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)

GH is required for normal postnatal growth and metabolism. GH stimulates postnatal growth through induction of IGF-I gene expression. Although the liver is the major site of GH-regulated IGF-I, recent evidence indicates that GH-regulated IGF-I expression in nonhepatic tissues is sufficient for normal postnatal growth. One potentially important nonhepatic site of GH-stimulated IGF-I expression is skeletal muscle, as injection of GH into animals leads to increased IGF-I mRNA in this tissue. Nevertheless, direct effects of GH in skeletal muscle cells in culture have not been reported. We therefore tested the C2C12 myogenic cell line for its response to GH and demonstrate that C2C12 skeletal muscle cells rapidly respond to physiological levels of GH with increased tyrosine phosphorylation of the GH receptor, Janus kinase 2, signal transducer and activator of transcription-5a and -5b, insulin receptor substrate-1, and activation of MAPKs/ERKs and protein kinase B/Akt. In these cells, GH stimulates the expression of IGF-I and two members of the suppressors of cytokine signaling family, cytokine-inducible SH2-containing protein and suppressor of cytokine signaling-2. Treatment of C2C12 myoblasts with either the MAPK kinase inhibitor PD98059 or the PI3K inhibitor wortmannin results in higher levels of GH-induced IGF-I and suppressor of cytokine signaling-2 mRNA expression, suggesting that activation of MAPK and PI3K pathways has an inhibitory role in IGF-I and suppressor of cytokine signaling-2 gene regulation. Therefore, C2C12 cells provide the first in vitro model system to study various aspects of GH action in skeletal muscle.
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PMID:GH regulation of IGF-I and suppressor of cytokine signaling gene expression in C2C12 skeletal muscle cells. 1151 67

Growth hormone (GH) is a major growth-promoting and metabolic regulatory hormone. Interaction of GH with its cell surface GH receptor (GHR), by virtue of receptor dimerization, causes activation of the GHR-associated cytoplasmic tyrosine kinase, JAK2. Several signalling pathways, including the STAT5, PI3 kinase and MAP kinase pathways, are thereby accessed, resulting in various biochemical and biological cellular signalling outcomes which are rapidly becoming deciphered. Various mechanisms probably exist to terminate, modulate and prevent GH signalling. Some of these mechanisms regulate receptor abundance and/or availability while others may alter the responsiveness of downstream signalling molecules to receptor engagement. In this review, recent insights into modulation of GH signalling are discussed. Special emphasis is placed on mechanisms of homologous and heterologous desensitization and on the likelihood that inducible GHR proteolysis, in addition to causing GH binding protein generation, may also serve as an important mechanism of heterologous GHR downregulation.
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PMID:Growth hormone signalling and its regulation: preventing too much of a good thing. 1173 35

The effects of continuous high GH levels on GH signal transduction through the GH receptor (GHR)/Janus kinase 2 (JAK2)/signal transducer and activator of transcription 5 (STAT5) pathway as well as the desensitization of this pathway by suppressors of cytokine signaling (SOCS) were studied in transgenic mice overexpressing GHRH. In transgenic mice, hepatic GHR levels were 4.5-fold higher than in normal animals, whereas the protein contents of JAK2, STAT5a, and STAT5b did not vary. This same pattern was found for basal tyrosine phosphorylation (PY-): PY-GHR was 4.5-fold increased in transgenic mice, whereas there were no differences in PY-JAK2 and PY-STATs between normal and transgenic animals. After GH administration, tyrosine phosphorylation of GHR, JAK2, and STAT5s increased 3- to 7-fold in normal mice, but no significant changes were found in transgenic mice, indicating a decreased GH sensitivity in these animals. The content of cytokine-inducible SH2 protein, a member of the SOCS family, was 18-fold higher in GHRH-transgenic than in normal mice. Conversely, SOCS-3, present in normal mice, was hardly seen in transgenic animals, whereas SOCS-2 levels did not vary. These findings suggest that cytokine-inducible SH2 protein, significantly induced by continuously elevated GH levels, may be the SOCS protein responsible for the GH signaling desensitization in transgenic animals.
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PMID:Cytokine-inducible SH2 protein up-regulation is associated with desensitization of GH signaling in GHRH-transgenic mice. 1179 90

Fasting causes a state of GH resistance responsible for low circulating IGF-I levels. To investigate whether this resistance may result from alterations in the GH signaling pathway, we determined the effects of fasting on the GH transduction pathway in rat liver. Forty-eight-hour fasted or fed male rats were injected with recombinant rat GH via the portal vein. Liver was removed 0 and 15 min after injection. Although GH stimulated Janus kinase 2 (JAK2) phosphorylation in all animals, this was severely blunted in fasted animals. Similarly, the phosphorylation of the GH receptor, although observed in both fasted and fed rats after GH injection, was markedly reduced in fasted rats. A rapid signal transducer and activator of transcription 5 (STAT5) tyrosine phosphorylation was also induced in the liver of fed animals in response to GH. In contrast, in fasted rats only a slight phosphorylated STAT5 signal was observed. The inhibitory effect of fasting on these GH signaling molecules occurred without changes in their protein content. Furthermore, the impairment of the JAK-STAT pathway in fasted animals was associated with increased liver suppressor of cytokine signaling 3 mRNA levels. Although glucocorticoids, which are increased by fasting, may cause GH resistance, adrenalectomy failed to prevent alterations in the JAK-STAT pathway caused by fasting. In conclusion, the GH resistance induced by fasting is associated with impairment of the JAK-STAT signaling pathway. This might contribute to the decrease in liver IGF-I production observed in fasting.
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PMID:Impairment of liver GH receptor signaling by fasting. 1186 99

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

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

Growth hormone-binding protein (GHBP) is complexed to a substantial fraction of circulating GH. In humans, rabbits, and other species, GHBP derives from proteolytic shedding of the GH receptor (GHR) extracellular domain. In cell culture studies, stimuli such as phorbol ester, platelet-derived growth factor, or serum induce GHR proteolysis, which concomitantly yields shed GHBP in cell supernatants and a cell-associated cytoplasmic domain-containing GHR remnant. This process is sensitive to metalloprotease inhibition, and genetic reconstitution studies identify tumor necrosis factor-alpha converting enzyme (TACE/ADAM-17), a transmembrane metalloprotease, as a GHR sheddase. Stimuli that induce GHR proteolysis render cells less responsive to GH, but the mechanism(s) of this desensitization is not yet understood. In this study, we mapped the rabbit (rb) GHR cleavage site. We adenovirally expressed a C-terminal epitope-tagged rbGHR lacking most of its cytoplasmic domain, purified the remnant protein induced by the phorbol ester, PMA, and derived the cleavage site by N-terminal sequencing of the purified remnant. The N-terminal sequence, (239)FTCEEDFR(246), matched perfectly the rbGHR and suggests that cleavage occurs eight residues from the membrane in the proximal extracellular domain stem region. Deletion and alanine substitution mutagenesis indicated that, similar to other TACE substrates, the spacing of residues in this region, more than their identity, influences GHR cleavage susceptibility. Further, we determined that PMA pretreatment desensitized a cleavage-sensitive GHR mutant, but not a cleavage-insensitive mutant, to GH-induced JAK2 activation. These results suggest that inducible GHR proteolysis can regulate GH signaling.
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PMID:Metalloprotease-mediated GH receptor proteolysis and GHBP shedding. Determination of extracellular domain stem region cleavage site. 1240 92

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

Oral estrogen administration attenuates the metabolic action of growth hormone (GH) in humans. To investigate the mechanism involved, we studied the effects of estrogen on GH signaling through Janus kinase (JAK)2 and the signal transducers and activators of transcription (STATs) in HEK293 cells stably expressing the GH receptor (293GHR), HuH7 (hepatoma) and T-47D (breast cancer) cells. 293GHR cells were transiently transfected with an estrogen receptor-alpha expression plasmid and luciferase reporters with binding elements for STAT3 and STAT5 or the beta-casein promoter. GH stimulated the reporter activities by four- to sixfold. Cotreatment with 17beta-estradiol (E(2)) resulted in a dose-dependent reduction in the response of all three reporters to GH to a maximum of 49-66% of control at 100 nM (P < 0.05). No reduction was seen when E(2) was added 1-2 h after GH treatment. Similar inhibitory effects were observed in HuH7 and T-47D cells. E(2) suppressed GH-induced JAK2 phosphorylation, an effect attenuated by actinomycin D, suggesting a requirement for gene expression. Next, we investigated the role of the suppressors of cytokine signaling (SOCS) in E(2) inhibition. E(2) increased the mRNA abundance of SOCS-2 but not SOCS-1 and SOCS-3 in HEK293 cells. The inhibitory effect of E(2) was absent in cells lacking SOCS-2 but not in those lacking SOCS-1 and SOCS-3. In conclusion, estrogen inhibits GH signaling, an action mediated by SOCS-2. This paper provides evidence for regulatory interaction between a sex steroid and the GHJAKSTAT pathway, in which SOCS-2 plays a central mechanistic role.
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PMID:Estrogen inhibits GH signaling by suppressing GH-induced JAK2 phosphorylation, an effect mediated by SOCS-2. 1255 91

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