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)

Hypoxia induced mitogenic factor (HIMF) is a member of the FIZZ/resistin/RELM family of proteins that we have shown to have potent mitogenic, angiogenic, and vasoconstrictive effects in the lung vasculature. In the current report, we identified Bruton's tyrosine kinase (BTK) as a functional HIMF binding partner through glutathione S-transferase (GST)-HIMF pull-down studies and mass spectrometry. Using primary cultured HIMF-stimulated murine bone marrow cells, we demonstrated that HIMF causes redistribution of BTK to the leading edge of the cells. HIMF stimulation induced BTK autophosphorylation, which peaked at 2.5 min. A transwell migration assay showed that treatment with recombinant murine HIMF induced migration of primary cultured bone marrow cells that was completely blocked by the BTK inhibitor, LFM-A13. Our results demonstrate BTK as the first known functional binding partner of the HIMF/FIZZ family of proteins and that HIMF acts as a chemotatic molecule in stimulating the migration of myeloid cells through activation of the BTK pathway.
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PMID:Bruton's tyrosine kinase (BTK) is a binding partner for hypoxia induced mitogenic factor (HIMF/FIZZ1) and mediates myeloid cell chemotaxis. 1726 70

The activities of different kinases have been correlated to the phosphorylation of Wiscott-Aldrich syndrome protein (WASP) by studies in multiple cell systems. The purpose of this study was to elucidate the regulatory mechanisms involved in WASP phosphorylation and the resulting sealing ring formation in osteoclasts. The phosphorylation state of WASP and WASP-interacting proteins was determined in osteoclasts treated with osteopontin or expressing either constitutively active or kinase-defective Src by adenovirus-mediated delivery. In vitro kinase analysis of WASP immunoprecipitates exhibited phosphorylation of c-Src, PYK2, WASP, protein-tyrosine phosphatase (PTP)-PEST, and Pro-Ser-Thr phosphatase-interacting protein (PSTPIP). Phosphorylation of these proteins was increased in osteopontin-treated and constitutively active Src-expressing osteoclasts. Pulldown analysis with glutathione S-transferase-fused proline-rich regions of PTP-PEST revealed coprecipitation of WASP, PYK2, c-Src, and PSTPIP proteins with the N-terminal region (amino acids 294-497) of PTP-PEST. Similarly, interaction of the same signaling proteins, as well as PTP-PEST, was observed with glutathione S-transferase-fused proline-rich regions of WASP. Furthermore, osteopontin stimulation or constitutively active Src expression resulted in serine phosphorylation and inhibition of WASP-associated PTP-PEST. The inhibition of PTP-PEST was accompanied by an increase in tyrosine phosphorylation of WASP and other associated signaling proteins. Experiments with an inhibitor to phosphatase and small interference RNA to PTP-PEST confirmed the involvement of PTP-PEST in sealing ring formation and bone resorption. WASP, which is identified in the sealing ring of resorbing osteoclasts, also demonstrates colocalization with c-Src, PYK2, PSTPIP, and PTP-PEST in immunostaining analyses. Our findings suggest that both tyrosine kinase(s) and the tyrosine phosphatase PTP-PEST coordinate the formation of the sealing ring and thus the bone-resorbing function of osteoclasts.
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PMID:Phosphorylation of a Wiscott-Aldrich syndrome protein-associated signal complex is critical in osteoclast bone resorption. 1728 76

Tumour-specific chromosomal rearrangements are known to create chimaeric products with the ability to generate many human cancers. hTAF(II)68-TEC (where hTAF(II)68 is human TATA-binding protein-associated factor II 68 and TEC is translocated in extraskeletal chondrosarcoma) is such a fusion product, resulting from a t(9;17) chromosomal translocation found in extraskeletal myxoid chondrosarcomas, where the hTAF(II)68 NTD (N-terminal domain) is fused to TEC protein. To identify proteins that control hTAF(II)68-TEC function, we used affinity chromatography on immobilized hTAF(II)68 (NTD) and MALDI-TOF (matrix-assisted laser-desorption ionization-time-of-flight) MS and isolated a novel hTAF(II)68-TEC-interacting protein, GAPDH (glyceraldehyde-3-phosphate dehydrogenase). GAPDH is a glycolytic enzyme that is also involved in the early steps of apoptosis, nuclear tRNA export, DNA replication, DNA repair and transcription. hTAF(II)68-TEC and GAPDH were co-immunoprecipitated from cell extracts, and glutathione S-transferase pull-down assays revealed that the C-terminus of hTAF(II)68 (NTD) was required for interaction with GAPDH. In addition, three independent regions of GAPDH (amino acids 1-66, 67-160 and 160-248) were involved in binding to hTAF(II)68 (NTD). hTAF(II)68-TEC-dependent transcription was enhanced by GAPDH, but not by a GAPDH mutant defective in hTAF(II)68-TEC binding. Moreover, a fusion of GAPDH with the GAL4 DNA-binding domain increased the promoter activity of a reporter containing GAL4 DNA-binding sites, demonstrating the presence of a transactivation domain(s) in GAPDH. The results of the present study suggest that the transactivation potential of the hTAF(II)68-TEC oncogene product is positively modulated by GAPDH.
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PMID:Regulation of oncogenic transcription factor hTAF(II)68-TEC activity by human glyceraldehyde-3-phosphate dehydrogenase (GAPDH). 1730 60

The serine-threonine protein kinases PDK1 and PKB each contain a pleckstrin homology (PH) domain that binds the membrane-bound phosphatidylinositol 3,4,5-triphosphate [PI(3,4,5)P3] second messenger and is required for PDK1-catalyzed phosphorylation and activation of PKB. While X-ray structures have been reported for the individual regulatory PH and catalytic kinase domain constructs of both PDK1 and PKB, diffraction quality crystals of full length constructs have yet to be obtained, likely due to conformational heterogeneity. In developing alternative approaches to understanding the potential role of conformational dynamics in regulating PKB phosphorylation by PDK1, an efficient in vitro method for protein trans-splicing was developed, which utilizes the N- and C-terminal split inteins of the gene dnaE from Nostoc punctiforme [(N)NpuDnaE] and Synechocystis sp. strain PCC6803 [(C)SspDnaE], respectively. For conjugating the regulatory PH domain to the catalytic kinase domain of PDK1, the recombinant trans-splicing fusion constructs KINASE(AEY)-(N)NpuDnaE-His6 and GST-His6-(C)SspDnaE-(CMN)PH were designed, PCR assembled, overexpressed, and affinity purified. The cross-reacting (N)NpuDnaE and (C)SspDnaE inteins generated full length spliced-PDK1 with kobs = (2.8 +/- 0.3) x 10(-5) s(-1) and with < or =5% of any competing trans-cleavage reactions. Spliced-PDK1 was efficiently purified to > or =95% homogeneity from the reaction mixture by subsequent His6 affinity and ion exchange chromatography steps. In vitro kinase assays and phosphopeptide mapping studies confirmed that spliced-PDK1 retained the ability to colocalize and selectively phosphorylate Thr-309 of PKBbeta in a PI(3,4,5)P3-dependent manner. The high-level production and reconstitution of functional spliced-PDK1 establishes the feasibility of incorporating domain-specific biophysical probes for spectroscopic studies of regulatory PH domain mediated catalytic specificity.
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PMID:Reconstitution of modular PDK1 functions on trans-splicing of the regulatory PH and catalytic kinase domains. 1750 May 9

The redox regulation of Janus kinase 2 (JAK2) is poorly understood, and there are contradictory reports as to whether the enzyme's activity is inhibited or stimulated by oxidizing conditions in the cell. Here we demonstrate that multiple cysteine residues within the JAK2 catalytic domain may be crucial for enzymatic activity. The enzyme is catalytically inactive when oxidized; activity can be restored via reduction to the thiol state. A series of recombinant variants of JAK2 were overproduced using the baculoviral expression vector system. A truncated variant of JAK2, GST/(NDelta661)rJAK2, provided evidence that the amino-terminal autoinhibitory domain was not essential for direct redox regulation and that only nine cysteine residues were potentially involved. The effect of individually and combinatorially altering these nine cysteines was examined via cysteine-to-serine mutagenesis. This identified four cysteine residues in the catalytic domain (Cys866, Cys917, Cys1094, and Cys1105) that cooperatively maintain JAK2's catalytic competency. Our data are consistent with a direct mechanism for redox regulation of JAK2 via oxidation and reduction of critical cysteine residues.
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PMID:Multiple cysteine residues are implicated in Janus kinase 2-mediated catalysis. 1805 97

ARHGAP21 is highly expressed in the heart, which demonstrates activity over Cdc42 and interacts with proteins of the cytoskeleton and adherent junctions. The main cause of cardiac hypertrophy is mechanical stimulus; therefore we analyzed ARHGAP21 expression after acute mechanical stress in the myocardium and its association with FAK and PKCzeta. We demonstrated that ARHGAP21 is relocated to Z-lines and costameres after pressure overload, and interacts with PKCzeta and FAK in control rats (sham), rats submitted to aortic clamping and spontaneously hypertensive rats (SHR). Co-transfection using ARHGAP21 and PKCzeta constructions demonstrated that ARHGAP21 associates with PKCzeta-GST and endogenous FAK. Pulldown assay showed that ARHGAP21 binds to the C-terminal region of FAK. Moreover, ARHGAP21 binds to PKCzeta phosphorylated on Thr410 in sham and SHR. However, ARHGAP21 only binds to FAK phosphorylated on Tyr925 of SHR. Additionally, PKCzeta is phosphorylated by mechanical stimuli. These results suggest that ARHGAP21 may act as a signaling or scaffold protein of FAK and PKCzeta signaling pathways, developing an important function during cardiac stress.
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PMID:ARHGAP21 associates with FAK and PKCzeta and is redistributed after cardiac pressure overload. 1866 71

Antioxidants significantly inhibit oxidative processes. The study seeks to determine the activity of endogenous antioxidants and CD4+ T-cell expression in HIV-serodiscordant-heterosexual partners. The case-control study had the following groups; A- (13 serodiscordant-seronegative subjects), B- (13 serodiscordant-seropositive subjects) and C/control- (13 healthy volunteers). CD4+ T-cell expression was determined using a FACScan (fluorescent activated cell sorting) flow cytometer. CAT (catalase), superoxide dismutase, glutathione peroxidase (GHPX) and glutathione S-transferase (GST) activities were assayed using spectrophotometer. The activities of SOD, GHPX, GST and CAT were significantly (P < 0.05) increased by 164.7% (0.090 +/- 0.032), 126% (662 +/- 96), 355.2% (22.023 +/- 1.4) and 119.1% (2.76 +/- 0.10), respectively, in group A when compared with B. The mean CD4+ T-cell (1348 +/- 142) showed a significant (P < 0.05) increase by 237% when compared with group B (400 +/- 182). Conversely, group B revealed a significant (P < 0.05) decrease in activity by 86.5% (CAT), 76.5% (SOD), 106.8% (GHPX) and 81.8% (GST) when compared with C. CD4+ T-cells in groups A and C (1390 +/- 190) did not show any significant decrease (3.11%). The antioxidant activity showed a positive correlation (P < 0.01, r = 0.89) with their respective CD4+ T-cells in groups A and C. Group B showed same positive correlation (P < 0.01, r = 0.76). These results show that high activity of endogenous antioxidants may have a protective role on CD4+ T-cells, which limits HIV infection.
Int J STD AIDS 2008 Aug
PMID:High plasma activity of endogenous antioxidants protect CD4+ T-cells in HIV-serodiscordant heterosexual partners in a Nigerian population. 1866 40

Upon growth factor stimulation, the scaffold protein, Gab1, is tyrosine phosphorylated and subsequently the adaptor protein, Crk, transmits signals from Gab1. We have previously shown that Crk overexpression, which is detectable in various human cancers, induces tyrosine phosphorylation of Gab1 without extracellular stimuli. In the present study, the underlying mechanisms were further investigated. Mutational analyses of CrkII demonstrated that the SH2 domain, but not the SH3(N) or the regulatory Y221 residue of CrkII, is critical for the induction of Gab1-Y307 phosphorylation. SH2 mutation of CrkII also decreased the interaction with Gab1. In GST pull-down assay, Crk-SH2 bound to wild-type Gab1, whereas Crk-SH3(N) interacted with the Gab1 mutant, which lacks the clustered tyrosine region (residues 242-410). Tyrosine phosphorylation of Gab1 was induced by all Crk family proteins, but not other SH2-containing signalling adaptors. Src-family kinase inhibitor, PP2, abrogates Crk-induced tyrosine phosphorylations of Gab1. Y307 phosphorylation was undetectable in fibroblasts lacking Src, Yes, and Fyn, even upon overexpression of Crk, whereas cells lacking only Yes and Fyn still contained Gab1 with phosphorylated Y307. Furthermore, Crk induced the phosphorylation of Src-Y416; accordingly the interaction between Crk and Csk was increased. The Gab1-Y307F mutant failed to localize near the plasma membrane even upon HGF stimulation and decreased cell migration. Moreover, Gab1-Y307F disturbed the localization of Crk, FAK, and paxillin, which are the typical components of focal adhesions. Taken together, these results indicate that Crk facilitates tyrosine phosphorylation of Gab1-Y307 through Src, contributing to the organization of focal adhesions and enhanced cell migration, thereby possibly promoting human cancer development.
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PMID:Crk adaptor protein-induced phosphorylation of Gab1 on tyrosine 307 via Src is important for organization of focal adhesions and enhanced cell migration. 1935 53

Clostridium difficile toxin A impairs tight junction function of colonocytes by glucosylation of Rho family proteins causing actin filament disaggregation and cell rounding. We investigated the effect of toxin A on focal contact formation by assessing its action on focal adhesion kinase (FAK) and the adapter protein paxillin. Exposure of NCM460 human colonocytes to toxin A for 1 h resulted in complete dephosphorylation of FAK and paxillin, while protein tyrosine phosphatase activity was reduced. Blockage of toxin A-associated glucosyltransferase activity by co-incubation with UDP-2'3' dialdehyde did not reduce toxin A-induced FAK and paxillin dephosphorylation. GST-pull down and in vitro kinase activity experiments demonstrated toxin A binding directly to the catalytic domain of Src with suppression of its kinase activity. Direct binding of toxin A to Src, independent of any effect on protein tyrosine phosphatase or Rho glucosylation, inhibits Src kinase activity followed by FAK/paxillin inactivation. These mechanisms may contribute to toxin A inhibition of colonocyte focal adhesion that occurs in human colonic epithelium exposed to toxin A.
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PMID:Clostridium difficile toxin A binds colonocyte Src causing dephosphorylation of focal adhesion kinase and paxillin. 1948 Oct 75

Degradation of arylglycerol-beta-aryl ether is the most important process in bacterial lignin catabolism. Sphingobium sp. strain SYK-6 degrades guaiacylglycerol-beta-guaiacyl ether (GGE) to alpha-(2-methoxyphenoxy)-beta-hydroxypropiovanillone (MPHPV), and then the ether linkage of MPHPV is cleaved to generate alpha-glutathionyl-beta-hydroxypropiovanillone (GS-HPV) and guaiacol. We have characterized three enantioselective glutathione S-transferase genes, including two genes that are involved in the ether cleavage of two enantiomers of MPHPV and one gene that is involved in the elimination of glutathione from a GS-HPV enantiomer. However, the first step in the degradation of four different GGE stereoisomers has not been characterized. In this study, three alcohol dehydrogenase genes, ligL, ligN, and ligO, which conferred GGE transformation activity in Escherichia coli, were isolated from SYK-6 and characterized, in addition to the previously cloned ligD gene. The levels of amino acid sequence identity of the four GGE dehydrogenases, which belong to the short-chain dehydrogenase/reductase family, ranged from 32% to 39%. Each gene was expressed in E. coli, and the stereospecificities of the gene products with the four GGE stereoisomers were determined by using chiral high-performance liquid chromatography with recently synthesized authentic enantiopure GGE stereoisomers. LigD and LigO converted (alphaR,betaS)-GGE and (alphaR,betaR)-GGE into (betaS)-MPHPV and (betaR)-MPHPV, respectively, while LigL and LigN transformed (alphaS,betaR)-GGE and (alphaS,betaS)-GGE to (betaR)-MPHPV and (betaS)-MPHPV, respectively. Disruption of the genes indicated that ligD is essential for the degradation of (alphaR,betaS)-GGE and (alphaR,betaR)-GGE and that both ligL and ligN contribute to the degradation of the two other GGE stereoisomers.
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PMID:Identification of three alcohol dehydrogenase genes involved in the stereospecific catabolism of arylglycerol-beta-aryl ether by Sphingobium sp. strain SYK-6. 1954 48

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