL-2R beta (Ser386-Val525), while STAT5 recruitment was not correlated to activation of IL-2R gamma or
JAK3
.
...
PMID:Activation of JAK3, but not JAK1, is critical for IL-2-induced proliferation and STAT5 recruitment by a COOH-terminal region of the IL-2 receptor beta-chain. 858 Mar 78
A number of cytokines have been shown to exert their effects via a recently discovered signaling cascade. One step in this pathway is mediated by a family of nonreceptor protein tyrosine kinases, the Janus kinases or JAK kinases, which become phosphorylated upon ligand-receptor binding and receptor phosphorylation. This in turn is followed by phosphorylation of certain members of a family of latent transcription factors, called signal transducers and activators of transcription (STATs), which subsequently enter the nucleus, bind to DNA in a sequence-specific fashion, and modulate transcription. In view of the apparent role of leukemia inhibitory factor (LIF) in bone remodeling, we sought to determine which, if any, of the JAK/
STAT
family members are involved in mediating the actions of LIF using the MC3T3-E1 cell line (a spontaneously immortalized osteoblast) and normal murine calvarial osteoblasts. We report here rapid and transient phosphorylation of the LIF receptor, and similarly, we detect phosphorylation of predominantly
JAK1
and to a minor extent
JAK2
in response to LIF treatment in MC3T3-E1 cells. In these experiments we also detect phosphorylation of STAT1 and to a much lesser degree STAT3 upon addition of LIF. Phosphorylation of the STAT1 proteins correlates directly with their ability to bind DNA in a gel mobility shift assay in MC3T3-E1 and in normal calvarial osteoblasts. These studies suggest that LIF action in these cells, as in other cell types, is mediated in part via specific members of the JAK/
STAT
pathway.
...
PMID:Leukemia inhibitory factor as a mediator of JAK/STAT activation in murine osteoblasts. 859 40
The binding of growth hormone leads to dimerization of its receptor, accompanied by phosphorylation and activation of intracellular tyrosine kinases (JAKs) and the latent cytoplasmic transcriptions factors STAT1, STAT3, and STAT5. Both
JAK1
and
JAK2
are phosphorylated in response to growth hormone in mouse 3T3 F442A and human HT1080 cells. The roles of JAKs in growth hormone signal transduction were examined by using mutant HT1080 cells missing either
JAK1
or
JAK2
.
JAK2
is absolutely required for growth hormone-dependent phosphorylation of the receptor, STAT1 and STAT3,
JAK1
, and the SH2-containing adaptor molecule Shc. In contrast,
JAK1
is not required for any of the above functions. These data indicate that
JAK2
is both necessary and sufficient for the growth hormone-dependent phosphorylation events required to couple the receptor both to
STAT
-dependent signaling pathways and to pathways involving Shc. Furthermore, STAT5 is activated by growth hormone in 3T3 F442A cells, but not in HT1080 cells, revealing that the set of STATs activated by growth hormone can vary, possibly contributing to the specificity of the growth hormone response in different cell types.
...
PMID:Participation of JAK and STAT proteins in growth hormone-induced signaling. 862 69
It has been described that interleukin 3 (IL3) activates
JAK2
, which in turn stimulates STAT5 activation. We found, however, that IL3 induces tyrosine-phosphorylation of Tyk2 as well as
JAK2
in IL3-dependent mouse cell lines, FDC-P2 and Ba/F3. Furthermore, we found that IL3 induces activation of not only STAT5 but also STAT1 and STAT3. Taken together with other observations, these results indicate that IL3, erythropoietin and thrombopoietin share a common JAK-
STAT
signaling pathway.
...
PMID:Interleukin 3 activates not only JAK2 and STAT5, but also Tyk2, STAT1, and STAT3. 863 39
The receptor-associated protein tyrosine kinases
JAK1
and
JAK2
are both required for the interferon (IFN)-gamma response. The effects of expressing kinase-negative JAK mutant proteins on signal transduction in response to IFN-gamma in wild-type cells and in mutant cells lacking either
JAK1
or
JAK2
have been analysed. In cells lacking endogenous
JAK1
the expression of a transfected kinase-negative
JAK1
can sustain substantial IFN-gamma-inducible gene expression, consistent with a structural as well as an enzymic role for
JAK1
. Kinase-negative
JAK2
, expressed in cells lacking endogenous
JAK2
, cannot sustain IFN-gamma-inducible gene expression, despite low level activation of STAT1 DNA binding activity. When expressed in wild-type cells, kinase-negative
JAK2
acts as a dominant-negative inhibitor of the IFN-gamma response. Further analysis of the JAK/
STAT
pathway suggests a model for the IFN-gamma response in which the initial phosphorylation of
JAK1
and
JAK2
is mediated by
JAK2
, whereas phosphorylation of the IFN-gamma receptor is normally carried out by
JAK1
. The efficient phosphorylation of
STAT
1 in the receptor-JAK complex may again depend on
JAK2
. Interestingly, a
JAK1
-dependent signal, in addition to STAT1 activation, appears to be required for the expression of the antiviral state.
...
PMID:Kinase-negative mutants of JAK1 can sustain interferon-gamma-inducible gene expression but not an antiviral state. 863 1
Bcr/Abl is a chimeric oncogene that can cause both acute and chronic human leukemias. Bcr/Abl-encoded proteins exhibit elevated kinase activity compared to c-Abl, but the mechanisms of transformation are largely unknown. Some of the biological effects of Bcr/Abl overlap with those of hematopoietic cytokines, particularly interleukin 3 (IL-3). Such effects include mitogenesis, enhanced survival, and enhanced basophilic differentiation. Therefore, it has been suggested that p210Bcr/Abl and the IL-3 receptor may activate some common signal transduction pathways. An important pathway for IL-3 signaling involves activation of the Janus family kinases (JAKs) and subsequent tyrosyl phosphorylation of
STAT
proteins (signal transducers and activators of transcription). This pathway directly links growth factor receptors to gene transcription. We analyzed JAK activation,
STAT
protein phosphorylation, and the formation of specific DNA-binding complexes containing
STAT
proteins, in a series of leukemia cell lines transformed by Bcr/Abl or other oncogenes. We also examined these events in cell lines transformed by a temperature sensitive (ts) mutant of Bcr/Abl, where the kinase activity of Abl could be regulated. STAT1 and STAT5 were found to be constitutively phosphorylated in 32D, Ba/F3, and TF-1 cells transformed by Bcr/Abl, but not in the untransformed parental cell lines in the absence of IL-3. Phosphorylation of STAT1 and STAT5 was also observed in the human leukemia cell lines K562 and BV173, which express the Bcr/Abl oncogene, but not in several Bcr/Abl-negative leukemia cell lines. Phosphorylation of STAT1 and STAT5 was directly due to the tyrosine kinase activity of Bcr/Abl since it could be activated or deactivated by temperature shifting of cells expressing the Bcr/Abl ts mutant. DNA-
STAT
complexes were detected in all Bcr/Abl-transformed cell lines and they were supershifted by antibodies against STAT1 and STAT5. DNA-
STAT
complexes in 32Dp210Bcr/Abl cells were similar, but not identical, to those formed after IL-3 stimulation. It is interesting to note that JAK kinases (
JAK1
,
JAK2
,
JAK3
, and Tyk2) were not consistently activated in Bcr/Abl-positive cells. These data suggest that STATs can be activated directly by Bcr/Abl, possibly bypassing JAK family kinase activation. Overall, our results suggest a novel mechanism that could contribute to some of the major biological effects of Bcr/Abl transformation.
...
PMID:Tyrosyl phosphorylation and DNA binding activity of signal transducers and activators of transcription (STAT) proteins in hematopoietic cell lines transformed by Bcr/Abl. 864 85
Receptors for interferons and other cytokines signal through the action of associated protein tyrosine kinases of the JAK family and latent cytoplasmic transcription factors of the
STAT
family. Genetic and biochemical analysis of interferon signaling indicates that activation of STATs by interferons requires two distinct JAK family kinases. Loss of either of the required JAKs prevents activation of the other JAK and extinguishes
STAT
activation. These observations suggest that JAKs provide interferon receptors with a critical catalytic signaling function and that at least two JAKs must be incorporated into an active receptor complex. JAK and
STAT
proteins are also activated by ligands such as platelet-derived growth factor (PDGF), which act through receptors that possess intrinsic protein tyrosine kinase activity, raising questions about the role of JAKs in signal transduction by this class of receptors. Here, we show that all three of the ubiquitously expressed JAKs--
JAK1
,
JAK2
, and Tyk2--become phosphorylated on tyrosine in both mouse BALB/c 3T3 cells and human fibroblasts engineered to express the PDGF-beta receptor. All three proteins are also associated with the activated receptor. Through the use of cell lines each lacking an individual JAK, we find that in contrast to interferon signaling, PDGF-induced JAK phosphorylation and activation of STAT1 and STAT3 is independent of the presence of any other single JAK but does require receptor tyrosine kinase activity. These results suggests that the mechanism of JAK activation and JAK function in signaling differs between receptor tyrosine kinases and interferon receptors.
...
PMID:Platelet-derived growth factor induces phosphorylation of multiple JAK family kinases and STAT proteins. 865 51
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