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)

Cell adhesive interactions play important roles during many normal physiological processes such as embryonic development and wound repair, and also during the progression of diseases such as cancer. Cell adhesion is mediated by the specific interactions of cell surface receptors with extracellular glycoproteins. The best characterized cell adhesion receptors are the integrins. Integrins comprise a family of more than 23 noncovalent, heterodimeric complexes consisting of an alpha and a beta subunit. Each subunit is a glycoprotein with a large, globular extracellular domain and a transmembrane domain. Most integrins have relatively small cytoplasmic domains consisting of fewer than 60 amino acids. Although many integrins can bind fibronectin, the alpha 5, beta 1, integrin is the major fibronectin receptor on most cells. This integrin mediates such cellular responses to fibronectin substrates as adhesion, migration, assembly of extracellular matrix, and signal transduction. Integrin ligands, such as fibronectin, are not passive adhesive molecules but are active participants in the cell adhesive process that leads to signal transduction. The best characterized integrin ligand is fibronectin. Fibronectin is a multifunctional glycoprotein comprised of three different types of homologous repeating units (termed type I, type II, and type III). Fibronectin has at least two independent cell adhesive regions: one located near the center of the polypeptide chain in the ninth and tenth type III modules binds to the alpha 5 beta 1 integrin. The biological function of the central cell adhesive region requires two critical amino acid sequences--an Arg-Gly-Asp (RGD) sequence and a Pro-His-Ser-Arg-Asn (PHSRN) sequence, which function in synergy--for optimal binding to the alpha 5 beta 1 integrin. Furthermore, the spacing between the crucial RGD and PHSRN sequences is also important for activity, suggesting the sequences themselves are necessary, but not sufficient, to account for the cell adhesive activity of fibronectin. One of the manifestations of integrin-mediated signal transduction including protein tyrosine phosphorylation. One cytoplasmic protein that is phosphorylated in response to cell adhesion is the focal adhesion kinase known as pp125FAK or FAK. The beta 1, beta 3, and beta 5 integrin intracellular domains are sufficient to initiate signal transduction pathways. Furthermore, alternative splicing can regulate the ability of beta integrin intracellular domains to participate in signal transduction. Other intracellular responses to cell adhesion include stimulation of migration, the assembly of an F-actin cytoskeleton and specialized structures called focal contacts, changes of cytoplasmic pH and calcium ion concentration, and modulation of proliferation and gene expression. Such varied modes of signal transduction are probably differentially controlled by a mechanism that requires either integrin receptor clustering alone, ligand occupancy in addition to clustering, or clustering and/or ligand occupancy plus tyrosine kinase activity for different responses. The examination of the fundamental mechanisms important for adhesion of cultured human cells and the resultant signaling processes has the potential of providing an understanding of molecular mechanisms involved in complex physiological processes and serving the basis for the development of novel therapeutic agents for the treatment of human disease.
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PMID:Integrins in cell adhesion and signaling. 918 47

The inappropriate activation of protein-tyrosine kinases (PTKs) has been associated with initiation and progression of several types of human cancers. We therefore postulated that immortalization by DNA tumor viruses results in the induction of PTKs fundamental to these processes. An RT-PCR-based screen was thus used to identify PTKs that were abundantly expressed in HPV-18-immortalized epithelial cells and HPV-containing carcinoma cell lines. One of the genes isolated in this screen was the focal adhesion kinase (FAK; pp125FAK), a cytoplasmic protein kinase that is activated in v-src transformed cells or by stimulation with mitogenic polypeptides. FAK also becomes catalytically active upon integrin engagement with extracellular matrix proteins, such as fibronectin. We found that FAK expression and activity were significantly elevated in HPV-18 E6/E7-immortalized human genital epithelial cells relative to their primary cell counterparts. Protein expression and tyrosine phosphorylation of the putative FAK substrate, paxillin, were also notably increased upon HPV-18 immortalization of genital epithelial cells and in HPV-containing cervical carcinoma cell lines. Most significantly, these cells expressed markedly higher levels of both intracellular and extracellular fibronectin, thus providing a mechanism for activation of FAK and increased tyrosine phosphorylation of paxillin. These findings suggest a role for the integrin/FAK-mediated signaling pathway in cervical carcinogenesis and represent one of the first demonstrations of a tyrosine kinase whose activity is elevated following viral immortalization.
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PMID:Activation of the focal adhesion kinase signal transduction pathway in cervical carcinoma cell lines and human genital epithelial cells immortalized with human papillomavirus type 18. 923 61

We have identified a novel cytoplasmic protein, leupaxin, that is preferentially expressed in hematopoietic cells and is most homologous to the focal adhesion protein, paxillin. Leupaxin possesses two types of protein interaction domains. There are four carboxyl-terminal LIM domains in leupaxin that share 70% amino acid identity and 80% similarity with those in paxillin. Paxillin LIM domains mediate localization to focal contacts. In the amino-terminal region of leupaxin there are three short stretches of approximately 13 amino acids that share 70-90% similarity with paxillin LD motifs. Paxillin LD motifs have been implicated in focal adhesion kinase (FAK) and vinculin binding resulting in the localization of FAK to focal adhesions. Leupaxin is expressed in cell types, such as macrophage, that lack FAK. We demonstrate here that leupaxin associates with a second FAK family member, PYK2. As leupaxin and PYK2 are both preferentially expressed in leukocytes they may therefore form a cell type-specific signaling complex. We also demonstrate that leupaxin is a substrate for a tyrosine kinase in lymphoid cells and thus may function in and be regulated by tyrosine kinase activity. Leupaxin is thus a phosphotyrosine protein with LD and LIM binding motifs most homologous to paxillin that may assemble and regulate PYK2 signaling complexes in leukocytes.
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PMID:Leupaxin is a novel LIM domain protein that forms a complex with PYK2. 956 92

Paxillin is a 68 kDa cytoplasmic protein that localizes to discrete sites of cell attachment to the extracellular matrix called focal adhesions. It is a multi-domain adapter protein capable of interacting with several structural and signaling proteins including vinculin, FAK, PYK2, Src and Crk. Phosphorylation of paxillin in response to integrin-mediated cell adhesion and growth factor stimulation regulates some of these interactions. Thus, paxillin functions as a scaffold for the recruitment of molecules into a signal transduction complex that is closely apposed to the plasma membrane. This is likely to facilitate the efficient processing of external stimuli that modulate important cellular events including cell adhesion, cell motility and growth control. Since paxillin interacts with several proteins known to cause cell transformation, the binding sites for these proteins on paxillin represent potential targets for therapeutic agents.
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PMID:Paxillin. 978 58

Fluoride is an acknowledged bone anabolic agent. Nevertheless, a narrow therapeutic window and the adverse effects at higher therapeutic doses prevent broad clinical application of fluoride for treatment of diseases of bone loss, such as osteoporosis. The cellular and molecular mechanisms of fluoride action are poorly understood. recent advances in the elucidation of signal transduction pathways induced by fluoride in osteoblastic cells are reviewed. Fluoride and traces of aluminum form a complex, fluoroaluminate, which stimulates cellular heterotrimeric G proteins. Such complex can form in food, drinking water and in the organism after administration of sodium fluoride. Fluoroaluminate crosses the cell membrane and directly binds to the membrane-associated inactive G alpha protein subunits. Within the G alpha subunit, fluoroaluminate occupies the position next to GDP. The resulting G alpha-GDP-AlF4- complex assumes an active state conformation, which resembles that of G alpha-GTP complex. Under physiological conditions, G alpha-GTP complex is formed upon activation of seven transmembrane receptors that couple to heterotrimeric G proteins. Both fluoroaluminate-activated and receptor-activated G alpha subunits are capable of transmitting intracellular signals that lead to cellular responses. In bone-forming cells osteoblasts, fluoroaluminate stimulates pertussis toxin-sensitive G alpha i proteins. G alpha i activation leads to the reduction in cAMP (cyclic adenosine monophosphate) levels and to the activation of mitogen activated protein kinases, Erks (extracellular signal-regulated kinases) and p70 S6 kinase. These kinases are involved in the regulation of gene transcription and protein syntheses. Fluoroaluminate also stimulates pertussis toxin-insensitive proteins. Pertussis toxin-insensitive G proteins, most likely from G alpha 12 class, cause the activation of several cytoplasmic protein tyrosine kinases [Src, Pyk2 (proline-rich tyrosine kinase 2), and Fak (focal adhesion kinase)]. Activation of Erks can lead to osteoblast proliferation and differentiation, while activation of Src, Pyk2 and Fak can modulate the adhesion properties of osteoblasts. Osteoblast adhesion may, in turn, influence differentiation, migration, and apoptosis of these cells. The susceptibility of osteoblasts to fluoroaluminate can be achieved by their specific cellular context and by the rigidity of the surrounding bone tissue. In particular, higher levels of G alpha i proteins and of certain focal adhesion proteins are expressed by osteoblastic rather than by fibroblastic cells. The rigidity of adhesion substratum of osteoblasts may signal on its own and potentiate the signaling by fluoroaluminate. The information on mechanisms of intracellular signaling by fluoroaluminate can be utilized to identify a fluoroaluminate mimic, a drug that exhibits anabolic action on bone with a broader therapeutic range and less adverse effects than fluoride.
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PMID:Heterotrimeric G proteins as fluoride targets in bone (review). 991 18

The Antarctic psychrotrophic bacterium Pseudomonas syringae contains a 66-kDa cytoplasmic protein which was found to by phosphorylated on a tyrosine residue [Ray, M.K. et al. (1994) FEMS Microbiol. Lett. 122, pp. 49-54]. To investigate the nature of the cytoplasmic protein tyrosine kinase and its role in the bacterial physiology, we carried out some biochemical studies of the enzyme in vitro in the presence of exogenous peptide substrates and expression studies in vivo at low and high temperature during various phases of growth. The results suggest that the protein tyrosine kinase associated with the cytoplasmic fraction of the bacterium has certain similarities and dissimilarities with the known eukaryotic tyrosine kinases. The protein tyrosine kinase could phosphorylate exogenous substrate corresponding to the N-terminal peptide of p34cdc2 kinase but could not do so on poly(Glu:Tyr). The enzyme could not be inhibited by genistein, staurosporine and dimethyl aminopurine, but could be inhibited by piceatannol which is a known competitive inhibitor of the peptide binding site of mammalian protein tyrosine kinases. The enzyme activity in the cytoplasm is uniquely inhibited by sodium orthovanadate (IC50 = 20 microM) which is a known protein tyrosine phosphatase inhibitor. The expression studies show that the enzyme is produced more at a higher temperature (22 degrees C) of growth than at lower temperature (4 degrees C) and during the stationary phase of growth of P. syringae.
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PMID:Studies on the cytoplasmic protein tyrosine kinase activity of the Antarctic psychrotrophic bacterium Pseudomonas syringae. 1022 68

Erythropoietin (Epo)-independent differentiation of erythroid progenitors is a major characteristic of myeloproliferative disorders, including chronic myeloid leukemia. Epo receptor (EpoR) signaling is crucial for normal erythroid development, as evidenced by the properties of Epo(-/-) and EpoR(-/-) mice, which contain a normal number of fetal liver erythroid progenitors but die in utero from a severe anemia attributable to the absence of red cell maturation. Here we show that two constitutively active cytoplasmic protein tyrosine kinases, P210(BCR-ABL) and v-SRC, can functionally replace the EpoR and support full proliferation, differentiation, and maturation of fetal liver erythroid progenitors from EpoR(-/-) mice. These protein tyrosine kinases can also partially complement the myeloid growth factors IL-3, IL-6, and Steel factor, which are normally required in addition to Epo for erythroid development. Additionally, BCR-ABL mutants that lack residues necessary for transformation of fibroblasts or bone marrow cells can fully support normal erythroid development. These results demonstrate that activated tyrosine kinase oncoproteins implicated in tumorigenesis and human leukemia can functionally complement for cytokine receptor signaling pathways to support normal erythropoiesis in EpoR-deficient cells. Moreover, terminal differentiation of erythroid cells requires generic signals provided by activated protein tyrosine kinases and does not require a specific signal unique to a cytokine receptor.
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PMID:BCR-ABL and v-SRC tyrosine kinase oncoproteins support normal erythroid development in erythropoietin receptor-deficient progenitor cells. 1055 95

Tetracycline resistant Neisseria gonorrhoeae (TRNG) contain a 25.2 MDa TetM plasmid encoding a 68 KDa cytoplasmic protein which confers high-level tetracycline resistance. The aim of this study was to subtype all TRNG isolated in Scotland between 1992 and 1998. Subtyping was performed by a polymerase chain reaction (PCR) assay which characterizes the TetM plasmid as either the Dutch variant (443 base pair product) or the American variant (777 base pair product). Of the 78 TRNG isolates, 35 were the American variant and 43 were the Dutch variant. TRNG were distributed amongst 30 serovar/auxotype classes, the most common being 1A6/NR (11.5%), 1A6/P (14.1%) and 1B4/NR (14.1%). The country where infection was acquired was known for 36 of the 46 TRNG strains isolated between 1996 and 1998. All infections acquired in Asia and South America were the Dutch variant whereas all infections acquired in Africa were the American variant. A penicillinase plasmid was present in 66% (23/35) of the American variant TRNG compared with 51% (22/43) of the Dutch variant: the 3.2 MDa penicillinase plasmid was found in 87% of the American variant TRNG whereas the 4.4 MDa penicillinase plasmid was found in 68% of the Dutch variant TRNG. We conclude that subtyping of TRNG by PCR is a useful tool in studying the epidemiology of gonococcal infection due to plasmid-mediated resistant isolates.
Int J STD AIDS 1999 Oct
PMID:Subtyping of high-level plasmid-mediated tetracycline resistant Neisseria gonorrhoeae isolated in Scotland between 1992 and 1998. 1058 30

Acid beta-glucosidase (GCase) is the enzyme deficient in Gaucher disease, a prototypical inherited metabolic error for enzyme and gene therapy. An 80-kDa cytoplasmic protein, termed TCP80, was found to inhibit GCase mRNA translation in mammalian cells by binding to RNA-coding regions. The TCP80 cDNA was cloned by screening an expression library with the GCase-coding region RNA. The cDNA sequence was nearly identical to those for M-phase phosphoprotein (MPP4; 99%) and for the IL-2 enhancer binding protein (NF90; 96%). Expression of the carboxy-terminal third, TCP30, showed it to be an RNA-binding protein that bound to a 184-nt fragment of GCase-coding sequence near the 5' end of the mature mRNA. When added to reactions, a large molar excess of TCP30 diminished the translation inhibition of GCase RNA by cytoplasmic TCP80. TCP50, expressed from the NH(2)-terminal two-thirds of TCP80, did not bind to nor inhibit the translation of GCase RNA. Reconstitution of in vitro translation inhibition of GCase RNA required intact human TCP80 heterologously expressed in insect cells. Time course analyses show that TCP80 functions at the initiation phase of GCase mRNA translation, probably by inhibiting its binding to polysomes. Seven additional RNAs were isolated by specific binding to TCP30 including those for aldolase B, complement protein 8 gamma-subunit, fibronectin receptor beta1, ABL, lactate dehydrogenase A, fibrinogen gamma-chain, and peroxisomal proliferator-activated receptor alpha. In vitro translation of their RNAs was inhibited by TCP80. These studies show that TCP80 has RNA-binding (TCP30) and inhibitory (TCP50) domains that function to modulate translation of several mRNAs. TCP80 is likely identical to MPP4 and NF90, but has previously undescribed roles in cellular function.
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PMID:Molecular cloning and characterization of a translational inhibitory protein that binds to coding sequences of human acid beta-glucosidase and other mRNAs. 1060 73

Cross-linking of FcepsilonRI induces the activation of three protein tyrosine kinases, Lyn, Syk, and Bruton's tyrosine kinase (Btk), leading to the secretion of a panel of proinflammatory mediators from mast cells. This study showed phosphorylation at Ser-473 and enzymatic activation of Akt/protein kinase B, the crucial survival kinase, upon FcepsilonRI stimulation in mouse mast cells. Phosphorylation of Akt is regulated positively by Btk and Syk and negatively by Lyn. Akt in turn can regulate positively the transcriptional activity of interleukin (IL)-2 and tumor necrosis factor (TNF)-alpha promoters. Transcription from the nuclear factor kappaB (NF-kappaB), nuclear factor of activated T cells (NF-AT), and activator protein 1 (AP-1) sites within these promoters is under the control of Akt activity. Accordingly, the signaling pathway involving IkappaB-alpha, a cytoplasmic protein that binds NF-kappaB and inhibits its nuclear translocation, appears to be regulated by Akt in mast cells. Catalytic activity of glycogen synthase kinase (GSK)-3beta, a serine/threonine kinase that phosphorylates NF-AT and promotes its nuclear export, seems to be inhibited by Akt. Importantly, Akt regulates the production and secretion of IL-2 and TNF-alpha in FcepsilonRI-stimulated mast cells. Altogether, these results revealed a novel function of Akt in transcriptional activation of cytokine genes via NF-kappaB, NF-AT, and AP-1 that contributes to the production of cytokines.
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PMID:Akt-dependent cytokine production in mast cells. 1097 38

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