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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)
Interleukin (IL)-4 and IL-9 regulate the proliferation of T lymphocytes through interactions with their receptors. Previous studies have shown that unknown tyrosine kinases are involved in the proliferative signaling triggered by IL-4 and IL-9. Here we show that IL-4 and IL-9 induce overlapping (170, 130, and 125 kilodalton (kDa)) and distinct (45 and 88/90 kDa, respectively) protein tyrosine phosphorylation in T lymphocytes. We further identify the 170-kDa tyrosine-phosphorylated protein as 4PS/insulin receptor substrate-1-like (IRS-1L) protein and 130-kDa protein as
JAK1
kinase. Furthermore, we demonstrate for the first time that
JAK1
forms complexes with the IL-4 receptor and 4PS/
IRS
-1L protein following ligand-receptor interaction. In addition, we demonstrate that IL-9, but not IL-4, induced tyrosine phosphorylation of Stat 91 transcriptional factor. The overlapping and distinct protein tyrosine phosphorylation and activation of the same
JAK1
kinase in T lymphocytes strongly suggests that IL-4 and IL-9 share the common signal transduction pathways and that the specificity for each cytokine could be achieved through the unique tyrosine-phosphorylated proteins triggered by individual cytokines.
...
PMID:JAK1 kinase forms complexes with interleukin-4 receptor and 4PS/insulin receptor substrate-1-like protein and is activated by interleukin-4 and interleukin-9 in T lymphocytes. 792 91
Angiotensin II (AII), acting via its G-protein linked receptor, is an important regulator of cardiac, vascular, and renal function. Following injection of AII into rats, we find that there is also a rapid tyrosine phosphorylation of the major insulin receptor substrates 1 and 2 (IRS-1 and IRS-2) in the heart. This phenomenon appears to involve
JAK2
tyrosine kinase, which associates with the AT1 receptor and IRS-1/IRS-2 after AII stimulation. AII-induced phosphorylation leads to binding of phosphatidylinositol 3-kinase (PI 3-kinase) to IRS-1 and IRS-2; however, in contrast to other ligands, AII injection results in an acute inhibition of both basal and insulin-stimulated PI 3-kinase activity. The latter occurs without any reduction in insulin receptor or
IRS
phosphorylation or in the interaction of the p85 and p110 subunits of PI 3-kinase with each other or with IRS-1/IRS-2. These effects of AII are inhibited by AT1 receptor antagonists. Thus, there is direct cross-talk between insulin and AII signaling pathways at the level of both tyrosine phosphorylation and PI 3-kinase activation. These interactions may play an important role in the association of insulin resistance, hypertension, and cardiovascular disease.
...
PMID:Cross-talk between the insulin and angiotensin signaling systems. 890 9
To investigate the role of Janus kinase family (
JAK1
and
JAK2
) in insulin signaling, we assessed their insulin-induced associations with other molecules in the cells overexpressing insulin receptors (HIRc and CHO-IR). After insulin stimulation, pp185 proteins (insulin receptor substrate,
IRS
) were co-immunoprecipitated with both kinases by alpha
JAK1
and alpha
JAK2
antibodies. However,
JAK2
constitutively associated with pp95 protein (IR beta). Moreover,
JAK2
also constitutively bound to a protein tyrosine phosphatase containing Src 2 regions (SHPTP2), but
JAK1
did not. In HIRc cells expressing PTPase-negative mutant SHPTP2, no association of
JAK2
with either pp185 or pp95 was detected. Thus, SHPTP2 might serve as an adapter protein linking between
JAK2
and
IRS
. These results suggest that
JAK1
and
JAK2
behave differently and they may constitute a new regulatory component in insulin signaling.
...
PMID:SHPTP2 serves adapter protein linking between Janus kinase 2 and insulin receptor substrates. 891 46
We have reported that human ovarian-carcinoma cell lines express high-affinity IL-4 receptor. Since IL-4R has been hypothesized to share a chain with IL-13R, we investigated whether ovarian cancer cells express IL-13 receptor. In the present study, we report that the ovarian-carcinoma cell lines IGROV-1 and PA-1 express varying numbers of high-affinity IL-13 receptors. Furthermore, IL-13 inhibited the binding of IL-4 on both ovarian-carcinoma cell lines, while IL-4 did not inhibit IL-13 binding on IGROV-1 cell line. IL-13 and IL-4 induced the phosphorylation of
JAK1
,
JAK2
and Tyk2 Janus kinases in PA-1 cells. In contrast,
JAK3
tyrosine kinase was expressed in PA-1 cells, but IL-4 or IL-13 did not augment its phosphorylation. In IGROV-1 cells, Tyk2 was constitutively phosphorylated and this phosphorylation was augmented by IL-4 or IL-13.
JAK1
and
JAK2
but not
JAK3
were expressed but only
JAK2
was faintly phosphorylated in response to either IL-13 or IL-4 respectively.
IRS
(insulin-receptor substrate)-1 and IRS-2 were also phosphorylated constitutively in both ovarian cancer cell lines examined, but only the phosphorylation of IRS-1 was augmented in response to IL-4 or IL-13. STAT6 was phosphorylated and activated in response to IL-4 and IL-13 in all cell lines examined. Our results demonstrate that ovarian cancer cell lines may express 2 types of IL-13R and the IL-13- or IL-4-induced signaling patterns may be slightly different in each type of receptor.
...
PMID:Human ovarian-carcinoma cell lines express IL-4 and IL-13 receptors: comparison between IL-4- and IL-13-induced signal transduction. 900 65
In addition to a role in response to insulin and insulin-like growth factors, insulin receptor substrate 1 (IRS-1) is phosphorylated in response to IL-4, the interferons (IFNs) and oncostatin M (OSM). Here mutant cell lines lacking
JAK1
,
JAK2
, or Tyk2 were used to determine the role(s) of the Janus kinase (JAK) family of protein-tyrosine kinases in IRS-1 phophorylation. 32D cells, which do not express
IRS
proteins, were analyzed for any requirement for these proteins in response to the IFNs. For the mutant human fibrosarcoma cell lines, phosphorylation of IRS-1 through the insulin-like growth factor receptor is independent of
JAK1
,
JAK2
, or Tyk2. In contrast, phosphorylation of IRS-1 mediated by the Type I IFNs, IL-4, and OSM is JAK-dependent. For the alphabeta-IFNs, activation of IRS-1 is dependent on
JAK1
and Tyk2, consistent with the interdependence of these kinases in the IFN-alphabeta response. Neither IRS-1 nor IRS-2 was detectably activated by IFN-gamma. Consistent with this, activation of neither
IRS
proteins appears to be an absolute requirement for an antiproliferative or an antiviral response to the IFNs. For IL-4 and OSM phosphorylation of IRS-1 in the human fibrosarcoma cells is largely dependent on
JAK1
but can also be mediated through Tyk2 or
JAK2
. Activation of phosphatidylinositol 3'-kinase in response to IL-4 and OSM, at least, was also JAK-dependent. The JAKs are, therefore, required not only for STAT activation but also for the activation, through a variety of different types of cytokine receptor, of an additional signaling pathway(s) through IRS-1 and phosphatidylinositol 3'-kinase.
...
PMID:Janus kinase-dependent activation of insulin receptor substrate 1 in response to interleukin-4, oncostatin M, and the interferons. 930 69
Insulin exerts wide variety of biological effects through interaction with its specific receptor, which belongs to a large family of receptor tyrosine kinases. The activated insulin receptor phosphorylates the intracellular substrate
IRS
protains, which then bind various signalling molecules that contain Src homology 2 domains. The first downstram molecule that was shown to associate with
IRS
protains is PI3-kinase. PI3-kinase contributes to a wide variety of biological actions. Both Akt(
PKB
), a serine-threonine kinase with a PH domain, and atypical PKC(PKC zeta, PKC lambda) have been implicated as downstream effectors of PI3-kinase. Insulin resistance contributes to the pathogenesis of NIDDM. Both primary, genetically, and secondary, environmentally factors are important for insulin resistance. The secondary factors include hyperglycemia, hyperlipidemia, obesity, TNF alpha, FFA(free fatty acid).
...
PMID:[Insulin signalling system and mechanism of insulin resistance]. 1070 48
Adipose tissue only accounts for a relatively small proportion (< 10%) of the peripheral glucose utilization in response to insulin. However, the fat cells may still play an important role in insulin resistance and Syndrome X through, for instance, its endocrine functions (production of leptin, TNF alpha, PAI-1, etc.) and involvement in lipid metabolism (FFA release and hydrolysis of triglycerides). The fat cells are also highly sensitive to insulin and may thus be used to elucidate molecular mechanisms for insulin resistance in man. Examinations of the intracellular signaling mechanisms for insulin in fat cells from individuals with Type 2 diabetes revealed markedly lower insulin-stimulated PI3-kinase activity. This was due to a pronounced reduction in the cellular expression of the docking protein,
IRS
1, whereas expression of
IRS
2 was normal. However,
IRS
2-associated PI3-kinase activity was only approximately one-third of that found to be associated with
IRS
1 in normal cells. Downstream activation and serine phosphorylation of
PKB
/Akt by insulin were also markedly reduced in Type 2 diabetes. Furthermore, the dose-response curve for this effect of insulin was similar to that for glucose transport in both normal and Type 2 diabetic cells. Thus, these data show that both PI3-kinase and
PKB
activation by insulin are markedly reduced in Type 2 diabetes. We also examined whether an attenuated activation of PI3-kinase by insulin can be seen in non-diabetic insulin-resistant states. Approximately 30% of healthy subjects with at least two first-degree relatives with Type 2 diabetes exhibited perturbations in IRS-1 expression and signaling. These individuals were characterized by insulin resistance as well as other markers of Syndrome X. Thus, impaired IRS-1 expression and downstream signaling events in fat cells in response to insulin are associated with insulin resistance and Syndrome X.
...
PMID:Insulin signaling and action in fat cells: associations with insulin resistance and type 2 diabetes. 1084 57
Interaction of GH with the cell-surface GH receptor (GHR) causes activation of the GHR-associated tyrosine kinase,
JAK2
, and consequent triggering of signaling cascades including the STAT, Ras/Raf/MEK1/MAP kinase, and insulin receptor substrate-1(IRS-1)/PI3kinase pathways. We previously showed that
IRS
- and GHR-deficient 32D cells that stably express the rabbit GHR and rat IRS-1 (32D-rbGHR-IRS-1) exhibited markedly enhanced GH-induced proliferation and MAP kinase (ERK1 and ERK2) activation compared with cells expressing only the GHR (32D-rbGHR). We now examine biochemical mechanism(s) by which IRS-1 augments GH-induced MAP kinase activation. Time-course experiments revealed a similarly transient (maximal at 15 min) GH-induced ERK1 and ERK2 activation in both 32D-rbGHR and 32D-rbGHR-IRS-1 cells, but, consistent with our prior findings, substantially greater activation was seen in the IRS-1-containing cells. In both cells, GH-induced MAP kinase activation was markedly blunted by the MEK1 inhibitor, PD98059, but not by the PKC inhibitor, GF109203X. Interestingly, pretreatment with the PI3K inhibitor, wortmannin (EC50 approximately 10 nM), significantly reduced GH-induced MAP kinase activation in both 32D-rbGHR and 32D-rbGHR-IRS-1 cells. This same pattern in both cells of IRS-1-dependent augmentation and IRS-1-independent wortmannin sensitivity was also observed for GH-induced activation of Akt and MEK1 (using state-specific antibody blotting for both), despite the lack of difference in GHR,
JAK2
, SHP-2, p85, Akt, Ras, Raf-1, MEK1, ERK1, or ERK2 abundance between the two cells. A different PI3K inhibitor, LY294002 (50 microM), substantially inhibited (roughly 72%) GH-induced MAP kinase activation in 32D-rbGHR-IRS-1 cells, but only marginally (and statistically insignificantly) inhibited GH-induced MAP kinase activation in 32D-rbGHR cells. Because GH-induced Akt activation was completely inhibited in both cells by the same concentration of LY294002, these findings indicate that the wortmannin sensitivity of both the IRS-1-independent and -dependent GH-induced MAP kinase activation may reflect the activity of another wortmannin-sensitive target(s) in addition to PI3K in mediation of GH-induced MAP kinase activation in these cells. Notably, GH-induced STAT5 tyrosine phosphorylation, unlike Akt or MAPK activation, did not differ between the cells. Finally, while GH promoted accumulation of activated Ras in both cells, both basal and GH-induced activated Ras levels were greater in cells expressing IRS-1 than in 32D-rbGHR cells. These data indicate that while GH induces tyrosine phosphorylation of STAT5 and activation of the Ras/Raf/MEK1/MAPK and PI3K pathways, IRS-1 expression augments the latter two more than the former.
...
PMID:Insulin receptor substrate-1-mediated enhancement of growth hormone-induced mitogen-activated protein kinase activation. 1096 5
We have previously shown that interferon-alpha (IFN alpha)-dependent tyrosine phosphorylation of insulin receptor substrate-1 (IRS-1) is impaired by serine phosphorylation of IRS-1 due to the reduced ability of serine phosphorylated IRS-1 to serve as a substrate for
Janus kinase 1
(
JAK1
). Here we report that FKBP12-rapamycin-associated protein (FRAP) is a physiologic IRS-1 kinase that blocks IFN alpha signaling by serine phosphorylating IRS-1. We found that both FRAP and insulin-activated p70 S6 kinase (p70(s6k)) serine phosphorylated IRS-1 between residues 511 and 772 (IRS-1(511-772)). Importantly, only FRAP-dependent IRS-1(511-772) serine phosphorylation inhibited by 50% subsequent
JAK1
-dependent tyrosine phosphorylation of IRS-1. Furthermore, treatment of U266 cells with the FRAP inhibitor rapamycin increased IFN alpha-dependent tyrosine phosphorylation by twofold while reducing constitutive IRS-1 serine phosphorylation within S/T-P motifs by 80%. Taken together, these data indicate that FRAP, but not p70(s6k), is a likely physiologic IRS-1 serine kinase that negatively regulates
JAK1
-dependent IRS-1 tyrosine phosphorylation and suggests that FRAP may modulate
IRS
-dependent cytokine signaling.
...
PMID:Frap-dependent serine phosphorylation of IRS-1 inhibits IRS-1 tyrosine phosphorylation. 1116 88
Sucrose feeding reduces the ability of insulin to suppress glucose production and hepatic gluconeogenesis. The present study examined the effect of a high-sucrose diet on early insulin-signaling steps in the liver. Rats were provided a high-starch (
STD
, control diet) or high-sucrose diet (HSD) for 3 wk. On the day of study, overnight-fasted rats were anesthetized and injected with either saline (n = 5/diet group) or insulin (2 mU/kg, n = 5/diet group) via the portal vein. Portal venous blood and liver tissue were harvested 2 min after injections. Portal vein plasma glucose levels were not significantly different among groups, pooled average 147 +/- 12 mg/dl. Western blot analysis revealed no significant differences in the amount of insulin receptor (IR), insulin receptor substrates-1 and -2 (IRS-1, IRS-2), and the p85 subunit of phosphatidylinositol (PI) 3-kinase. In contrast, the amount of the p110beta subunit of PI 3-kinase was increased approximately 2-fold in HSD vs.
STD
(P < 0.05). After saline injection, tyrosine phosphorylation (pY) of IR, IRS-1, and IRS-2 was not significantly different between groups. However, PI 3-kinase activity associated with phosphorylated proteins was increased approximately 40% in HSD vs.
STD
(P < 0.05). After insulin injection, pY of the IR was not different between groups, whereas pY of IRS-1 and IRS-2 was reduced (P < 0.05) in HSD vs.
STD
. In addition, association of IRS-1 and IRS-2 with p85 was significantly reduced in HSD vs.
STD
. These data demonstrate that an HSD impairs insulin-stimulated early postreceptor signaling (pY of
IRS
proteins,
IRS
interaction with p85). Furthermore, the increased amount of p110beta and increased basal PI 3-kinase activity suggest a diet-induced compensatory response.
...
PMID:Elevated basal PI 3-kinase activity and reduced insulin signaling in sucrose-induced hepatic insulin resistance. 1173 98
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