Inibição da migração mediada pelo gene RECK em modelo de glioma humano através de alterações no citoesqueleto e adesão focal / RECK-mediated inhibition of glioma migration with changes in cytoskeleton and focal adhesion

Haga, Raquel Brandão

18 May 2012

Gliomas são tumores altamente invasivos, resistentes aos tratamentos disponíveis atualmente e com alta taxa de mortalidade. A superexpressão de RECK na linhagem de glioma humano T98G comprometeu a capacidade das células de migrar e invadir in vitro, com rearranjo do citoesqueleto e alteração na distribuição espacial de FAK fosforilado. Entretanto, o possível mecanismo envolvido na inibição da migração mediada por RECK não foi desvendado. Para estudarmos os mecanismos envolvidos nesta alteração da capacidade migratória, as células T98G foram transfectadas com o vetor plasmidial pCXN2-hRECK (RECK+). A via das integrinas, a atividade de alguns membros da família das RhoGTPases e elementos do citoesqueleto foram avaliados através de imunoblotting, imunomarcação e ensaios de pull-down para as células RECK+ em comparação com células T98G não-transfectadas (WT), células T98G transfectadas com vetor pCXN2 na ausência do gene RECK (vetor) e fibroblastos primários humanos (FF287). Nossos resultados mostram um aumento na expressão de integrina β1 e uma diminuição da fosforilação de FAK no sítio de auto-fosforilação Tyr397 que, juntamente com o aumento das fibras de estresse e a diminuição dos lamelipódios, sugerem um fenótipo menos migratório da célula. Porém, quando avaliada a atividade de Rac1, esta se mostrou aumentada, embora uma das vias de ativação de Rac1 seja através da fosforilação de FAK levando à formação dos lamelipódios. A hipótese é que RECK inibe a quebra das adesões focais que participam do processo de migração, dificultando a mobilidade celular. Como as células continuam recebendo o estímulo para migrar, estas ativam Rac1 através de uma via independente de FAK. Além disso, a imunomarcação de paxilina mostrou um aumento no tamanho das adesões focais nas células RECK+, indicando que RECK pode influenciar nas estruturas responsáveis pelo contato célula-matriz. / Gliomas are highly invasive, treatment-resistant and lethal tumors. Overexpression of RECK in human glioma cell line T98G decreased cell migration and invasion in vitro, lead to cytoskeleton rearrangement and caused changes in phospho-FAK distribution. However, the pathway involved in RECK-mediated inhibition of cell migration has not been elucidated yet. To study the mechanisms by which RECK affects cell motility, T98G cells were transfected with pCXN2-hRECK vector (RECK+). Some proteins involved in the integrin pathway, activity of some proteins of RhoGTPase family and cytoskeleton proteins were analyzed through immunoblotting, immunostaining and pull-down assay in RECK+ cells and compared with non-transfected T98G cells, T98G transfected with pCXN2 without RECK gene and human primary fibroblasts (FF287). Our results showed an increase in integrin β1 expression and a decrease in FAK phosphorylation in the Tyr397 site, which together with the increase of stress fibers and decrease of lamellipodia, suggest a less migratory phenotype. Despite this, Rac1 activity was increased even though one of Rac activation pathways is through phospho-FAK, leading to lamellipodium formation. Our hypotheses is that RECK affects focal adhesion turnover, diminishing cell motility. As cells are still receiving a positive signal to migrate, they activate Rac1 through a FAK-independent pathway. Besides that, paxillin immunostaining showed that focal adhesions are larger in RECK+ cells, indicating that RECK can influence structures related with cell-matrix contact.

Adesão focal

Cancer

Câncer

Citoesqueleto

Cytoskeleton

Focal adhesion

Glioma

Glioma

Migração

Migration

RECK

RECK

Development of a substrate with photo-modulatable rigidity for probing spatial and temporal responses of cells to mechanical signals

Frey, Margo Tilley

04 August 2008

"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. "

topography

focal adhesion kinase

stiffness

microsphere indentation

myosin

photo-modulation

mechanosensing

The Mechanotransduction of Hydrostatic Pressure by Mesenchymal Stem Cells

Seyedeh Ghazaleh Hosseini (5931062)

17 January 2019

<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>

Biomechanical Engineering

Mesenchymal Stem Cells

Hydrostatic pressure

Mechanotransduction

Calcium ion signaling

Focal Adhesion Kinase

Sirtuin

Contrôle de l'invasion par la protéine kinase C thêta dans les cancers du sein / Control of breast cancer invasion by the protein kinase C theta

Chadelle, Lucie

16 November 2017

Entre 15 et 20% des cancers du sein diagnostiqués sont des cancers du sein triple-négatifs (CSTN). Ce sous-type de cancer du sein est caractérisé par l'absence ou le faible niveau d'expression du récepteur au facteur de croissance épidermique de type 2 (HER2) et des récepteurs hormonaux à l'œstrogène et à la progestérone. Par définition, les patientes atteintes de CSTN ne peuvent bénéficier des traitements antihormonaux ou des thérapies ciblées anti-HER2 qui ont nettement amélioré la prise en charge thérapeutique des autres sous-types de cancers du sein. En marge de ces progrès, les CSTN sont ainsi principalement traités par chimiothérapies cytotoxiques, des thérapies ne parvenant pas toujours à empêcher leur dissémination métastatique. Par conséquent, les CSTN sont aujourd'hui associés à des pronostics relativement mauvais et l'identification de nouvelles cibles thérapeutiques constitue un enjeu majeur de la recherche sur le cancer du sein. C'est dans ce contexte qu'une cible thérapeutique potentielle contre les CSTN a récemment été identifiée: la sérine-thréonine kinase PKC thêta. Cette PKC nouvelle est fortement exprimée dans les CSTN alors qu'elle ne l'est pas, ou très faiblement, dans des cancers du sein exprimant le récepteur aux œstrogènes et dans les tissus mammaires non transformés. L'objectif de ma thèse a été d'étudier la fonction de PKC thêta dans le contrôle de l'invasion de cellules tumorales mammaires, une étape clé de la formation de métastases. Nos travaux montrent qu'une inhibition de PKC thêta aboutit à une nette diminution des capacités invasives de lignées de cellules CSTN in vitro. De même, in vivo cette inhibition limite fortement la formation de métastases chez la souris. Nous identifions le mécanisme moléculaire par lequel PKC thêta contrôle l'invasion: PKC thêta est capable d'activer la voie des adhérences focales en phosphorylant directement la kinase des adhérences focales (FAK) sur des sites de phosphorylations encore jamais identifiés, les sérines 892 et 893. Ces phosphorylations sont essentielles aux effets positifs de PKC thêta sur l'invasion et la FAK phosphorylée de la sorte est retrouvée spécifiquement au front de cellules CSTN en migration. De façon intéressante, ces phosphorylations de FAK par PKC thêta permettent une modification de la dynamique de formation des adhérences cellule/matrice ainsi que celle des protrusions. Le contrôle de ces protrusions passe très certainement par une altération de la dynamique d'activité des RhoGTPases induite par PKC thêta De surcroît, l'utilisation d'une PKC thêta activable par la rapamycine nous permet de finement étudier la temporalité des effets de PKC thêta sur la génération des protrusions et des adhérences cellule/matrice. Enfin, concernant le contrôle de l'activité de PKC thêta en amont, nous constatons que son activation de même que ses effets sur la voie FAK et l'invasion dépendent entièrement de CDCP1 (Cub Domain-Containing Protein 1), un récepteur transmembranaire associé à l'agressivité de plusieurs cancers, dont les CSTN. Mes travaux mettent ainsi en évidence un mécanisme inédit de contrôle de la voie FAK permettant l'invasion de cellules tumorales mammaires. De plus, ils valident PKC thêta en tant que cible thérapeutique potentielle dont l'inhibition pourrait permettre de limiter la dissémination métastatique des CSTN et ce sans effets secondaires majeurs, la fonction physiologique de PKCthêta étant non essentielle. / Triple-negative breast cancer is a subtype of breast cancer that primarily affects women under the age of 40. TNBCs account for 15 to 20% of all diagnosed breast cancers and are defined by tumour cells lacking or weakly expressing the oestrogen receptor, the progesterone receptor and the human epidermal growth factor receptor 2 (HER2). By definition, these cancers cannot benefit from hormonal therapies or targeted therapies against the HER2 that have both proved to be very efficient in other breast cancer subtypes. Hence, therapies against TNBC are based essentially on classical cytotoxic chemotherapies that are not always able to block metastatic dissemination of those cancers. As a consequence, TNBCs are associated with poor prognosis and thus, finding new therapeutic targets for TNBC constitutes a major challenge for breast cancer research. In that context, a new potential TNBC therepeutical target has recently been identified: the serine threonine PKC theta. This novel PKC is highly expressed in TNBC whereas it is not expressed in breast cancer expressing the oestrogen receptor or non-transformed mammary tissues. The aim of my PhD was to study the function of PKC theta in the control of breast cancer cells invasion, a key step to metastasis formation that can be defined as the ability of cells to migrate through an extracellular matrix. We have shown that PKC theta inhibition leads to strong diminution of the invasive abilities of TNBC cell lines in vitro. Accordingly, we show in vivo that PKC theta inhibition strongly impairs metastasis formation in mice. We have identified the molecular mechanisms through which PKC theta controls invasion: PKC theta is able to activate focal adhesion signalling by directly phosphorylating FAK (Focal Adhesion Kinase) at newly identified phosphorylation sites, serines 892 and 893. We observe that this phosphorylated FAK localizes to nascent adhesions at the leading edge of migrating breast cancer cells and that those phosphorylations are essential to PKC theta control of invasion. PKC theta phosphorylations of FAK also modify the dynamic of cell/matrix adhesions and protrusion formation. The effects on protrusion formation are most certainly linked to PKC theta alteration of Rho GTPases activity dynamic. Furthermore, the use of an activatable PKC theta enables us to precisely study the temporality of PKC theta effects on both protrusions and adhesions. Protrusions and adhesions being essential to cell migration, those results explain PKC theta positive effects on invasion. Finally, regarding the upstream control of PKC theta we observe that PKC theta activation, together with its effect on FAK and invasion, depend on CDCP1, a transmembrane receptor that has been linked to the aggressiveness of several cancers, including TNBC. Altogether, my work reveals a new mechanism of FAK pathway activation leading to breast cancer cell invasion. Moreover, it further defines PKC theta as an interesting therepeutical target, whose inhibition could limit metastatic dissemination of TNBC without major secondary effects, as PKC theta has a non-essential physiological function.

Cancer

Invasion

Migration

PKC

FAK

Adhérences focales

Phosphorylations

Cancer

Invasion

Migration

PKC

FAK

Focal adhesion

Phosphorylations

Focal adhesion kinase signaling regulates highly productive transduction of adeno-associated virus through integrin-mediated endocytosis

Kaminsky, Paul Michael

01 May 2013

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).

Adeno-Associated Virus

Endocytosis

Focal Adhesion Kinase

Gene Therapy

Integrin

Trafficking

Cell Anatomy

Studies on the transmembrane signaling of β1 integrins

Armulik, Annika

January 2000

<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>

Biochemistry

Integrin β1

signaling

transmembrane domain

CAS

focal adhesion kinase

Biokemi

Biochemistry

Biokemi

Studies on the transmembrane signaling of β1 integrins

Armulik, Annika

January 2000

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.

Biochemistry

Integrin β1

signaling

transmembrane domain

CAS

focal adhesion kinase

Biokemi

Biochemistry

Biokemi

Inhibition of Hsp90 and its Client Kinase FAK has Therapeutic Potential in Squamous Cell Carcinomas of the Uterine Cervix and Oral Cavity

Schwock, Joerg

16 March 2011

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.

Hsp90

focal adhesion kinase

cancer

metastasis

uterine cervix

oral cavity

0992

0571

Inhibition of Hsp90 and its Client Kinase FAK has Therapeutic Potential in Squamous Cell Carcinomas of the Uterine Cervix and Oral Cavity

Schwock, Joerg

16 March 2011

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.

Hsp90

focal adhesion kinase

cancer

metastasis

uterine cervix

oral cavity

0992

0571

Rôle de FAK (Focal Adhesion Kinase) dans le turnover des points d'adhérence durant la migration cellulaire

Hamadi, Abdelkader Rondé, Philippe

January 2008

Thèse de doctorat : Pharmacologie moléculaire et cellulaire : Strasbourg 1 : 2008. / Titre provenant de l'écran-titre. Bibliogr. p. 197-221.