EC:2.7.10.2 - FACTA Search

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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 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.
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PMID:SH2-B family members differentially regulate JAK family tyrosine kinases. 1175 54

The Src homology 2 (SH2) domain-containing protein SH2-Bbeta binds to and is a substrate of the growth hormone (GH) and cytokine receptor-associated tyrosine kinase JAK2. SH2-Bbeta also binds, via its SH2 domain, to multiple activated growth factor receptor tyrosine kinases. We have previously implicated SH2-Bbeta in GH and platelet-derived growth factor regulation of the actin cytoskeleton. We extend these findings by establishing a potentiating effect of SH2-Bbeta on GH-dependent cell motility and defining regions of SH2-Bbeta required for this potentiation. Time-lapse video microscopy, phagokinetic, and/or wounding assays demonstrate reduced movement of cells overexpressing SH2-Bbeta lacking an intact SH2 domain because of a point mutation or a C-terminal truncation. An N-terminal proline-rich domain (amino acids 85-106) of SH2-Bbeta is required for inhibition of cellular motility by SH2 domain-deficient mutants. Co-immunoprecipitation experiments indicate that Rac binds to this domain. GH is shown to activate endogenous Rac, and dominant negative mutants of SH2-Bbeta are shown to inhibit membrane ruffling induced by constitutively active Rac. These findings suggest that SH2-Bbeta is an adapter protein that facilitates actin rearrangement and cellular motility by recruiting Rac and potentially Rac-regulating, Rac effector, or other actin-regulating proteins to activated cytokine (e.g. GH) and growth factor receptors.
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PMID:SH2-Bbeta is a Rac-binding protein that regulates cell motility. 1178 45

After receptor binding, growth hormone (GH) induces GH receptors (GHR) dimerization and JAK2 is activated after its association with a dimerized GHR, stimulating the tyrosyl phosphorylation of insulin receptor substrate-1 (IRS-1), IRS-2 and Shc proteins. G120K-PEG, a GH antagonist is produced by a mutation that blocks GH action by preventing the GHR dimerization. This study shows that the inhibitory effect of G120K-PEG was maximal with a GH:G120K-PEG ratio of 1:100, as no increase in JAK2 tyrosyl phosphorylation was observed with this dose of GH. When the dose of GH was increased and with a GH:G120K-PEG ratio of 1:10 some tyrosyl phosphorylation of JAK2 could be observed. Additionally, GH-induced IRS-1, IRS-2 and SHC tyrosyl phosphorylation was inhibited approximately 50% at equimolar concentrations of the antagonist of GH and almost abolished with a GH:G120K-PEG ratio of 1:100. The results clearly show that G120K-PEG inhibits GH signal transduction in mouse liver.
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PMID:G120K-PEG, a human GH antagonist, decreases GH signal transduction in the liver of mice. 1208 68

Multiple signaling pathways mediate the diverse effects of growth hormone (GH) on growth and metabolism. The interaction of GH with GH receptors (GHR) on target cells promotes the association of the cellular tyrosine kinase JAK2 with the GHR, initiating tyrosine phosphorylation of GHR and JAK2, and activation of multiple signaling cascades. GH-stimulated activation of signal transducers and activators of transcription (STATs), mitogen activated protein kinase (MAPK) and phosphatidylinositol 3' kinase (PI3K) cascades have been shown to regulate the transcription of GH-responsive genes. Cross-talk among these signaling cascades in regulating specific genes suggests that GH signaling to the nucleus involves a GH-regulated signaling network.
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PMID:Growth hormone signal transduction. 1209 86

The regulatory effect of growth hormone (GH) on its target cells is mediated via the GH receptor (GHR). GH binding to the GHR results in the formation of a GH-(GHR)(2) complex and the initiation of signal transduction cascades via the activation of the tyrosine kinase JAK2. Subsequent endocytosis and transport to the lysosome of the ligand-receptor complex is regulated via the ubiquitin system and requires the presence of an intact ubiquitin-dependent endocytosis (UbE) motif in the cytosolic tail of the GHR. Recently, the model of ligand-induced receptor dimerization has been challenged. In this study, ligand-independent GHR dimerization is demonstrated in the endoplasmic reticulum and at the cell surface by coimmunoprecipitation of an epitope-tagged truncated GHR with wild-type GHR. In addition, evidence is provided that the extracellular domain of the GHR is not required to maintain this interaction. Internalization of a chimeric receptor, which fails to dimerize, is independent of an intact UbE-motif. Therefore, we postulate that dimerization of GHR molecules is required for ubiquitin system-dependent endocytosis.
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PMID:Ligand-independent growth hormone receptor dimerization occurs in the endoplasmic reticulum and is required for ubiquitin system-dependent endocytosis. 1210 75

Secretion of growth hormone (GH) in adult male rats is characterized by high peak and undetectable trough levels, both of which are required for male-specific pattern of liver gene expression and GH-induced phosphorylation of STAT5. The present study suggests that regulation of GH receptor (GHR) levels in rat hepatoma cells by repeated GH stimulation determines GH responsiveness via the JAK2/STAT5 pathway. A short exposure to GH rapidly reduced GHR levels which resulted in an equal desensitization of the JAK2/STAT5 pathway. Recovery of GH-induced STAT5 phosphorylation correlated with the time-dependent recovery of GHR levels during incubation in the absence of GH. Acute GH also induced phosphorylation of ERK1/2 and Akt, and this induction was also inhibited by prior exposure to GH. However, unlike the JAK2/STAT5 pathway, the effect of GH to activate the MEK/ERK and phosphatidylinositol 3-kinase/Akt pathways did not recover following prolonged incubation in the absence of GH. Thus, GH administration desensitizes the JAK2/STAT5 pathway, possibly because of down-regulation of GHR, whereas an additional post-receptor mechanism is required for the prolonged refractoriness of the MEK/ERK and phosphatidylinositol 3-kinase/Akt pathways toward a second GH stimulation. Our study suggests that both receptor and post-receptor mechanisms are important in GH-induced homologous desensitization.
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PMID:Growth hormone-induced differential desensitization of STAT5, ERK, and Akt phosphorylation. 1216 50

To prepare reagents for a study of the interactions of prolactin (PRL) and growth hormone (GH) receptors (Rs) with suppressor of cytokine signaling (SOCS) proteins in living cells by fluorescence resonance energy transfer methodology, the respective proteins were tagged with cyan (CFP) or yellow (YFP) fluorescent protein. Constructs encoding ovine (o)PRLR-YFP, oPRLR-CFP, oGHR-YFP, and oGHR-CFP tagged downstream of the receptor DNA were prepared in the plasmid pcDNA plasmid and tested for biological activity in HEK 293T cells transiently cotransfected with those constructs and the reporter gene encoding luciferase. All four constructs were biologically active and as potent as their untagged counterparts. Cells transfected with those proteins exhibited fluorescence in the cytoplasm and the membrane. Constructs encoding DNA tagged with YFP or CFP upstream of SOCS1, SOCS2, SOCS3, and SOCS6 were prepared in pECFP-C1 and pEYFP-C1 plasmids. The biological activities of SOCS1 and SOCS3 tagged at their amino termini were assayed by their ability to inhibit placental lactogen (PL)- or GH-induced activation of JAK2/STAT5-mediated luciferase transcription in HEK 293T cells; the activity of SOCS2 was assayed by its ability to abolish SOCS1-induced inhibition. The tagged proteins exhibited biological activity that was equal to or even more potent than their untagged counterparts. The biological activities of CFP-SOCS2 and YFP-SOCS2 were also assayed using GST-GHR binding assay. Their interaction with the cytosolic domain of GHR was equivalent to their respective untagged counterparts. The biological activity of the construct encoding SOCS6 was not tested because of lack of a suitable assay. Cells transfected with eight of these tagged constructs expressed the fluorescent proteins in both the nucleus and cytosol; the tagged SOCS2 was localized mostly in the latter compartment.
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PMID:Preparation and expression of biologically active prolactin and growth hormone receptors and suppressor of cytokine signaling proteins 1, 2, 3, and 6 tagged with cyan and yellow fluorescent proteins. 1218 26

Severe combined immunodeficiency (SCID) is a heterogeneous group of disorders characterized by defect of T- and B-cell immunity. In many cases of autosomal recessive SCID, thus far described, the molecular alteration involves genes encoding for molecules that participate in the signal transduction. We report on a patient affected by a combined immunodeficiency, characterized by severe T-cell functional impairment, in spite of a close to normal number of circulating mature type T and B cells. NK cells were absent. Associated with the immunodeficiency, this patient also showed short stature characterized by very low growth velocity, delayed bone age and absence of increase of the plasma levels of Insulin growth factor-I (IGF-I) after growth hormone (GH) in vivo stimulation indicating peripheral hyporesponsiveness to GH. Evaluation of the protein tyrosine phosphorylation events occurring following either T-cell receptor (TCR) or GH receptor (GHR) triggering revealed striking abnormalities. No molecular alteration of GHR gene was found, thus suggesting the presence of postreceptorial blockage. Mutational screening and expression analysis failed to reveal any molecular alteration of JAK2 and STAT 5 A/B genes thus ruling out the involvement of these genes in the pathogenesis of this form of SCID. Mutational analysis of IL2Rgamma chain gene revealed the presence of a L183S missense mutation, thus indicating an atypical and a more complex clinical presentation of this X-linked form of SCID. At our knowledge, this is the first report on the GH hyporesponsiveness in this disease.
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PMID:Atypical X-linked SCID phenotype associated with growth hormone hyporesponsiveness. 1219 92

We have demonstrated here that growth hormone (GH) stimulates the formation of the active GTP-bound form of both RalA and RalB in NIH-3T3 cells. Full activation of RalA and RalB by GH required the combined activity of c-Src and JAK2, both kinases activated by GH independent of the other. Activation of RalA and RalB by growth hormone did not require the activity of JAK2 per se. Ras was also activated by GH and was required for the GH-stimulated formation of GTP-bound RalA and RalB. Activation of RalA by GH subsequently resulted in increased phospholipase D activity and the formation of its metabolite, phosphatidic acid. GH-stimulated RalA-phospholipase D-dependent formation of phosphatidic acid was required for activation of p44/42 MAPK and subsequent Elk-1-mediated transcription stimulated by GH. Thus we report the identification of a JAK2-independent pathway regulating GH-stimulated p44/42 MAPK activity.
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PMID:Identification of a JAK2-independent pathway regulating growth hormone (GH)-stimulated p44/42 mitogen-activated protein kinase activity. GH activation of Ral and phospholipase D is Src-dependent. 1221 45

The regulation of the synthesis and secretion of human growth hormone (hGH), its biologic activity, and its therapeutic use are reviewed. Both the production and secretion of GH are stimulated by hypothalamic GH-releasing hormone (GHRH) and by the endogenous GH secretagogue (GHS) ghrelin, a product of the oxyntic cells located within the fundus of the stomach. Ghrelin and GHRH act synergistically to stimulate GH secretion when administered in vivo, but they act additively when incubated with somatotrophs in vitro. Ghrelin is also found within the hypothalamic arcuate nucleus where it may enhance the release of GHRH and impair that of somatostatin (SRIH) thus contributing to its synergism with GHRH; ghrelin is an orexigenic peptide as well as a GHS and appears to play an important role in energy metabolism. SRIH inhibits the secretion but not the synthesis of GH and more effectively that stimulated by GHRH than that by ghrelin. The action of GH is mediated by the GH receptor, a straight chain protein of 620 amino acids with extracellular, transmembrane and cytoplasmic domains. GH has two specific receptor binding sites, (I, II) that bind sequentially to similar acceptor sequences of two GHRs. Activation of the GHR signal transduction pathway begins with attachment of two Janus kinase 2 (JAK2) molecules to the intracellular domains of the GHRs leading to phosphorylation of the tyrosine residues of JAK2 and the GHRs; thereafter the signal transduction and activators of transcription (STAT) and Ras mitogen-activated-protein kinase pathways are enhanced. GHRH, SRIH, and ghrelin act through G-protein coupled receptors (GPCR); GHRH activates adenylyl cyclase, cyclic AMP, and protein kinase A pathways, while ghrelin stimulates phospholipase C activity leading to production of inositol 1,4,5-trisphophate and diacylglycerol, increase in cytosolic calcium levels, and GH release; SRIH acts though an inhibitory GPCR to prevent depolarization of the somatotroph thus blocking GH secretion. GH has long been used to stimulate linear growth in children with GH deficiency (GHD); it has also been demonstrated to be effective in adults with GHD. The availability of large quantities of recombinant hGH has broadly increased the number of children with short stature being treated with this agent--not always with marked effectiveness. Synthesis of the GHR antagonist pegvisomant has provided another agent with which to treat patients with acromegaly. GHRH also enhances linear growth rate effectively in children with GHD but is less effective than hGH. The discovery of peptidyl and non-peptidyl GH secretagogues (that preceded and led to the identification of ghrelin itself) presents yet other agents for stimulation of endogenous GH secretion that have been useful in diagnostic studies for GHD and for its treatment in small groups of subjects. It is likely that hGH and its secretagoguess will become of increasing clinical usefulness in future decades.
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PMID:Clinical pharmacology of human growth hormone and its secretagogues. 1247 95

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