Cancer cells possess a broad spectrum of migration and invasion mechanisms. These include both individual and collective cell-migration strategies. Cancer therapeutics that are designed to target adhesion receptors or proteases have not proven to be effective in slowing tumour progression in clinical trials — this might be due to the fact that cancer cells can modify their migration mechanisms in response to different conditions. Learning more about the cellular and molecular basis of these different migration/invasion programmes will help us to understand how cancer cells disseminate and lead to new treatment strategies.

Tumour-cell invasion and migration: diversity and escape mechanisms

Src family protein tyrosine kinases are activated following engagement of many different classes of cellular receptors and participate in signaling pathways that control a diverse spectrum of receptor-induced biological activities. While several of these kinases have evolved to play distinct roles in specific receptor pathways, there is considerable redundancy in the functions of these kinases, both with respect to the receptor pathways that activate these kinases and the downstream effectors that mediate their biological activities. This chapter reviews the evidence implicating Src family kinases in specific receptor pathways and describes the mechanisms leading to their activation, the targets that interact with these kinases, and the biological events that they regulate.

Cellular functions regulated by src family kinases

A central question in cell biology is how membrane-spanning receptors transmit extracellular signals inside cells to modulate cell adhesion and motility. Focal adhesion kinase (FAK) is a crucial signalling component that is activated by numerous stimuli and functions as a biosensor or integrator to control cell motility. Through multifaceted and diverse molecular connections, FAK can influence the cytoskeleton, structures of cell adhesion sites and membrane protrusions to regulate cell movement.

Focal adhesion kinase: in command and control of cell motility

Throughout the entire process of cancer aetiology, progression and metastasis, the microenvironment of the local host tissue can be an active participant. Invasion occurs within a tumour-host microecology, where stroma and tumour cells exchange enzymes and cytokines that modify the local extracellular matrix, stimulate migration, and promote proliferation and survival. A new class of cancer therapies that targets this pathological communication interface between tumour cells and host cells is currently under development.

The microenvironment of the tumour-host interface

The shapes of eukaryotic cells and ultimately the organisms that they form are defined by cycles of mechanosensing, mechanotransduction and mechanoresponse Local sensing of force or geometry is transduced into biochemical signals that result in cell responses even for complex mechanical parameters such as substrate rigidity and cell-level form These responses regulate cell growth, differentiation, shape changes and cell death Recent tissue scaffolds that have been engineered at the micro- and nanoscale level now enable better dissection of the mechanosensing, transduction and response mechanisms

https://faculty.washington.edu/nsniadec/ME599/S09/private/25Vogel.pdf

Local force and geometry sensing regulate cell functions.

The intracellular protein tyrosine kinase FAK (focal adhesion kinase) was originally identified gy its high level of tyrosine phosphorylation in v-src-transformed cells. FAK is also highly phosphorylated during early development. In cultured cells it is localized to focal adhesion contacts and becomes phosphorylated and activated in response to integrin-mediated binding of cells to the extracellular matrix, suggesting an important role in cell adhesion and/or migration. We have generated FAK-deficient mice by gene targeting to examine the role of FAK during development. Mutant embryos displayed a general defect of mesoderm development, and cells from these embryos had reduced mobility in vitro. Surprisingly, the number of focal adhesions was increased in FAK-deficient cells, suggesting that FAK may be involved in the turnover of focal adhesion contacts during cell migration.

Reduced cell motility and enhanced focal adhesion contact formation in cells from FAK-deficient mice

NF-κB Binds P-TEFb to Stimulate Transcriptional Elongation by RNA Polymerase II

Tat competes with CIITA for the binding to P-TEFb and blocks the expression of MHC class II genes in HIV infection.

FAK is a unique non-receptor protein tyrosine kinase that was found in cellular focal adhesions. An increasing number of in vitro observations has suggested that FAK mediates signaling through integrins brought about by interactions with extracellular matrix (ECM). It is highly tyrosine-phosphorylated in v-src-transformed cells and during embryogenesis. To clarify the function of FAK in cell-ECM interactions, embryonic phenotype of its mutant was analysed. FAK-deficient embryos could implant and initiate gastrulation normally, but showed abnormalities in subsequent development. The abnormalities were characterized as a general deficiency in mesoderm, and the phenotype was quite similar to that caused by fibronectin-deficiency. The results suggest that FAK mediates fibronectin-integrin interactions uniquely at this stage of development, thereby playing an essential role in development of mesodermal cell lineages.

Mesodermal defect in late phase of gastrulation by a targeted mutation of focal adhesion kinase, FAK.

Malignant pleural mesothelioma is a relatively uncommon and yet incurable tumor. The pathogenesis of mesothelioma remains poorly understood. This study evaluated the role of Wnt signaling in mesothelioma. Western blot analysis was conducted to confirm the expression of Dishevelled (Dvl) and cytosolic beta-catenin in matched autologous tissue samples (tumor and normal pleura), malignant pleural effusions, and in established mesothelioma cell lines LRK1A, REN and H513. Thirteen of 15 mesotheliomas examined showed consistent overexpression of Dvl and increased cytosolic beta-catenin levels as compared with controls. To evaluate T-cell factor (Tcf)-dependent transcriptional activity of beta-catenin, luciferase assays were conducted. Fresh mesothelioma cells (effusion derived), as well as LRK1A, REN, and H513 cell lines showed a significant fold increase (1.5-2.4-fold, P < 0.01) in Tcf-dependent transcriptional activity of beta-catenin. To evaluate the biological significance of Dvl function in mesothelioma, a PDZ domain deletion mutant (DeltaPDZ-Dvl) was created and stably transfected into LRK1A, REN, and H513. The effect of DeltaPDZ-Dvl on mesothelioma growth was assayed in vitro (colony formation assay in soft agar) and in vivo (s.c. implantation in athymic mice NCRNU-M). In mesothelioma cells tested, DeltaPDZ-Dvl-mediated inhibition of Dvl decreased cytosolic beta-catenin levels, diminished Tcf-mediated transcription, and suppressed tumorigenesis of LRK1A and REN in vitro and in vivo. DeltaPDZ-Dvl also down-regulated expression of c-myc in REN and COX-2 in H513. Our data suggest that in malignant pleural mesothelioma, Wnt signaling is activated through Dvl overexpression and downstream signaling through beta-catenin. Inhibition of this signaling leads to significant antitumor effects. These results demonstrate Dvl overexpression in human cancer and, specifically, that Wnt signaling plays a role in mesothelioma pathogenesis. These data offer possible new avenues for therapeutic intervention.

https://cancerres.aacrjournals.org/content/canres/63/15/4547.full.pdf

Satoshi Kanazawa

Papers

Reduced cell motility and enhanced focal adhesion contact formation in cells from FAK-deficient mice

NF-κB Binds P-TEFb to Stimulate Transcriptional Elongation by RNA Polymerase II

Tat competes with CIITA for the binding to P-TEFb and blocks the expression of MHC class II genes in HIV infection.

Mesodermal defect in late phase of gastrulation by a targeted mutation of focal adhesion kinase, FAK.

Wnt Pathway Activation in Mesothelioma Evidence of Dishevelled Overexpression and Transcriptional Activity of β-Catenin