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)

The mechanism by which early lymphoid cells are selectively transformed by v-Abl is currently unknown. Previous studies have shown constitutive activation of IL-4 and IL-7 signaling pathways, as measured by activation of Janus protein kinase (JAK)1, JAK3, STAT5, and STAT6, in pre-B cells transformed by v-Abl. To determine whether activation of these cytokine signaling pathways by v-Abl is important in the cellular events induced by the Abelson murine leukemia virus, the effects of IL-4 and IL-7 on pre-B cells transformed with a temperature-sensitive v-Abl mutant were examined. Whereas IL-4 had little or no effect, IL-7 delayed both the apoptosis and cell cycle arrest that occur upon v-Abl kinase inactivation. IL-7 also delayed the decreases in the levels of c-Myc, Bcl-2, and Bcl-xL that occur upon loss of v-Abl kinase activity. IL-7 did not maintain v-Abl-mediated differentiation arrest of the pre-B cells, as activation of NF-kappaB and RAG gene transcription was unaffected by IL-7. These results identify a potential role for IL-7 signaling pathways in transformation by v-Abl while demonstrating that a combination of IL-4 and IL-7 signaling cannot substitute for an active v-Abl kinase in transformed pre-B cells.
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PMID:IL-7 reconstitutes multiple aspects of v-Abl-mediated signaling. 979 89

Cytokine pathways are essential for the differentiation and function of lymphoid cells. The major T-cell growth factor is IL-2, which is produced by subsets of T lymphocytes in response to antigenic stimulation. The IL-2 receptor is expressed by T cells after antigenic stimulation, and when engaged by IL-2 induces proliferation, differentiation, and protection from apoptosis. Rare patients with severe combined immune deficiency (SCID) have been found to have mature T lymphocytes that do not produce IL-2, although no genetic abnormality has yet been defined for these patients. The fact that these patients and IL-2 knockout mice have the ability to generate mature T lymphocytes indicates that IL-2 is the major growth factor for mature T lymphocytes but not for immature thymocytes. X-linked SCID, the most common form of SCID, has a phenotype of thymic hypoplasia, peripheral T lymphopenia, the presence of B lymphocytes that do not undergo normal class switching, and usually the absence of natural killer (NK) cells. X-SCID is caused by mutations of a receptor subunit, which was originally described as the IL-2Rgamma. The phenotypic differences between X-SCID and IL-2-deficient SCID suggests that the IL-2Rgamma chain might be a component of other receptors needed for thymic development, B cell class-switching, and NK development. The IL-2Rgamma is now known to be a shared subunit between the IL-2, IL-4, IL-7, IL-9, and IL-15 receptors, which explains the complex X-SCID phenotype. Because of this shared usage, the IL-2Rgamma is known as the common gamma chain (gamma c). Each ligand induces dimerization of gamma c with the ligand-specific receptor subunit, eg, the IL-2Rbeta, resulting in signal transduction through the JAK-STAT (signal transducers and activators of transcription) pathway. The JAK3 tyrosine kinase is constitutively associated with the gamma c and is necessary for signaling through the gamma c-containing receptors. Deficiency of JAK3 gives rise to a SCID phenotype that closely resembles that of X-SCID, but is autosomally recessive in inheritance. It is likely that other specific immune deficiencies of the cytokine pathways exist, eg, IL-7Ralpha-deficient SCID. T cells with wild-type gamma c and JAK3 proteins have a profound selective advantage over cells that contain mutant proteins. The selective advantage allows these patients to be treated by bone marrow transplantation (BMT) without ablative chemotherapy, and is the reason that these forms of SCID are potential targets for early gene therapy efforts.
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PMID:X-linked SCID and other defects of cytokine pathways. 980 Dec 59

Interleukin (IL)-4 signaling proceeds via cytoplasmic activation of the Janus kinases JAK1 and JAK3 and the signal transducer and activator of transcription STAT6. We show that the IL-4 receptor, like other cytokine receptor systems utilizing the common receptor gamma-chain (gammac), is also connected to a signaling pathway that involves STAT5. Both STAT5a and STAT5b become tyrosine-phosphorylated and acquire specific DNA-binding properties in response to IL-4 receptor stimulation in the murine pro-B cell line Ba/F3. In preactivated human T cells, STAT5 became activated in an IL-4-dependent fashion as assayed by IL-4-induced STAT5 translocation from the cytoplasm to the cell nucleus and by binding to cognate DNA. Moreover, stimulation of preactivated human T cells by IL-4 led to specific transcriptional up-regulation of STAT5 target genes. IL-4 receptor-mediated STAT5 activation is dependent on the presence of gammac and JAK3 within the receptor complex. In COS-7 cells, the JAK/STAT pathway leading from the IL-4 receptor to STAT5-dependent regulation of a reporter gene relied largely on coexpression of JAK3. In Ba/F3 cells, studies on signal transduction evoked by directed specific receptor homo- or heterodimerization revealed that STAT5 activation can be triggered exclusively by IL-4R heterodimers containing gammac.
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PMID:The interleukin-4 receptor activates STAT5 by a mechanism that relies upon common gamma-chain. 981 29

Severe combined immunodeficiency (SCID) is caused by multiple genetic defects. The most common form of SCID, X-linked SCID (XSCID), results from mutations in IL2RG (ref. 4), which encodes the common cytokine receptor gamma chain (gamma(c)) that is shared by the IL-2, IL-4, IL-7, IL-9 and IL-15 receptors. In XSCID and SCID resulting from mutations in JAK3, which encodes a Janus family tyrosine kinase that couples to gamma(c) and is required for gamma(c)-dependent signalling, T- and natural killer (NK)-cells are decreased but B-cell numbers are normal (T(-)B(+)NK(-)SCID). Some SCID patients lack T cells but retain NK cells. Given diminished T-cell development in Il7- or Il7r-deficient mice and that Il/7r-deficient mice have NK cells, we hypothesized that T(-)B(+)NK(+) SCID might result from defective IL-7 signalling, although apparent differences in the role of the IL-7/IL-7R pathway in humans and mice in T-cell and B-cell development have been suggested. We now demonstrate that defective IL7R expression causes T(-)B(+)NK(+) SCID, indicating that the T-cell, but not the NK-cell, defect in XSCID results from inactivation of IL-7Ralpha signalling.
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PMID:Defective IL7R expression in T(-)B(+)NK(+) severe combined immunodeficiency. 984 16

We have recently demonstrated that two different forms of IL-4R exist; classical or alternative. The classical IL-4R is predominantly expressed in hematopoietic cells and consist of IL-4R and IL-2Rgammac (gammac) chains. On the other hand, alternative form of IL-4R is predominantly expressed in non-hematopoietic cells and consists of IL-4R and IL-13Ralpha' chains. Moreover, the alternative form of IL-4R is also utilized as a functional component IL-13R complex. It has been shown that the phosphorylation and activation of JAK3 tyrosine kinase is crucial for IL-4 activation of STAT6 in hematopoietic cells. However, we have recently demonstrated that non-hematopoietic cells lack JAK3 expression. We also demonstrated that in these cells, STAT6 activation is mediated through JAK1 and JAK2 tyrosine kinases instead. Furthermore, our results show that IL-4 and IL-13 signals are transmitted through the alternative form of IL-4R in these cells. Thus, major differences exist between hematopoietic and non-hematopoietic cells with regard to structure and signal transduction through IL-4R and IL-13R systems.
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PMID:Structure of and signal transduction through interleukin-4 and interleukin-13 receptors (review). 985 61

IgE hyperproduction frequently observed in patients with atopic dermatitis (AD) may greatly contribute to the pathogenesis of AD, but its mechanisms are still unclear. NC/Nga mice raised in nonsterile circumstances spontaneously suffered from AD-like skin lesions with elevation of plasma IgE levels. We investigated mechanisms of the IgE hyperproduction in NC/Nga mice. Splenic T cells from SPF NC/Nga mice had a level of CD40 ligand (CD40L) expression comparable to that of BALB/c mice. Although there was no difference in the expression of CD40 on B cells between NC/Nga and BALB/c mice, B cells of NC/Nga mice produced much more IgE in the presence of soluble CD40L and IL-4. The stimulation with CD40L and/or IL-4 resulted in tyrosine phosphorylation of Janus kinase 3 (JAK3) in B cells, which was more strongly inducible in NC/Nga mice than in BALB/c mice. In B cells isolated from PBMC of AD patients with high serum IgE levels, JAK3 was constitutively phosphorylated at the tyrosine residue, and its phosphorylation was enhanced by the treatment with CD40L and/or IL-4 as was that in splenic B cells of NC/Nga mice with dermatitis and high IgE levels. Thus, it is suggested that constitutive and enhanced JAK3 phosphorylation in B cells highly sensitive to CD40L and IL-4 may be attributable to IgE hyperproduction in NC/Nga mice and patients with AD.
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PMID:IgE hyperproduction through enhanced tyrosine phosphorylation of Janus kinase 3 in NC/Nga mice, a model for human atopic dermatitis. 991 33

Binding of IL-2 to its receptor activates several biochemical pathways, including JAK-STAT, Ras-mitogen-activated protein kinase, and phosphatidylinositol 3'-kinase (PI 3'-kinase) pathways. Recently, it has been shown that the SH2-containing phosphatase, SHP-2, becomes phosphorylated in response to IL-2 stimulation, associates with PI3'-kinase and Grb2, and can exert a positive regulatory role in IL-2 signaling. We now report the identification of a prominent 98-kDa protein (p98) found to be phosphorylated in response to IL-2 stimulation and coprecipitated with SHP-2, the p85 subunit of PI 3'-kinase and Grb2. Interestingly, whereas IL-4 is known to activate PI 3'-kinase, we did not observe any p98 phosphorylation in response to IL-4 stimulation. p98 can form a multipartite complex with all these proteins as immunodepleting with anti-p85 antiserum substantially reduced the amount of p98 immunoprecipitated by SHP-2 and Grb2; the converse was also true. Furthermore, phosphorylation of p98 did not occur in cells lacking JAK3, suggesting that it may be a JAK substrate. Finally, deglycosylation of p98 did not alter its migration, suggesting p98 is not a member of the recently described SHP substrate/signal-regulatory proteins family of transmembrane glycoproteins. Thus p98 is a prominent IL-2-dependent substrate that associates with multiple proteins involved in IL-2 signaling and may play an important role in coupling the different signal transduction pathways activated by IL-2.
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PMID:IL-2, but not IL-4 and other cytokines, induces phosphorylation of a 98-kDa protein associated with SHP-2, phosphatidylinositol 3'-kinase, and Grb2. 997 81

The interleukin-2 (IL-2) receptor gamma chain (gammac) is shared by receptor complexes used by IL-2, IL-4, IL-7, IL-9 and IL-15, all of which are cytokines involved in lymphocyte development and/or activation. Gammac is physically and functionally associated with the JAK3 tyrosine kinase. This molecular pair may be considered as the trigger of the signalling cascades, inducing the activation of JAK1 upon heterodimerization with a cytokine-specific receptor component. JAK1, JAK3 and other tyrosine kinases, the nature of which varies between cytokines, phosphorylate the receptor, thereby creating docking sites for signalling molecules. Among them, PI 3-kinase and downstream effectors play a central role in the signalling processes involved in proliferation and inhibition of apoptosis for every gammac-interacting cytokine, although the mechanism of activation may vary between cytokines. Other important mediators--STAT transcription factors--regulate the expression of specific genes. IL-2, IL-7, IL-9 and IL-15 activate STAT3 and STAT5, in contrast to IL-4, which activates STAT6. These cytokines also trigger specific pathways, such as the MAP kinase cascade for IL-2 and IL-15, and the cascade responsible for immunoglobulin gene V-D-J rearrangement in response to IL-7.
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PMID:Signalling by cytokines interacting with the interleukin-2 receptor gamma chain. 1006 58

Airway inflammation associated with asthma is characterized by massive infiltration of eosinophils, mediated in part by specific chemoattractant factors produced in the lung. Allergen-specific Th2 cells appear to play a central role in asthma; for example, adoptively transferred Th2 cells induced lung eosinophilia associated with induction of specific chemokines. Interestingly, Th2 supernatant alone administered intranasally to naive mice induced eotaxin, RANTES, monocyte-chemotactic protein-1, and KC expression along with lung eosinophilia. We tested the major cytokines individually and found that IL-4 and IL-5 induced higher levels of macrophage-inflammatory protein-1alpha and KC; IL-4 also increased the production of monocyte-chemotactic protein-1; IL-13 and IL-4 induced eotaxin. IL-13 was by far the most potent inducer of eotaxin; indeed, a neutralizing anti-IL-13 Ab removed most of the eotaxin-inducing activity from Th2 supernatants, although it did not entirely block the recruitment of eosinophils. While TNF-alpha did not stimulate eotaxin production by itself, it markedly augmented eotaxin induction by IL-13. IL-13 was able to induce eotaxin in the lung of JAK3-deficient mice, suggesting that JAK3 is not required for IL-13 signaling in airway epithelial cells; however, eosinophilia was not induced in this situation, suggesting that JAK3 transduces other IL-13-mediated mechanisms critical for eosinophil recruitment. Our study suggests that IL-13 is an important mediator in the pathogenesis of asthma and therefore a potential target for asthma therapy.
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PMID:Effects of Th2 cytokines on chemokine expression in the lung: IL-13 potently induces eotaxin expression by airway epithelial cells. 1007 86

One of the earliest recognized defects of B cells carrying the xid mutation in the gene encoding for Bruton's tyrosine kinase (Btk) was their inability to proliferate in response to anti-immunoglobulin plus interleukin (IL)-4 stimulation. Previous attempts to define the stage at which this proliferative block occurred using xid B cells provided dissimilar results. We decided to reinvestigate this question using B cells from C57BL/6-Btk-protein-deficient (BtkM) mice. Upon stimulation with anti-IgM and IL-4, BtkM cells increase in size and up-regulate early activation markers such as CD69 and B7-2, however, they do not progress into the cell cycle further than a very early G1 stage. They down-regulate the cyclin-dependent kinase (cdk) inhibitor p27 to some extent but fail to up-regulate the G1-phase cyclins D2 and E and the retinoblastoma protein (pRb) remains hypo-phosphorylated. While approximately 25% of the wild-type cells enter S phase after 36 h stimulation, only 1% of the BtkM cells do so. The proliferative responsiveness of the BtkM cells is restored when the phorbol ester phorbol 12,13-di-butyrate (PDBu) is added to the anti-IgM plus IL-4 cultures. Collectively, our data demonstrate that a dramatically reduced frequency of responsive cells underlies the low proliferation of anti-IgM plus IL-4-stimulated Btk-deficient B cells and point towards an early block in the G1 phase due to inadequate activation of a pathway that regulates PKC activation.
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PMID:Bruton's tyrosine-kinase-deficient murine B lymphocytes fail to enter S phase when stimulated with anti-immunoglobulin plus interleukin-4. 1007 19

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