EC:2.7.10.2 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

In this study we have identified members of the Toll-like receptor (TLR) family (namely, TLRs 4, 6, 8, and 9) as proteins to which the intracellular protein tyrosine kinase, Bruton's tyrosine kinase (Btk), binds. Detailed analysis of the interaction between Btk and TLR8 demonstrates that the presence of both Box 2 and 3 motifs in the Toll/interleukin-1 receptor domain was required for the interaction. Furthermore, co-immunoprecipitation experiments revealed that Btk can also interact with key proteins involved in TLR4 signal transduction, namely, MyD88, Mal (MyD88 adapter-like protein), and interleukin-1 receptor-associated kinase-1, but not TRAF-6. The ability of Btk to interact with TLR4 and Mal suggests a role for Btk in lipopolysaccharide (LPS) signal transduction. Stimulation of the human monocytic cell line THP-1 with LPS resulted in an increase in the level of tyrosine phosphorylation of Btk (indicative of activation). The autokinase activity of Btk was also stimulated after LPS stimulation. In addition, a dominant negative form of Btk inhibited TLR4-mediated activation of a nuclear factor kappaB (NFkappaB)-dependent reporter gene in HEK293 cells as well as LPS-induced activation of NFkappaB in the astrocytoma cell line U373 and the monocytic cell line RAW264.7. Further investigation revealed that the Btk-specific inhibitor, LFM-A13, inhibited the activation of NFkappaB by LPS in THP-1 cells. Our findings implicate Btk as a Toll/interleukin-1 receptor domain-binding protein that is important for NFkappaB activation by TLR4.
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PMID:Bruton's tyrosine kinase is a Toll/interleukin-1 receptor domain-binding protein that participates in nuclear factor kappaB activation by Toll-like receptor 4. 1272 22

The discovery of the Toll-like receptors (TLRs) has revolutionised the field of innate immunity. One unresolved question regarding LPS signalling is whether there is a role for tyrosine kinases downstream of the LPS receptor. Studies in mice deficient in Bruton's tyrosine kinase have previously shown that they are defective in their responses to LPS. Further investigation into the role of Btk in LPS signalling has directly implicated Btk downstream of TLR4, both with respect to p38 MAPK activation and activation of the transcription factor NFkappaB. In fact Btk is activated by LPS and has been shown to directly bind TLR4 and the key proximal signalling proteins involved in LPS-induced NFkappaB activation, MyD88, Mal and IRAK-1. These recent findings point to a direct role for Btk in LPS signal transduction and raise interesting questions regarding the mode of activation of Btk following LPS stimulation and the precise nature of the pathways activated downstream of Btk. A better understanding of how Btk functions in LPS signalling will have important implications for inflammatory and autoimmune disorders and therapies thereof.
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PMID:Bruton's tyrosine kinase (Btk)-the critical tyrosine kinase in LPS signalling? 1508 22

IKK-i and TBK1 were recently identified as IKK-related kinases that are activated by toll-like receptors TLR3 and TLR4. These kinases were identified as essential components of the virus-activated as well as LPS-MyD88 independent kinase complex that phosphorylates IRF3 and results in the production of cytokines involved in innate immunity. Both IKK-i and TBK1 have also been implicated in the activation of the NFkappaB pathway but the precise mechanism is not clear. Although the literature to date suggests that IKK-i and TBK1 play redundant roles in TLR3 and TLR4 signaling, recent data suggest that there may be subtle differences in the signaling pathways affected by these kinases. We have generated tetracycline-inducible stable cell lines that express a wild type or kinase-inactive mutant form of IKK-i. Our data suggest that expression of IKK-i can activate both NFkappaB and IRF3, leading to the production of several cytokines including interferon beta. IKK-i most likely acts upstream of IKK2 to activate NFkappaB in these cells since expression of the kinase-inactive version of IKK-i did not inhibit TNFalpha mediated production of inflammatory cytokines. The data suggest that IKK-i is not involved in TNF-alpha mediated signaling but instead could likely play a role in activating IKK2 downstream of Toll-like receptor signaling. We also identified STAT1, Tyk2, and JAK1 as secondary mediators of IKK-i signaling as a result of interferon beta production in these cells.
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PMID:IKK-i signals through IRF3 and NFkappaB to mediate the production of inflammatory cytokines. 1619 37

During the past decade, we have observed advance in tuberculosis research including novel vaccines, innate immunity (TLR), SNIP analysis and molecular mechanism of drug resistance. Worldwide genome project enabled the whole genome sequence of host resistant against tuberculosis as well as the whole genome sequence of M. tuberculosis H37Rv. DNA technology has also provided a great impact on the development of novel vaccine against TB. In this symposium, we have invited leading researchers in the field of the frontier study of Mycobacterium research in order to provide general overview of the cutting edge of frontier research. Molecular mechanism of drug resistance of M. tuberculosis has been clarified. On the other hand, molecular mechanism of host-defence (insusceptibility of host) against M. tuberculosis has not yet elucidated. Dr. Taro Shirakawa (Kyoto University) reviewed the susceptibility genes of host in TB infection and presented candidate genes associated with multi-drug resistant tuberculosis. Dr. Naoto Keicho (International Medical Center of Japan) tried to identify host genetic factors involved in susceptibility to pulmonary Mycobacterium avium complex (MAC) infection by candidate gene approach and genome-wide approach. In Japan, Dr. Masaji Okada (National Hospital Organization Kinki-Chuo Chest Medical Center) has been engaged actively in the development of new tuberculosis vaccines (HVJ-liposome/Hsp65 DNA + IL-12 DNA vaccine and recombinant 72f BCG vaccine). He showed basic strategy for construction of new candidate vaccines and also showed significant efficacy on the protection of tuberculosis infection using cynomolgus monkeys, which are very similar to human tuberculosis. Dr. Hatsumi Taniguchi (University of Occupational and Environmental Health) presented that M. tuberculosis mIHF and the neighbor genes went into a dormacy-like state of M. smegmatis in J774 macrophage cells. This study might provide a weapon for elucidating the mechanism of dormacy of M. tuberculosis and the development of novel therapy. Dr. Chiyoji Abe (Nippon Becton Dickinson Co.) reviewed the molecular basis of the resistance to anti-tuberculosis drugs. Most cases of resistance are related to simple nucleotide substitutions rather than to acquisition of new elements. Dr. Kiyoshi Takeda (Kyushu University) showed interesting finding. He analyzed whether Toll-like receptor (TLR)-mediated activation of innate immunity in host defense against mycobacterial infection. MyD88/TRIF double defi-indicating that innate immunity is involved in anti-mycobacterial infection. (1) SNP (single nucleotide polymorphism) analysis in association with Mycobacterium tuberculosis: Taro SHIRAKAWA (Department of Health Promotion & Human Behavior, Kyoto University Medical School, and RIKEN SRC Center) Candidate gene approach was made on 18 SNPs in 11 genes in association with M. tuberculosis. Patients with multi-drug resistance against M. tuberculosis are also subjected. SNPs in NRAMP1 gene were associated with the disease, and drug resistance, its mechanisms remain unknown. (2) Search for genes susceptible to pulmonary Mycobacterium avium complex infection: Naoto KEICHO (Department of Respiratory Diseases, Research Institute, International Medical Center of Japan) Interaction among pathogens and host factors is important for development of infectious diseases. We are trying to identify host genetic factors involved in susceptibility to nonimmunocompromized pulmonary Mycobacterium avium complex (MAC) infection by candidate gene approach and genome-wide approach. Elucidation of functional significance of susceptibility gene polymorphisms will lead to a new strategy for control and prevention of the disease. (3) T cell immunity against Tuberculosis in host and the establishment of novel vaccine: Masaji OKADA (Clinical Research Center, National Hospital Organization Kinki-Chuo Chest Medical Center) T cell (CTL, Th1) immunity including granulysin play an important role in host defense against tuberculosis (TB) in human. Patients with TB or Multi-drug resistant TB showed suppression of all these immunities. HVJ-liposome/Hsp65 DNA + IL-12 DNA vaccination was 100 fold more efficient than BCG on the elimination of Mycobacterium tuberculosis (M.TB) in the BALB/c mice. Cytotoxic T cells activity against M. TB was augmented. By using these new vaccines (Hsp 65 DNA + IL-12 DNA, recombinant 72f BCG) and the cynomolgus monkey models which are very similar to human tuberculosis, the prophylactic effect of vaccines was observed. Thus, these novel vaccines should provide a useful tool for the prevention of human TB infection. (4) Mycobacterium tuberculosis mIHF and the neighbor genes go into a dormancy-like state of M. smegmatis J15CS in J774 cells: Hatsumi TANIGUCHI (Department of Microbiology, School of Medicine, University of Occupational and Environmental Health) Mycobacterium smegmatis J15CS transformants harboring the mIHF gene or the mIHF-gmk-Rv1390 genes showed no difference in in vitro growth and acid-fastness. However, transformants harboring mIHF-gmk-Rv1390 formed short-rod cell morphology and decreased acid-fastness in the mouse macrophage-like cell line J774 compared to those of the other transformants, and the nuclei of the infected J774 cells also changed. Nevertheless, the colony forming units were similar. These indicate that mIHF and the neighbor genes of M. tuberculosis might regulate a growth of mycobacteria in macrophages. (5) Molecular basis of the resistance to anti-tuberculosis drugs: Chiyoji ABE (Nippon Becton Dickinson Company, Ltd.) Considerable progress has been made toward understanding the molecular basis of the resistance to anti-tuberculosis drugs. Most cases of resistance are related usually to simple nucleotide substitutions rather than to acquisition of new elements. Multi-drug resistant isolates of Mycobacterium tuberculosis arise a consequence of sequential accumulation of mutation conferring resistance to single therapeutic agents. The basis of resistance is not able to be explained yet in a substantial percentage of strains for other anti-tuberculosis drugs than rifampin and pyrazinamide. Further studies are required to fully understand the molecular mechanisms of resistance. (6) Toll-like receptors in anti-mycobacterial immune responses: Kiyoshi TAKEDA (Department of Molecular Genetics, Medical Institute of Bioregulation, Kyushu University) Toll-like receptors (TLRs) play an essential role in the recognition of specific patterns of microbial components. TLRs mediate activation of innate immunity and further development of antigen-specific adaptive immunity. In TLR signaling pathways, Toll/IL-1 receptor (TIR) domain-containing adaptors, such as MyD88, TIRAP, TRIF, and TRAM, have been shown to play pivotal roles. Thus, the molecular mechanisms for TLR-mediated activation of innate immunity have been largely understood. We analyzed whether TLR-mediated activation of innate immunity is involved in host defense against mycobacterial infection. MyD88/TRIF double deficient mice, in which TLR-dependent activation of innate immunity is abolished, showed high sensitivity to mycobacterial infection, indicating that innate immunity is critically involved in anti-mycobacterial responses.
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PMID:[Frontier of mycobacterium research--host vs. mycobacterium]. 1624 93

Members of the Toll-like receptor (TLR) family are essential players in activating the host innate immune response against infectious microorganisms. All TLRs signal through Toll/interleukin 1 receptor domain-containing adapter proteins. MyD88 adapter-like (Mal) is one such adapter that specifically is involved in TLR2 and TLR4 signaling. When overexpressed we have found that Mal undergoes tyrosine phosphorylation. Three possible phospho-accepting tyrosines were identified at positions 86, 106, and 187, and two mutant forms of Mal in which tyrosines 86 and 187 were mutated to phenylalanine acted as dominant negative inhibitors of NF-kappaB activation by lipopolysaccharide (LPS). Activation of THP-1 monocytic cells with the TLR4 agonist LPS and the TLR2 agonist macrophage-activating lipopeptide-2 induced phosphorylation of Mal on tyrosine residues. We found that the Bruton's tyrosine kinase (Btk) inhibitor LFM-A13 could block the endogenous phosphorylation of Mal on tyrosine in cells treated with macrophage-activating lipopeptide-2 or LPS. Furthermore, Btk immunoprecipitated from THP-1 cells activated by LPS could phosphorylate Mal. Our study therefore provides the first demonstration of the key role of Mal phosphorylation on tyrosine during signaling by TLR2 and TLR4 and identifies a novel function for Btk as the kinase involved.
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PMID:MyD88 adapter-like (Mal) is phosphorylated by Bruton's tyrosine kinase during TLR2 and TLR4 signal transduction. 2794 Oct 71

Interleukin 1 (IL-1) has been implicated in the reorganization of the actin cytoskeleton. An expression vector encoding a PKB/Akt pleckstrin-homology domain fused to a fluorescent protein was used to detect phosphoinositide 3-kinase (PI 3-kinase) products. It was observed that PI 3-kinase was activated either by treatment with IL-1 or by expression of either TRAF6, Src, MyD88 or dominant-positive PI 3-kinase, and resulted in the formation of long filopodia-like cellular protrusions that appeared to branch at membrane sites consisting of clusters of phosphoinositide. This depended upon a TRAF6 polyproline motif and Src catalytic activity, and was blocked by inhibitors of PI 3-kinase, Src and Ras. Using both conventional and split fluorescent protein probes fused to expressed TRAF6 and Src in living cells, the polyproline sequence of TRAF6 and the Src-homology 3 (SH3) domain of Src were shown to be required for interaction between these two proteins. Interaction occurred within the cytoplasm, and not at either the cell membrane or cytoplasmic sequestosomes. In addition, co-transfection of vectors expressing fluorescent-protein-fused TRAF6 and non-fluorescent MyD88, IRAK1 and IRAK2 revealed an inverse correlation between increased sequestosome formation and activation of both PI 3-kinase and NF-kappaB. Although a key factor in TRAF6-dependent activation of PI 3-kinase, ectopic expression of Src was insufficient for NF-kappaB activation and, in contrast to NF-kappaB, was not inhibited by IRAK2.
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PMID:TRAF6 activation of PI 3-kinase-dependent cytoskeletal changes is cooperative with Ras and is mediated by an interaction with cytoplasmic Src. 1656 57

Infection with the intracellular parasite Toxoplasma gondii renders cells resistant to multiple pro-apoptotic signals, but underlying mechanisms have not been delineated. The phosphoinositide 3-kinase (PI 3-kinase) pathway and the immediate downstream effector protein kinase B (PKB/Akt) play important roles in cell survival and apoptosis inhibition. Here, we show that Toxoplasma infection of mouse macrophages activates PKB/Akt in vivo and in vitro. In a mixed population of infected and non-infected macrophages, activation is only observed in parasite-infected cells. The PI 3-kinase inhibitors wortmannin and LY294002 block parasite-induced PKB phosphorylation. PKB activation occurs independently of Toll-like receptor adaptor protein MyD88 but uncoupling of Gi-protein-mediated signaling with pertussis toxin prevents PKB phosphorylation. Moreover, in the presence of PI 3-kinase inhibitors or pertussis toxin, not only PKB activation but also ERK1/2 activation during T. gondii infection is defective. Most importantly, the parasite's ability to induce macrophage resistance to pro-apoptotic signaling is prevented by incubation with PI 3-kinase inhibitors. This study demonstrates that T. gondii exploits host Gi-protein-dependent PI 3-kinase signaling to prevent induction of apoptosis in infected macrophages.
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PMID:Toxoplasma gondii triggers Gi-dependent PI 3-kinase signaling required for inhibition of host cell apoptosis. 1663 8

Bacteremia is one of the leading causes of death by infectious disease. To understand the immune mechanisms required for the rapid control of bacteremia, we studied Borrelia hermsii, a bacterial pathogen that colonizes the blood stream of humans and rodents to an extremely high density. A T cell-independent IgM response is essential and sufficient for controlling B. hermsii bacteremia. Mice deficient in Bruton's tyrosine kinase (Btk), despite their known defect in BCR signaling, generated B. hermsii-specific IgM and resolved bacteremia, suggesting that an alternative activation or costimulatory pathway remained functional for T cell-independent B cells in Btk(-/-) mice. B. hermsii contains putative ligands for TLRs, and we found that mice deficient in TLR1, TLR2, or the TLR adaptor MyD88 generated anti-B. hermsii IgM with delayed kinetics and suffered more severe episodes of bacteremia. In striking contrast to the anti-B. hermsii IgM response in mice deficient only in Btk, mice deficient in both Btk and MyD88 were entirely incapable of generating B. hermsii-specific Ab or resolving bacteremia. The response to a T cell-dependent model Ag was unaffected in Btk(-/-) x MyD88(-/-) mice. These results suggest that MyD88 specifically promotes T cell-independent BCR signaling and that, in the absence of Btk, this TLR-mediated stimulation is a required component of this signal.
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PMID:MyD88- and Bruton's tyrosine kinase-mediated signals are essential for T cell-independent pathogen-specific IgM responses. 1733 72

BCR signaling in naive B cells depends on the function of signalosome mediators; however, prior engagement of CD40 or of IL-4R produces an alternate signaling pathway in which Bruton's tyrosine kinase, PI3K, phospholipase Cgamma2, and protein kinase Cbeta are no longer required for BCR-induced downstream events. To explore the range of mediators capable of producing such an alternate pathway for BCR signaling, we examined the TLR4 agonist, LPS. B cell treatment with LPS at relatively low doses altered subsequent BCR signaling such that ERK phosphorylation and NF-kappaB activation occurred in a PI3K-independent manner. This effect of LPS extended to MEK phosphorylation and IkappaBalpha degradation, and it developed slowly over a period of 16-24 h. The involvement of TLRs is suggested by similar effects observed with a structurally distinct TLR agonist, PAM3CSK4 and by the need for MyD88 for induction of alternate BCR signaling by LPS. Thus, LPS-mediated TLR engagement produces an alternate pathway for BCR-triggered signal propagation that differs from the classical, signalosome-dependent pathway.
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PMID:B cell receptor cross-talk: exposure to lipopolysaccharide induces an alternate pathway for B cell receptor-induced ERK phosphorylation and NF-kappa B activation. 1757 42

Through DNA microarray analysis and quantitative PCR verification, we have identified additional IL-17A-inducible genes-IL-19, CXCL-1, -2, -3, -5, and -6-in well-differentiated normal human bronchial epithelial cells. These genes, similar to previously described human beta-defensin-2 (HBD-2) and CCL-20, were induced by a basolateral treatment of IL-17A, and regulated by PI3K signaling and NF-kappaB activation. For PI3K signaling, increases of cellular PIP(3) and phosphorylation of downstream molecules, such as Akt and glycogen synthase kinase-3beta (GSK3beta) (S9), were detected. Induced gene expression and HBD-2 promoter activity were attenuated by LY294002, p110alpha small-interfering RNA (siRNA), as well as by an overexpression of constitutively active GSK3beta(S9A) or wild-type phosphatase and tensin homolog. Increased phosphorylation of JAK1/2 after IL-17A treatment was detected in primary normal human bronchial epithelium cells. Transfected siRNAs of JAK molecules and JAK inhibitor I decreased IL-17A-induced gene expression and GSK3beta(S9) phosphorylation. However, both JAK inhibitor I and PI3K inhibitor had no effect on the DNA-binding activities of p65 and p50 to NF-kappaB consensus sequences. This result suggested a JAK-associated PI3K signaling axis is independent from NF-kappaB activation. With siRNA to knockdown STIR (similar expression to fibroblast growth factor and IL-17R; Toll-IL-1R)-related signaling molecules, such as Act1, TNFR-associated factor 6 (TRAF6), and TGF-beta-activated kinase 1 (TAK1), and transfection of A52R, an inhibitor of the MyD88/TRAF6 complex, or dominant-negative TAK1, IL-17A-inducible gene expression and HBD-2 promoter activity were reduced. Additionally, IL-17A-induced p65 and p50 NF-kappaB activations were confirmed and their nuclear translocations were down-regulated by siRNAs of TRAF6 and TAK1. These results suggest that two independent and indispensable signaling pathways-1) JAK1-associated PI3K signaling and 2) Act1/TRAF6/TAK1-mediated NF-kappaB activation-are stimulated by IL-17A to regulate gene induction in human airway epithelial cells.
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PMID:Requirement for both JAK-mediated PI3K signaling and ACT1/TRAF6/TAK1-dependent NF-kappaB activation by IL-17A in enhancing cytokine expression in human airway epithelial cells. 1798 39

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