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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)
Activation of the tyrosine kinase
JAK2
is an essential step in cellular signaling by growth hormone (GH) and multiple other hormones and cytokines. Murine
JAK2
has a total of 49 tyrosines which, if phosphorylated, could serve as docking sites for Src homology 2 (SH2) or phosphotyrosine binding domain-containing signaling molecules. Using a yeast two-hybrid screen of a rat adipocyte cDNA library, we identified a splicing variant of the SH2 domain-containing protein
SH2-B
, designated SH2-Bbeta, as a
JAK2
-interacting protein. The carboxyl terminus of SH2-Bbeta (SH2-Bbetac), which contains the SH2 domain, specifically interacts with kinase-active, tyrosyl-phosphorylated
JAK2
but not kinase-inactive, unphosphorylated
JAK2
in the yeast two-hybrid system. In COS cells coexpressing SH2-Bbeta or SH2-Bbetac and murine
JAK2
, both SH2-Bbetac and SH2-Bbeta coimmunoprecipitate to a significantly greater extent with wild-type, tyrosyl-phosphorylated
JAK2
than with kinase-inactive, unphosphorylated
JAK2
. SH2-Bbetac also binds to immunoprecipitated wild-type but not kinase-inactive
JAK2
in a far Western blot. In 3T3-F442A cells, GH stimulates the interaction of SH2-Bbeta with tyrosyl-phosphorylated
JAK2
both in vitro, as assessed by binding of
JAK2
in cell lysates to glutathione S-transferase (GST)-SH2-Bbetac or GST-SH2-Bbeta fusion proteins, and in vivo, as assessed by coimmunoprecipitation of
JAK2
with SH2-Bbeta. GH promoted a transient and dose-dependent tyrosyl phosphorylation of SH2-Bbeta in 3T3-F442A cells, further suggesting the involvement of SH2-Bbeta in GH signaling. Consistent with SH2-Bbeta being a substrate of
JAK2
, SH2-Bbetac is tyrosyl phosphorylated when coexpressed with wild-type but not kinase-inactive
JAK2
in both yeast and COS cells. SH2-Bbeta was also tyrosyl phosphorylated in response to gamma interferon, a cytokine that activates
JAK2
and
JAK1
. These data suggest that GH-induced activation and phosphorylation of
JAK2
recruits SH2-Bbeta and its associated signaling molecules into a GHR-
JAK2
complex, thereby initiating some as yet unidentified signal transduction pathways. These pathways are likely to be shared by other cytokines that activate
JAK2
.
...
PMID:Identification of SH2-Bbeta as a substrate of the tyrosine kinase JAK2 involved in growth hormone signaling. 934 27
During the past 4 years, significant progress has been made in elucidating the earliest events following binding of ligands to members of the cytokine receptor superfamily. This is a rapidly growing family of receptors that currently includes receptors for growth hormone (GH); prolactin; erythropoeitin; granulocyte colony-stimulating factor; granulocyte macrophage colony-stimulating factor; interleukin(IL)s 2-7, 9-13, 15; interferon (IFN)-alpha, beta, and gamma; thrombopoietin; leptin; oncostatin M; leukemia inhibitory factor (LIF); ciliary neurotrophic factor; and cardiotropin-1. Despite their diverse physiological effects in the body, ligands that bind to members of this family share multiple signaling pathways. An early and most likely initiating event for all of them is the activation of one or more members of the Janus (or JAK) family of tyrosine kinases. The activated JAK kinases, which form a complex with the cytokine receptor subunits, phosphorylate themselves as well as the receptor. These phosphorylated tyrosines form binding sites for various signaling molecules that are themselves thought to be phosphorylated by JAK kinases, including 1) signal transducers and activators of transcription (Stats), which regulate transcription; 2) She proteins that recruit Grb2-SOS complexes, thereby initiating the Ras-MAP kinase pathway; and 3) insulin receptor substrate (IRS) proteins that are thought to regulate metabolic events in the cell. Additional other signaling molecules have been implicated in signaling by some cytokines, including protein kinase C,
SH2-B
beta, and intracellular Ca. This review uses the GH receptor as a model system for studying cytokine signaling and summarizes some of the data used to establish
JAK2
as a GH receptor-associated tyrosine kinase and to identify signaling molecules that lie downstream of
JAK2
. Since these pathways are shared by multiple cytokines, this review also discusses factors that might contribute to specificity of response to different cytokines.
...
PMID:Signaling via JAK tyrosine kinases: growth hormone receptor as a model system. 976 3
SH2-Bbeta has been shown to bind via its SH2 (Src homology 2) domain to tyrosyl-phosphorylated
JAK2
and strongly activate
JAK2
. In this study, we demonstrate the existence of an additional binding site(s) for
JAK2
within the N-terminal region of SH2-Bbeta (amino acids 1 to 555) and the ability of this region of
SH2-B
to inhibit
JAK2
. Four lines of evidence support the existence of this additional binding site(s). In a glutathione S-transferase pull-down assay, wild-type SH2-Bbeta and SH2-Bbeta(R555E) with a defective SH2 domain bind to both tyrosyl-phosphorylated
JAK2
from growth hormone (GH)-treated cells and non-tyrosyl-phosphorylated
JAK2
from control cells, whereas the SH2 domain of SH2-Bbeta binds only to tyrosyl-phosphorylated
JAK2
from GH-treated cells. Similarly,
JAK2
is present in alphaSH2-B immunoprecipitates in the absence and presence of GH, with GH substantially increasing the coprecipitation of
JAK2
with
SH2-B
. When coexpressed in COS cells, SH2-Bbeta coimmunoprecipitates not only wild-type, tyrosyl-phosphorylated
JAK2
but also kinase-inactive, non-tyrosyl-phosphorylated
JAK2
(K882E), although to a lesser extent. DeltaC555 (amino acids 1 to 555 of SH2-Bbeta) that lacks most of the SH2 domain binds similarly to wild-type
JAK2
and kinase-inactive
JAK2
(K882E). Experiments using a series of N- and C-terminally truncated SH2-Bbeta constructs indicate that the pleckstrin homology (PH) domain (amino acids 269 to 410) and amino acids 410 to 555 are necessary for maximal binding of SH2-Bbeta to inactive
JAK2
, but neither region alone is sufficient for maximal binding. The SH2 domain of SH2-Bbeta is necessary and sufficient for the stimulatory effect of SH2-Bbeta on
JAK2
and
JAK2
-mediated tyrosyl phosphorylation of Stat5B. In contrast, DeltaC555 lacking the SH2 domain, and to a lesser extent the PH domain alone, inhibits
JAK2
. DeltaC555 also blocks
JAK2
-mediated tyrosyl phosphorylation of Stat5B in COS cells and GH-stimulated nuclear accumulation of Stat5B in 3T3-F442A cells. These data indicate that in addition to the SH2 domain, SH2-Bbeta has one or more lower-affinity binding sites for
JAK2
within amino acids 269 to 555. The interaction via this site(s) in
SH2-B
with inactive
JAK2
seems likely to increase the local concentration of SH2-Bbeta around
JAK2
, thereby facilitating binding of the SH2 domain to ligand-activated
JAK2
. This would result in a more rapid and robust cellular response to hormones and cytokines that activate
JAK2
. This interaction between inactive
JAK2
and
SH2-B
may also help prevent abnormal activation of
JAK2
.
...
PMID:Differential binding to and regulation of JAK2 by the SH2 domain and N-terminal region of SH2-bbeta. 1075 1
Chronic renal failure in children results in impaired body growth. This effect is so severe in some children that not only does it have a negative impact on their self-image, but it also affects their ability to carry out normal day-to-day functions. Yet the mechanism by which chronic renal failure causes short stature is not well understood. Growth hormone (GH) therapy increases body height in prepubertal children, suggesting that a better understanding of how GH promotes body growth may lead to better insight into the impaired body growth in chronic renal failure and therefore better therapies. This review discusses what is currently known about how GH acts at a cellular level. The review discusses how GH is known to bind to a membrane-bound receptor and activate a cytoplasmic tyrosine kinase called Janus kinase (JAK) 2. The activated
JAK2
in turn phosphorylates tyrosines within itself and the associated GH receptor, forming high-affinity binding sites for a variety of signaling molecules. Examples of such signaling molecules include signal transducers and activators of transcription (Stats), which regulate the expression of a variety of GH-dependent genes, and the adapter protein Shc, which leads to activation of the Ras-Raf-MEK-MAP kinase pathway. In response to GH,
JAK2
is also known to phosphorylate the insulin receptor substrates, leading to activation of phosphatidyl inositol 3' kinase and most likely other molecules that have been implicated in the regulation of metabolism. Finally, the ability of
JAK2
to bind and activate the presumed adapter protein
SH2-B
is discussed.
SH2-B
has been shown to be a potent activator of GH-promoted
JAK2
activity and downstream signaling events. Presumably these and other pathways initiated by GH combine to result in its ability to regulate body growth and metabolism.
...
PMID:Role of the tyrosine kinase JAK2 in signal transduction by growth hormone. 1091 17
Growth hormone (GH) has long been known to be a primary determinant of body height and an important regulator of body metabolism, yet the cellular and molecular bases for these effects of GH are only beginning to be understood. In 1993, GH receptor (GHR) was first observed to bind to the tyrosine kinase
JAK2
. GH increased
JAK2
's affinity for GHR, potently activated
JAK2
, and stimulated the phosphorylation of tyrosines within
JAK2
and the cytoplasmic domain of GHR. In the intervening six years, a variety of signaling molecules have been identified that are tyrosyl phosphorylated in response to GH, presumably by the activated
JAK2
. These signaling molecules include 1) the latent cytoplasmic transcription factors--designated signal transducers and activators of transcription (Stats)--that have been implicated in the regulation of a variety of GH-dependent genes; 2) Shc proteins that lead to activation of the Ras-MAP kinase pathway: and 3) insulin receptor substrate (IRS) proteins that bind and thereby activate phosphatidylinositol 3' kinase and presumably other proteins. Recently, we have identified two additional signaling molecules for GH that bind to
JAK2
and are phosphorylated on tyrosines in response to GH:
SH2-B
and signal regulated protein (SIRP). Based upon amino acid sequence analysis,
SH2-B
is presumed to be a cytoplasmic adapter protein. It binds with high affinity via its SH2 domain to phosphorylated tyrosines within
JAK2
. GH-induced binding of
SH2-B
to
JAK2
via this site potently activates
JAK2
, leading to enhanced tyrosyl phosphorylation of Stat proteins and other cellular proteins. Because of its other potential protein-protein interaction domains and its recruitment and phosphorylation by kinases that are not activated by
SH2-B
,
SH2-B
is thought likely to mediate other, more-specific actions of GH, as yet to be determined. SIRP is a transmembrane protein that is now known to bind to integrin-associated protein. It appears to bind directly to
JAK2
by a process that does not require tyrosyl phosphorylation, although is itself highly phosphorylated on tyrosines in response to GH. The phosphorylated SIRP recruits one or more molecules of the tyrosine phosphatase SHP2 that, in turn, de-phosphorylates SIRP and most likely
JAK2
. Thus, SIRP is predicted to be a negative regulator of GH action. It seems likely that the diverse actions of GH will be found to require coordinated interaction of all of these signaling proteins with each other as well as with other signaling molecules that are activated by GH and the numerous other ligands that are present at cells during a response to GH.
...
PMID:SH2-B and SIRP: JAK2 binding proteins that modulate the actions of growth hormone. 1103 42
Activation of JAK tyrosine kinases is an essential step in cell signaling by multiple hormones, cytokines, and growth factors, including growth hormone (GH) and interferon-gamma. Previously, we identified
SH2-B
beta as a potent activator of
JAK2
(Rui, L., and Carter-Su, C. (1999) Proc. Natl. Acad. Sci. U.S.A. 96, 7172-7177). Here, we investigated whether the activation of
JAK2
by
SH2-B
beta is specific to
JAK2
and
SH2-B
beta or extends to other JAKs or other members of the
SH2-B
beta family. When
SH2-B
beta was overexpressed with
JAK1
or
JAK3
,
SH2-B
beta failed to increase their activity. However,
SH2-B
beta bound to both and was tyrosyl-phosphorylated by
JAK1
. In contrast to
SH2-B
beta, APS decreased tyrosyl phosphorylation of GH-stimulated
JAK2
as well as Stat5B, a substrate of
JAK2
. APS also decreased tyrosyl phosphorylation of
JAK1
, but did not affect the activity or tyrosyl phosphorylation of
JAK3
. Overexpressed APS bound to and was tyrosyl-phosphorylated by all three JAKs. Consistent with these data, in 3T3-F442A adipocytes, endogenous APS was tyrosyl-phosphorylated in response to GH and interferon-gamma. These results suggest that 1)
SH2-B
beta specifically activates
JAK2
, 2) APS negatively regulates both
JAK2
and
JAK1
, and 3) both
SH2-B
beta and APS may serve as adapter proteins for all three JAKs independent of any role they have in JAK activity.
...
PMID:SH2-B family members differentially regulate JAK family tyrosine kinases. 1175 54
The tyrosine kinase
Janus kinase 2
(
JAK2
) binds to the majority of the known members of the cytokine family of receptors. Ligand-receptor binding leads to activation of the associated
JAK2
molecules, resulting in rapid autophosphorylation of multiple tyrosines within
JAK2
. Phosphotyrosines can then serve as docking sites for downstream
JAK2
signaling molecules. Despite the importance of these phosphotyrosines in
JAK2
function, only a few sites and binding partners have been identified. Using two-dimensional phosphopeptide mapping and a phosphospecific antibody, we identified tyrosine 813 as a site of
JAK2
autophosphorylation of overexpressed
JAK2
and endogenous
JAK2
activated by growth hormone. Tyrosine 813 is contained within a YXXL sequence motif associated with several other identified
JAK2
phosphorylation sites. We show that phosphorylation of tyrosine 813 is required for the SH2 domain-containing adapter protein
SH2-B
beta to bind
JAK2
and to enhance the activity of
JAK2
and STAT5B. The homologous tyrosine in
JAK3
, tyrosine 785, is autophosphorylated in response to interleukin-2 stimulation and is required for
SH2-B
beta to bind
JAK3
. Taken together these data strongly suggest that tyrosine 813 is a site of autophosphorylation in
JAK2
and is the
SH2-B
beta-binding site within
JAK2
that is required for
SH2-B
beta to enhance activation of
JAK2
.
...
PMID:Tyrosine 813 is a site of JAK2 autophosphorylation critical for activation of JAK2 by SH2-B beta. 1512 72
Leptin regulates energy homeostasis primarily by binding and activating its long form receptor (LRb). Deficiency of either leptin or LRb causes morbid obesity. Leptin stimulates LRb-associated
JAK2
, thus initiating multiple pathways including the Stat3 and phosphatidylinositol (PI) 3-kinase pathways that mediate leptin biological actions. Here we report that
SH2-B
, a
JAK2
-interacting protein, promotes activation of the PI 3-kinase pathway by recruiting insulin receptor substrate 1 (IRS1) and IRS2 in response to leptin.
SH2-B
directly bound, via its PH and SH2 domain, to both IRS1 and IRS2 both in vitro and in intact cells and mediated formation of a
JAK2
/
SH2-B
/IRS1 or IRS2 tertiary complex. Consequently,
SH2-B
dramatically enhanced leptin-stimulated tyrosine phosphorylation of IRS1 and IRS2 in HEK293 cells stably expressing LRb, thus promoting association of IRS1 and IRS2 with the p85 regulatory subunit of PI 3-kinase and phosphorylation and activation of Akt.
SH2-B
mutants with lower affinity for IRS1 and IRS2 exhibited reduced ability to promote association of
JAK2
with IRS1, tyrosine phosphorylation of IRS1, and association of IRS1 with p85 in response to leptin. Moreover, deletion of the
SH2-B
gene impaired leptin-stimulated tyrosine phosphorylation of endogenous IRS1 in mouse embryonic fibroblasts (MEF), which was reversed by reintroduction of
SH2-B
. Similarly,
SH2-B
promoted growth hormone-stimulated tyrosine phosphorylation of IRS1 in both HEK293 and MEF cells. Our data suggest that
SH2-B
is a novel mediator of the PI 3-kinase pathway in response to leptin or other hormones and cytokines that activate
JAK2
.
...
PMID:SH2-B promotes insulin receptor substrate 1 (IRS1)- and IRS2-mediated activation of the phosphatidylinositol 3-kinase pathway in response to leptin. 1531 8
The APS,
SH2-B
and LNK proteins are adapters that activate and modulate receptor tyrosine kinase and JAK/STAT signaling. We now show that a conserved N-terminal domain mediates APS homodimerization. We determined the crystal structure of the dimerization domain at a resolution of 1.7 A using bromide ion MAD phasing. Each molecule contributes two helices to a compact four-helix bundle having a bisecting-U topology. Its most conspicuous feature is a stack of interdigitated phenylalanine side chains at the domain core. These residues create a new motif we refer to as a 'phenylalanine zipper,' which is critical to dimerization. A newly developed bridging yeast tri-hybrid assay showed that APS dimerizes
JAK2
, insulin receptor and IGF1 receptor kinases using its SH2 and dimerization domains. Dimerization via the phenylalanine zipper domain provides a mechanism for activating and modulating tyrosine kinase activity even in the absence of extracellular ligands.
...
PMID:A phenylalanine zipper mediates APS dimerization. 1537 31
Transgenic mice overexpressing GH present a marked GH signaling desensitization, reflected by low basal phosphorylation levels of the tyrosine kinase
JAK2
, and signal transducer and activator of transcription-5 (STAT5) and a lack of response of these proteins to a high GH dose. To evaluate the mechanisms involved in the regulation of
JAK2
activity by high GH levels in vivo, the content and subcellular distribution of SH2-Bbeta were studied in GH-overexpressing transgenic mice.
SH2-B
is a member of a conserved family of adapter proteins characterized by the presence of a C-terminal SH2 domain, a central pleckstrin homology (PH) domain, and an N-terminal proline rich region. The isoform SH2-Bbeta modulates
JAK2
activity by binding to the phosphorylated enzyme, further increasing its activity. However, it may also interact with non-phosphorylated inactive
JAK2
via lower affinity binding sites, preventing abnormal activation of the kinase. SH2-Bbeta may also function as an adapter protein, acting as a GH signaling mediator. We now report that, in an animal model of GH excess in which
JAK2
is not phosphorylated, although it is increased in the membrane-fraction, both the level of SH2-Bbeta, and especially its association to membranes, are augmented (67% and 13-fold vs normal mice values respectively), suggesting SH2-Bbeta could modulate
JAK2
activity in vivo.
...
PMID:Increased SH2-Bbeta content and membrane association in transgenic mice overexpressing GH. 1584 22
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