Spelling suggestions: "subject:"local adhesion 3kinase"" "subject:"local adhesion 3βkinase""
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FAK Modulates Cell Adhesion Strengthening Via Two Distinct Mechanisms: Integrin Binding and Vinculin LocalizationMichael, Kristin E. 16 November 2006 (has links)
Cell adhesion to the extracellular matrix (ECM) provides tissue structure and integrity as well as triggers signals that regulate complex biological processes such as cell cycle progression and tissue-specific cell differentiation. Hence, cell adhesion is critical to numerous physiological and pathological processes, including embryonic development, cancer metastasis, and wound healing, as well as biotechnological applications, such as
host responses to implanted devices and integration of tissue-engineered constructs.
During the adhesion process, integrin surface receptors bind ECM proteins, cluster, and associate with the actin cytoskeleton. Subsequent strengthening of the integrin/actin cytoskeleton interaction occurs via complexes of proteins known as focal adhesions. Due to the close association between biochemical and biophysical processes within adhesion complexes, mechanical analyses can provide important new insights into structure/function relationships involved in regulating the adhesion process. The objective of this project was to investigate the role of the protein tyrosine kinase FAK in cell adhesion
strengthening. Our central hypothesis was that FAK regulates adhesion strengthening by modulating interactions between integrins and FA structural components. Using a novel combination of genetically engineered cells to control the interactions of FAK, a spinning disk adhesion assay with micropatterned substrates to obtain reproducible and sensitive measurements of adhesion strength, and quantitative biochemical assays for analyzing changes in adhesive complexes, we demonstrate that FAK modulates adhesion strengthening via two distinct mechanisms: (1) FAK expression results in elevated
integrin activation leading to regulation of strengthening rate and (2) FAK regulates steady-state adhesion strength via vinculin recruitment to focal adhesions. We also show
that the autophosphorylation and catalytic sites of FAK are critical to this regulation of adhesion strengthening. This work is significant because it both identifies functional mechanisms of FAK and provides the first evidence that focal adhesion signaling regulates the adhesion strengthening process. Furthermore, this research demonstrates
that the dependency of migration on adhesion strength is highly complex and establishes a need for adhesion strengthening metrics in analyzing the functional mechanisms of molecules within adhesion complexes.
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Prostate transglutaminase (TGase-4, TGaseP) enhances the adhesion of prostate cancer cells to extracellular matrix, the potential role of TGase-core domainJiang, Wen, Ye, Lin, Sanders, Andrew, Ruge, Fiona, Kynaston, Howard, Ablin, Richard, Mason, Malcolm January 2013 (has links)
BACKGROUND:Transglutaminase-4 (TGase-4), also known as the Prostate Transglutaminase, is an enzyme found to be expressed predominately in the prostate gland. The protein has been recently reported to influence the migration and invasiveness of prostate cancer cells. The present study aimed to investigate the influence of TGase-4 on cell-matrix adhesion and search for the candidate active domains] within the protein.METHODS:Human prostate cancer cell lines and prostate tissues were used. Plasmids that encoded different domains and full length of TGase-4 were constructed and used to generate sublines that expressed different domains. The impact of TGase-4 on in vitro cell-matrix adhesion, cell migration, growth and in vivo growth were investigated. Interactions between TGase-4 and focal adhesion complex proteins were investigated using immunoprecipitation, immunofluorescence and phosphospecific antibodies.RESULTS:TGase-4 markedly increased cell-matrix adhesion and cellular migration, and resulted in a rapid growth of prostate tumours in vivo. This effect resided in the Core-domain of the TGase-4 protein. TGase-4 was found to co-precipitate and co-localise with focal adhesion kinase (FAK) and paxillin, in cells, human prostate tissues and tumour xenografts. FAK small inhibitor was able to block the action mediated by TGase-4 and TGase-4 core domain.CONCLUSION:TGase-4 is an important regulator of cell-matrix adhesion of prostate cancer cells. This effect is predominately mediated by its core domain and requires the participation of focal adhesion complex proteins.
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Fibronectin-dependent Activation of CaMK-II Promotes Focal Adhesion Turnover by Inducing Tyrosine Dephosphorylation of FAK and PaxillinEasley, Charles, IV 01 January 2008 (has links)
Transient elevations in Ca2+ have previously been shown to promote focal adhesion disassembly and cell motility. Yet the targets of these Ca2+ transients have not been fully examined. In this study, we demonstrate that CaMK-II, a Ca2+/calmodulin dependent protein kinase, is activated in response to β1 integrin engagement with fibronectin to influence fibroblast adhesion and motility. We also show that CaMK-II is dynamically localized to the cell surface using Total Internal Reflection Fluorescence microscopy (TIRFm) and that inhibition of CaMK-II with two mechanistically distinct, membrane permeant inhibitors accelerates spreading on fibronectin, enlarges paxillin-containing focal adhesions and blocks cell motility. On the other hand, expression of constitutively active CaMK-II reduces cell attachment, eliminates paxillin from focal adhesions and decreases the phospho-tyrosine levels of both FAK and paxillin. Cell spreading, paxillin incorporation into focal adhesions and phospho-tyrosine levels of FAK and paxillin are restored when cells expressing constitutively active CaMK-II are subsequently treated with myr-AIP, a specific CaMK-II catalytic inhibitor. Like CaMK-II inhibition, constitutively active CaMK-II blocks cell motility. Thus, both CaMK-II inhibition and constitutive activation block cell motility through over-stabilization or destabilization of focal adhesions, respectively. These findings provide the first direct evidence that CaMK-II promotes focal adhesion turnover and thus enables cell motility by stimulating tyrosine dephosphorylation of focal adhesion proteins.
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Development of a substrate with photo-modulatable rigidity for probing spatial and temporal responses of cells to mechanical signalsFrey, Margo Tilley 04 August 2008 (has links)
"Topographical and mechanical properties of adhesive substrates provide important biological cues that affect cell spreading, migration, growth, and differentiation. The phenomenon has led to the increased use of topographically patterned and flexible substrates in studying cultured cells. However, these studies may be complicated by various limitations. For example, the effects of ligand distribution and porosity are affected by topographical features of 3D biological constructs. Similarly, many studies of mechanical cues are compounded with cellular deformation from external forces, or limited by comparative studies of separate cells on different substrates. Furthermore, understanding cell responses to mechanical input is dependent upon reliable measurements of mechanical properties. This work addresses each of these issues. To determine how substrate topography and focal adhesion kinase (FAK) affect cell shape and movement, I studied FAK-null (FAK -/-) and wild type mouse 3T3 fibroblasts on chemically identical polystyrene substrates with either flat surfaces or micron-sized pillars, I found that, compared to cells on flat surfaces, those on pillar substrates showed a more branched shape, an increased linear speed, and a decreased directional stability, which were dependent on both myosin-II and FAK. To study the dynamic responses to changes in substrate stiffness without other confounding effects, I developed a UV-modulatable substrate that softens upon UV irradiation. As atomic force microscopy (AFM) proved inadequate to detect microscale changes in stiffness, I first developed and validated a microsphere indentation method that is compatible with fluorescence microscopy. The results obtained with this method were comparable to those obtained with AFM. The UV-modulatable substrates softened by ~20-30% with an intensity of irradiation that has no detectable effect on 3T3 cells on control surfaces. Cells responded to global softening of the substrate with an initial retraction followed by a gradual reduction in spread area. Precise spatial control of softening is also possible - while there was little response to posterior softening, anterior softening elicited a pronounced retraction and either a reversal of cell polarity or a significant decrease in spread area if the cells move into the softened region. In conclusion, these techniques provide advances in gaining mechanistic insight into cellular responses to topographical and mechanical cues. Additionally, there are various other potential applications of the novel UV-softening substrate, particularly in regenerative medicine and tissue engineering. "
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The Mechanotransduction of Hydrostatic Pressure by Mesenchymal Stem CellsSeyedeh Ghazaleh Hosseini (5931062) 17 January 2019 (has links)
<div>Mesenchymal stem cells (MSCs) are responsive to mechanical stimuli that play an essential role in directing their differentiation to the chondrogenic lineage. A better</div><div>understanding of the mechanisms that allow MSCs to respond to mechanical stimuli is important to improving cartilage tissue engineering and regenerative medicine. Hydrostatic pressure (HP) in particular is known to be a primary mechanical force in joints. However, little is known about the underlying mechanisms that facilitate HP</div><div>mechanotransduction. Understanding the signaling pathways in MSCs in transducing HP to a beneficial biologic response and their interrelationship were the focus of this thesis. Studies used porcine marrow-derived MSCs seeded in agarose gel. Calcium ion Ca++ signaling, focal adhesion kinase (FAK) involvement, and sirtuin1 activity were investigated in conjunction with HP application.</div><div><br></div><div><div>Intracellular Ca++ concentration was previously shown to be changed with HP application. In our study a bioreactor was used to apply a single application of HP to the MSC-seeded gel structures and observe Ca++ signaling via live imaging of a fluorescent calcium indicator in cells. However, no fluctuations in Ca++ concentrations were observed with 10 minutes loading of HP. Additionally a problem with the biore actor design was discovered. First the gel was floating around in the bioreactor even without loading. After stabilizing the gel and stopping it from floating, there were still about 16 µm of movement and deformation in the system. The movement and deformation was analyzed for the gel structure and different parts of the bioreactor. </div><div><br></div><div>Furthermore, we investigated the role of FAK in early and late chondrogenesis and also its involvement in HP mechanotransduction. A FAK inhibitor was used on MSCs from day 1 to 21 and showed a dose-dependent suppression of chondrogenesis. However, when low doses of FAK inhibitor added to the MSC culture from day 21 to 42, chondrogenesis was not inhibited. With 4 hour cyclic HP, FAK phosphorylation increased. The beneficial effect of HP was suppressed with overnight addition of the</div></div><div><div>FAK inhibitor to MSC medium, suggesting FAK involvement in HP mechanotransducation by MSCs.</div></div><div><br></div><div>Moreover, sirtuin1 participation in MSC chondrogenesis and mechanotransduction was also explored. The results indicated that overnight sirtuin1 inhibition increased chondrogenic gene expression (Agc, Col2, and Sox9) in MSCs. Additionally, the activity of sirtuin1 was decreased with both 4 hour cyclic hydrostatic pressure and inhibitor application. These two together demonstrated that sirtuin1 inhibition enhances chondrogenesis.</div><div><br></div><div><div>In this research we have investigated the role of Ca++ signaling, FAK involvement, and sirtuin1 activity in the mechanotransduction of HP in MSCs. These understandings about the mechanisms regulating the chondrogenesis with respect to HP could have important implications for cartilage tissue engineering and regenerative studies.</div></div>
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Focal adhesion kinase signaling regulates highly productive transduction of adeno-associated virus through integrin-mediated endocytosisKaminsky, Paul Michael 01 May 2013 (has links)
Recombinant adeno-associated virus (rAAV) is a widely used gene therapy vector. Although a wide range of rAAV serotypes can effectively enter most cell types, their transduction efficiencies (i.e., transgene expression) can vary widely depending on the target cell type. Integrins play important roles as co-receptors for rAAV infection, however, it remains unclear how integrin-dependent and -independent mechanisms of rAAV endocytosis influence the efficiency of intracellular virus processing and ultimately transgene expression. In this thesis, I examined the contribution of integrin-mediated endocytosis to transduction of fibroblasts by rAAV2. I found that promoting AAV2/integrin binding with Mn++ greatly enhanced (~17-fold) rAAV2 transduction independently of cell binding and endocytosis. Subcellular localization studies of rAAV2 demonstrated that integrin activation by Mn++ promoted AAV2 aggregation on alpha5 and beta1 integrins and recruitment of the cytosolic integrin effector protein vinculin. Focal adhesion kinase (FAK), a down stream effector of integrin signals, was essential for AAV/integrin complex endocytosis and transduction, but not AAV2 recruitment to integrins. Recruitment of FAK to AAV2/integrin complexes was increased by transiently trapping the endocytic event at the plasma membrane by pharmacologic inhibition of dynasore. This also increased the size of AAV2 clusters found beneath the cell at FAK/integrin complexes resembling immature filopodia and caused a large, FAK-dependent (75-fold) increase in AAV2 transduction. These findings support a model whereby integrin activation at the cell surface can redirect rAAV2 toward a FAK-dependent entry pathway that is more productive for cellular transduction. This pathway appears to be conserved for other rAAV serotypes that contain a capsid integrin-binding domain (AAV1 and 6).
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Studies on the transmembrane signaling of β1 integrinsArmulik, Annika January 2000 (has links)
<p>Integrins are heterodimeric cell surface receptors, composed of an α and a β subunit, mainly binding for extracellular matrix proteins. lntegrin subunit β1 can combine with at least 12 a subunits and thus form the biggest subfamily within the integrin family. In this thesis, functional properties of the splice variant β1Β, and the effects of several mutations in the cytoplasmic tail of integrin subunit β1Α were studied. In addition, the border between the transmembrane and cytoplasmic domains of several integrin subunits was determined.</p><p>The β1Β splice variant has been reported to have a dominant negative effect on functions of β1Α integrins. In this study, it was studied if the expression of β1Β had similar negative effects on the αvβ3 integrin functions since the β3 subunit is structurally similar to β1Α. The β1Β subunit was expressed in an integrin β1-deficient cell line and it was found that the presence of β1Β does not interfere with adhesion or signaling of endogenous αvβ3</p><p>The border between the cytoplasmic domain and the C-terminal end of the transmembrane domain of integrin α and β subunits has been unclear. This question was experimentally addressed for integrin subunits β1, β2, α2 and α5. It was found that integrin subunits contain a positively charged lysine, which is embedded in the membrane in the absence of interacting proteins.</p><p>The functional importance of the lysine in integrin transmembrane domains was investigated by mutating this amino acid to leucine in β1Α. The mutation affected cell spreading and tyrosine phosphorylation of the adapter protein CAS. The activation of focal adhesion kinase and tyrosine phosphorylation of paxillin was not affected. Furthermore, the mutation of two tyrosines to phenylalanines in the β1Α cytoplasmic tail was found to reduce the capability of β1Α integrins to mediate cell spreading and migration. Activation of focal adhesion kinase in response to the later β1Α mutant was shown to be impaired as well as tyrosine phosphorylation of adapter proteins paxillin and tensin whereas overall tyrosine phosphorylation of CAS was unaffected. These data suggests the presence of focal adhesion kinase-dependent and -independent pathways for tyrosine phosphorylation of CAS after integrin β1Α-mediated adhesion. </p>
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Studies on the transmembrane signaling of β1 integrinsArmulik, Annika January 2000 (has links)
Integrins are heterodimeric cell surface receptors, composed of an α and a β subunit, mainly binding for extracellular matrix proteins. lntegrin subunit β1 can combine with at least 12 a subunits and thus form the biggest subfamily within the integrin family. In this thesis, functional properties of the splice variant β1Β, and the effects of several mutations in the cytoplasmic tail of integrin subunit β1Α were studied. In addition, the border between the transmembrane and cytoplasmic domains of several integrin subunits was determined. The β1Β splice variant has been reported to have a dominant negative effect on functions of β1Α integrins. In this study, it was studied if the expression of β1Β had similar negative effects on the αvβ3 integrin functions since the β3 subunit is structurally similar to β1Α. The β1Β subunit was expressed in an integrin β1-deficient cell line and it was found that the presence of β1Β does not interfere with adhesion or signaling of endogenous αvβ3 The border between the cytoplasmic domain and the C-terminal end of the transmembrane domain of integrin α and β subunits has been unclear. This question was experimentally addressed for integrin subunits β1, β2, α2 and α5. It was found that integrin subunits contain a positively charged lysine, which is embedded in the membrane in the absence of interacting proteins. The functional importance of the lysine in integrin transmembrane domains was investigated by mutating this amino acid to leucine in β1Α. The mutation affected cell spreading and tyrosine phosphorylation of the adapter protein CAS. The activation of focal adhesion kinase and tyrosine phosphorylation of paxillin was not affected. Furthermore, the mutation of two tyrosines to phenylalanines in the β1Α cytoplasmic tail was found to reduce the capability of β1Α integrins to mediate cell spreading and migration. Activation of focal adhesion kinase in response to the later β1Α mutant was shown to be impaired as well as tyrosine phosphorylation of adapter proteins paxillin and tensin whereas overall tyrosine phosphorylation of CAS was unaffected. These data suggests the presence of focal adhesion kinase-dependent and -independent pathways for tyrosine phosphorylation of CAS after integrin β1Α-mediated adhesion.
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Inhibition of Hsp90 and its Client Kinase FAK has Therapeutic Potential in Squamous Cell Carcinomas of the Uterine Cervix and Oral CavitySchwock, Joerg 16 March 2011 (has links)
Heat shock protein 90 (Hsp90) is an essential and conserved chaperone, required for the conformational maturation and stability of many signaling kinases. We hypothesized that the functional pleiotropism of Hsp90 can be exploited during pharmacological inhibition causing simultaneous restraint of tumor growth as well as suppression of distant spread. Recognizing the lack of therapeutic options in advanced and metastatic squamous cell carcinomas (SCC) of the uterine cervix as well as the oral cavity, this dual concept was tested in corresponding cell lines and xenografts, and correlated with clinical data on client protein expression. Examination of the cell cycle response to Hsp90 inhibition revealed a G2/M-arrest in a panel of four cervical cancer cell lines and a contribution of abnormal mitosis to apoptosis induction in vitro. Although limited to intraperitoneal application, in vivo evidence of biological activity including heat shock response and decreased client kinase phosphorylation was seen with the geldanamycin derivative 17-dimethylaminoethylamino-17-demethoxygeldanamycin (17-DMAG). Importantly, focal adhesion kinase (FAK) signaling and associated functional parameters were inhibited by the drug treatment. Functional significance of FAK as a client was confirmed using a molecular model based on FAK-related non-kinase (FRNK) expression. Dependency on FAK appeared to be a requirement for full response to FRNK as well as 17-DMAG, and was observed in the mesenchymal-like cervical cell line SiHa. FAK expression and E-cadherin loss were features found in both cervical and oral malignancies, but absent from normal mucosa of either anatomic site. Particularly high FAK expression was noted in oral SCC with sarcomatoid features. Thus, we conclude that Hsp90 inhibition has potential in the treatment of advanced and metastatic SCC of cervical and oral origin. The further examination of novel Hsp90-targeting compounds as well as strategies focused on other components of the Hsp90 chaperone complex seems warranted.
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Inhibition of Hsp90 and its Client Kinase FAK has Therapeutic Potential in Squamous Cell Carcinomas of the Uterine Cervix and Oral CavitySchwock, Joerg 16 March 2011 (has links)
Heat shock protein 90 (Hsp90) is an essential and conserved chaperone, required for the conformational maturation and stability of many signaling kinases. We hypothesized that the functional pleiotropism of Hsp90 can be exploited during pharmacological inhibition causing simultaneous restraint of tumor growth as well as suppression of distant spread. Recognizing the lack of therapeutic options in advanced and metastatic squamous cell carcinomas (SCC) of the uterine cervix as well as the oral cavity, this dual concept was tested in corresponding cell lines and xenografts, and correlated with clinical data on client protein expression. Examination of the cell cycle response to Hsp90 inhibition revealed a G2/M-arrest in a panel of four cervical cancer cell lines and a contribution of abnormal mitosis to apoptosis induction in vitro. Although limited to intraperitoneal application, in vivo evidence of biological activity including heat shock response and decreased client kinase phosphorylation was seen with the geldanamycin derivative 17-dimethylaminoethylamino-17-demethoxygeldanamycin (17-DMAG). Importantly, focal adhesion kinase (FAK) signaling and associated functional parameters were inhibited by the drug treatment. Functional significance of FAK as a client was confirmed using a molecular model based on FAK-related non-kinase (FRNK) expression. Dependency on FAK appeared to be a requirement for full response to FRNK as well as 17-DMAG, and was observed in the mesenchymal-like cervical cell line SiHa. FAK expression and E-cadherin loss were features found in both cervical and oral malignancies, but absent from normal mucosa of either anatomic site. Particularly high FAK expression was noted in oral SCC with sarcomatoid features. Thus, we conclude that Hsp90 inhibition has potential in the treatment of advanced and metastatic SCC of cervical and oral origin. The further examination of novel Hsp90-targeting compounds as well as strategies focused on other components of the Hsp90 chaperone complex seems warranted.
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