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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 p21-activated kinase PAK is targeted to focal complexes (FCs) through interactions with the SH3 domains of the PAK-interacting exchange factor PIX and Nck. PIX is a Rac GTP exchange factor that also binds the G-protein-coupled receptor kinase-interacting protein known as
GIT1
. Overexpression of
GIT1
in fibroblasts or epithelial cells causes a loss of paxillin from FCs and stimulates cell motility. This is due to the direct interaction of a C-terminal 125-residue domain of
GIT1
with paxillin, under the regulation of PIX. In its activated state,
GIT1
can promote FC disassembly independent of actin-myosin contractile events. Additionally, GIT directly couples to a key component of FCs,
focal adhesion kinase
(
FAK
), via a conserved Spa2 homology domain. We propose that
GIT1
and
FAK
cooperate to promote motility both by directly regulating focal complex dynamics and by the activation of Rac.
...
PMID:Coupling of PAK-interacting exchange factor PIX to GIT1 promotes focal complex disassembly. 1093 12
The cytoskeletal matrix assembled at active zones (CAZ) is implicated in defining neurotransmitter release sites. However, little is known about the molecular mechanisms by which the CAZ is organized. Here we report a novel interaction between Piccolo, a core component of the CAZ, and GIT proteins, multidomain signaling integrators with GTPase-activating protein activity for ADP-ribosylation factor small GTPases. A small region (approximately 150 amino acid residues) in Piccolo, which is not conserved in the closely related CAZ protein Bassoon, mediates a direct interaction with the Spa2 homology domain (SHD) domain of
GIT1
. Piccolo and
GIT1
colocalize at synaptic sites in cultured neurons. In brain, Piccolo forms a complex with
GIT1
and various GIT-associated proteins, including betaPIX,
focal adhesion kinase
, liprin-alpha, and paxillin. Point mutations in the SHD of
GIT1
differentially interfere with the association of
GIT1
with Piccolo, betaPIX, and
focal adhesion kinase
, suggesting that these proteins bind to the SHD by different mechanisms. Intriguingly, GIT proteins form homo- and heteromultimers through their C-terminal G-protein-coupled receptor kinase-binding domain in a tail-to-tail fashion. This multimerization enables
GIT1
to simultaneously interact with multiple SHD-binding proteins including Piccolo and betaPIX. These results suggest that, through their multimerization and interaction with Piccolo, the GIT family proteins are involved in the organization of the CAZ.
...
PMID:The GIT family of proteins forms multimers and associates with the presynaptic cytomatrix protein Piccolo. 1247 61
Sphingosine-1 phosphate (S1P) and thrombin are agents with profound but divergent effects on vascular endothelial cell (EC) barrier properties. We have previously reported that S1P-induced focal adhesion (FA) remodeling involves interactions between
focal adhesion kinase
(
FAK
), paxillin, and G-protein-coupled receptor kinase-interacting proteins
GIT1
and GIT2 and suggested a critical involvement of focal adhesions in the EC barrier regulation. In this study, we examined redistribution of FA proteins (
FAK
, paxillin,
GIT1
, and GIT2) and site-specific
FAK
tyrosine phosphorylation in human pulmonary artery endothelial cells stimulated with thrombin. In contrast to S1P, which we have shown to induce peripheral translocation of FA proteins associated with cortical actin ring formation, thrombin caused the redistribution of FA proteins to the ends of the newly formed massive stress fibers. S1P and thrombin induced distinct patterns of
FAK
site-specific phosphorylation with the
FAK
Y576 phosphorylation site targeted by SIP challenge and phosphorylation of three
FAK
sites (Y397, Y576, and Y925) in response to thrombin stimulation. Pharmacological inhibition of Src with Src-specific inhibitor PP2 abolished S1P-induced translocation of FA proteins, cortical actin ring formation, and
FAK
[Y576] phosphorylation. However, PP2 failed to alter thrombin-induced morphological changes and exhibited only partial inhibition of
FAK
site-specific tyrosine phosphorylation. These observations highlight the differential mechanisms of focal adhesion protein complex remodeling and
FAK
activation by S1P and thrombin and link differential FA remodeling to EC barrier regulation.
...
PMID:Involvement of site-specific FAK phosphorylation in sphingosine-1 phosphate- and thrombin-induced focal adhesion remodeling: role of Src and GIT. 1465 86
Thrombin mediates changes in endothelial barrier function and increases endothelial permeability. A feature of thrombin-enhanced endothelial hyperpermeability is contraction of endothelial cells (ECs), accompanied by formation of focal adhesions (FAs). Recently, a G protein-coupled receptor kinase-interacting protein,
GIT1
, was shown to regulate FA disassembly. We hypothesized that
GIT1
modulates thrombin-induced changes in FAs. In human umbilical vein ECs (HUVECs), thrombin recruited
GIT1
to FAs, where
GIT1
colocalized with
FAK
and vinculin. Recruitment of
GIT1
to FAs was dependent on activation of the small GTPase RhoA, and Rho kinase, as demonstrated by adenoviral transfection of dominant-negative RhoA and treatment with Y-27632. Thrombin stimulated
GIT1
tyrosine phosphorylation with a time course similar to
FAK
phosphorylation in a Rho kinase- and Src-dependent manner. Depletion of
GIT1
with antisense
GIT1
oligonucleotides had no effect on basal cell morphology, but increased cell rounding and contraction of HUVECs, increased FA formation, and increased
FAK
tyrosine phosphorylation in response to thrombin, concomitant with increased endothelial hyperpermeability. These data identify
GIT1
as a novel mediator in agonist-dependent signaling in ECs, demonstrate that
GIT1
is involved in cell shape changes, and suggest a role for
GIT1
as a negative feedback regulator that augments recovery of cell contraction.
...
PMID:GIT1 mediates thrombin signaling in endothelial cells: role in turnover of RhoA-type focal adhesions. 1501 33
Overexpression and enhanced activation of the epidermal growth factor (EGF) receptor are frequent events in human cancers that correlate with poor prognosis. Anti-phosphotyrosine and anti-EGFr affinity chromatography, isotope-coded muLC-MS/MS, and immunoblot methods were combined to describe and measure signaling networks associated with EGF receptor activation and pharmacological inhibition. The squamous carcinoma cell line HN5, which overexpresses EGF receptor and displays sustained receptor kinase activation, was used as a model system, where pharmacological inhibition of EGF receptor kinase by erlotinib markedly reduced auto and substrate phosphorylation, Src family phosphorylation at EGFR Y845, while increasing total EGF receptor protein. Diverse sets of known and poorly described functional protein classes were unequivocally identified by affinity selection, comprising either proteins tyrosine phosphorylated or complexed therewith, predominantly through EGF receptor and Src family kinases, principally 1) immediate EGF receptor signaling complexes (18%); 2) complexes involved in adhesion and cell-cell contacts (34%); and 3) receptor internalization and degradation signals. Novel and known phosphorylation sites could be located despite the complexity of the peptide mixtures. In addition to interactions with multiple signaling adaptors Grb2, SHC, SCK, and NSP2, EGF receptors in HN5 cells were shown to form direct or indirect physical interactions with additional kinases including
ACK1
,
focal adhesion kinase
(
FAK
), Pyk2, Yes, EphA2, and EphB4. Pharmacological inhibition of EGF receptor kinase activity by erlotinib resulted in reduced phosphorylation of downstream signaling, for example through Cbl/Cbl-B, phospholipase Cgamma (PLCgamma), Erk1/2, PI-3 kinase, and STAT3/5. Focal adhesion proteins,
FAK
, Pyk2, paxillin, ARF/
GIT1
, and plakophillin were down-regulated by transient EGF stimulation suggesting a complex balance between growth factor induced kinase and phosphatase activities in the control of cell adhesion complexes. The functional interactions between IGF-1 receptor, lysophosphatidic acid (LPA) signaling, and EGF receptor were observed, both direct and/or indirectly on phospho-Akt, phospho-Erk1/2, and phospho-ribosomal S6.
...
PMID:Phosphotyrosine signaling networks in epidermal growth factor receptor overexpressing squamous carcinoma cells. 1565 67
Lysophosphatidic acid (LPA) mediates diverse biological responses, including cell migration, through the activation of G-protein-coupled receptors. Recently, we have shown that LPA stimulates p21-activated kinase (PAK) that is critical for
focal adhesion kinase
(
FAK
) phosphorylation and cell motility. Here, we provide the direct evidence that p85 beta-PIX is required for cell motility of NIH-3T3 cells by LPA through
FAK
and p38 MAP kinase phosphorylations. LPA induced p85 beta-PIX binding to
FAK
in NIH-3T3 cells that was inhibited by pretreatment of the cells with phosphoinositide 3-kinase inhibitor, LY294002. Furthermore, the similar inhibition of the complex formation was also observed, when the cells were transfected with either p85 beta-PIX mutant that cannot bind GIT or dominant negative mutants of Rac1 (N17Rac1) and PAK (PAK-PID). Transfection of the cells with specific p85 beta-PIX siRNA led to drastic inhibition of LPA-induced
FAK
phosphorylation, peripheral redistribution of p85 beta-PIX with
FAK
and
GIT1
, and cell motility. p85 beta-PIX was also required for p38 MAP kinase phosphorylation induced by LPA. Finally, dominant negative mutant of Rho (N19Rho)-transfected cells did not affect PAK activation, while the cells stably transfected with p85 beta-PIX siRNA or N17Rac1 showed the reduction of LPA-induced PAK activation. Taken together, the present data suggest that p85 beta-PIX, located downstream of Rac1, is a key regulator for the activations of
FAK
or p38 MAP kinase and plays a pivotal role in focal complex formation and cell motility induced by LPA.
...
PMID:p85 beta-PIX is required for cell motility through phosphorylations of focal adhesion kinase and p38 MAP kinase. 3099 6
The ArfGAP paxillin kinase linker (PKL)/G protein-coupled receptor kinase-interacting protein (GIT)2 has been implicated in regulating cell spreading and motility through its transient recruitment of the p21-activated kinase (PAK) to focal adhesions. The Nck-PAK-PIX-PKL protein complex is recruited to focal adhesions by paxillin upon integrin engagement and Rac activation. In this report, we identify tyrosine-phosphorylated PKL as a protein that associates with the SH3-SH2 adaptor Nck, in a Src-dependent manner, after cell adhesion to fibronectin. Both cell adhesion and Rac activation stimulated PKL tyrosine phosphorylation. PKL is phosphorylated on tyrosine residues 286/392/592 by Src and/or
FAK
and these sites are required for PKL localization to focal adhesions and for paxillin binding. The absence of either
FAK
or Src-family kinases prevents PKL phosphorylation and suppresses localization of PKL but not
GIT1
to focal adhesions after Rac activation. Expression of an activated
FAK
mutant in the absence of Src-family kinases partially restores PKL localization, suggesting that Src activation of
FAK
is required for PKL phosphorylation and localization. Overexpression of the nonphosphorylated GFP-PKL Triple YF mutant stimulates cell spreading and protrusiveness, similar to overexpression of a paxillin mutant that does not bind PKL, suggesting that failure to recruit PKL to focal adhesions interferes with normal cell spreading and motility.
...
PMID:Src and FAK kinases cooperate to phosphorylate paxillin kinase linker, stimulate its focal adhesion localization, and regulate cell spreading and protrusiveness. 1600 Mar 75
The GIT proteins,
GIT1
and GIT2, are GTPase-activating proteins for the ADP-ribosylation factor family of small GTP-binding proteins, but also serve as adaptors to link signaling proteins to distinct cellular locations. One role for GIT proteins is to link the PIX family of Rho guanine nucleotide exchange factors and their binding partners, the p21-activated protein kinases, to remodeling focal adhesions by interacting with the focal adhesion adaptor protein paxillin. We here identified the C-terminal domain of
GIT1
responsible for paxillin binding. Combining structural and mutational analyses, we show that this region folds into an anti-parallel four-helix domain highly reminiscent to the focal adhesion targeting (FAT) domain of
focal adhesion kinase
(
FAK
). Our results suggest that the
GIT1
FAT-homology (FAH) domain and FAT bind the paxillin LD4 motif quite similarly. Since only a small fraction of
GIT1
is bound to paxillin under normal conditions, regulation of paxillin binding was explored. Although paxillin binding to the FAT domain of
FAK
is regulated by tyrosine phosphorylation within this domain, we find that tyrosine phosphorylation of the FAH domain
GIT1
is not involved in regulating binding to paxillin. Instead, we find that mutations within the FAH domain may alter binding to paxillin that has been phosphorylated within the LD4 motif. Thus, despite apparent structural similarity in their FAT domains,
GIT1
and
FAK
binding to paxillin is differentially regulated.
...
PMID:GIT1 utilizes a focal adhesion targeting-homology domain to bind paxillin. 1746 35
Oxidized phospholipids may appear in the pulmonary circulation as a result of acute lung injury or inflammation. We have previously described barrier-protective effects of oxidized 1-palmitoyl-2-arachidonoyl-sn-glycero-3-phosphocholine (OxPAPC) on human pulmonary endothelial cells (EC) mediated by small GTPases Rac and Cdc42. This work examined OxPAPC-induced focal adhesion (FA) and adherens junction (AJ) remodeling and potential interactions between FA and AJ protein complexes involved in OxPAPC-induced EC barrier enhancement. Immunofluorescence analysis, subcellular fractionation, and coimmunoprecipitation assays have shown that OxPAPC induced translocation and peripheral accumulation of FA complexes containing paxillin,
focal adhesion kinase
, vinculin,
GIT1
, and GIT2, increased association of AJ proteins vascular endothelial-cadherin, p120-catenin, alpha-, beta-, and gamma-catenins, and dramatically enhanced cell junction areas covered by AJ. Coimmunoprecipitation, pulldown assays, and confocal microscopy studies have demonstrated that OxPAPC promoted novel interactions between FA and AJ complexes via paxillin and beta-catenin association, which was critically dependent on Rac and Cdc42 activities and was abolished by pharmacological or small interfering RNA (siRNA)-mediated inhibition of Rac and Cdc42. Depletion of beta-catenin using the siRNA approach attenuated OxPAPC-induced paxillin translocation to the cell periphery, but also significantly decreased interaction of paxillin with AJ protein complex. In turn, paxillin knockdown by specific siRNA attenuated AJ enhancement in response to OxPAPC. These results show for the first time the novel interactions between FA and AJ protein complexes critical for EC barrier regulation by OxPAPC.
...
PMID:Paxillin-beta-catenin interactions are involved in Rac/Cdc42-mediated endothelial barrier-protective response to oxidized phospholipids. 1751 57
Several proteins act in concert to promote remodeling of the actin cytoskeleton during migration. This process is highly regulated by small GTP-binding proteins of the ADP-ribosylation factor (ARF) family of proteins. Here, we show that endothelin-1 (ET-1) can promote the activation of ARF6 and migration of endothelial cells through the activation of ET(B) receptors. Inhibition of ARF6 expression using RNA interference markedly impairs basal and ET-1 stimulated cell migration. In contrast, depletion of ARF1 has no significant effect. In order to delineate the underlying mechanism, we examined the signaling events activated in endothelial cells following ET-1 stimulation. Here, we show that this hormone promotes the phosphorylation of
focal adhesion kinase
(
FAK
), Erk1/2, and the association of
FAK
to Src, as well as of
FAK
to
GIT1
. These have been shown to be important for the formation and turnover of focal adhesions. In non-stimulated cells, depletion of ARF6 leads to increased
FAK
and Erk1/2 phosphorylation, similar to what is observed in ET-1 treated cells. In these conditions,
FAK
is found constitutively associated with the soluble tyrosine kinase, Src. In contrast, depletion of ARF6 impairs the ability of
GIT1
to form an agonist promoted complex with
FAK
, thereby preventing disassembly of focal adhesions. As a consequence, ARF6 depleted endothelial cells are impaired in their ability to form capillary tubes. Taken together, our data suggest that ARF6 is central in regulating focal adhesion turnover in endothelial cells. Our study provides a molecular mechanism by which, this small GTPase regulates cell motility, and ultimately angiogenesis.
...
PMID:Endothelin-1 promotes migration of endothelial cells through the activation of ARF6 and the regulation of FAK activity. 1881 47
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