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Molecular mechanisms of amoeboid invasion of cancer cells
Paňková, Daniela ; Brábek, Jan (advisor) ; Dvořák, Michal (referee) ; Vomastek, Tomáš (referee)
Tumour cell invasion is one of the most critical steps in malignant progression. It includes a broad spectrum of mechanisms, including both individual and collective cell migration, which enables them to spread towards adjacent tissue, and form new metastases. Understanding the mechanisms of cell spreading, and invasion, is crucial for effective anticancer therapy. Two modes of individual migration of tumour cells have been established in a three-dimensional environment. Mesenchymally migrating cells use proteases to cleave collagen bundles, and thus overcome the ECM barriers. Recently described protease-independent amoeboid mode of invasion has been discovered in studies of cancer cells with protease inhibitors. During my PhD study, I have focused on determining the molecular mechanisms involved in amoeboid invasion of tumour cells. We have examined invasive abilities in non-metastatic K2 and highly metastatic A3 rat sarcoma cell lines. We have shown that even though highly metastatic A3 rat sarcoma cells are of mesenchymal origin, they have upregulated Rho/ROCK signalling pathway. Moreover, A3 cells generate actomyosin-based mechanical forces at their leading edges to physically squeeze through the collagen fibrils by adopting an amoeboid phenotype. Amoeboid invasiveness is also less dependent on...
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Mechanisms of invasiveness and transcription regulation in cancer cells
Tolde, Ondřej ; Folk, Petr (advisor) ; Kovář, Jan (referee) ; Brdička, Tomáš (referee)
The mechanisms of invazivity and regulation of transcription of cancer cells Cancer originates in cells that overcome the control mechanisms of the organism. Cancer cells can be eventually released from the site of origin and spread through tissues. Cancer cells can acquire certain mechanisms that enable them to more effectively invade surrounding tissue or layers of other cells. The research on the migration of cancer cells is important for the understanding of the origin and spreading of metastases and consequently for anticancer therapy. In my Ph.D. work, I participated in the research of the properties of invasive metastatic cells. We compared non-invasive rat sarcoma cell line with a higly metastatic cell line derived from it. We showed that cells of the invasive cell line use amoeboid mode of migration, have upregulated Rho/ROCK signaling, and have accumulated actin and myosin at the leading edge. It is at the leading edge where the cells generate their traction forces. Cells of non-invasive cell line use mesenchymal mode of migration and generate forces mainly at their retracting end. We also compared two breast cancer cell lines derived from a single carcinoma. We showed that the more invasive cell line, derived from its parental line by neoplastic transformation, displayed elevated cytoskeletal...
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Molecular mechanisms of amoeboid invasion of cancer cells
Paňková, Daniela ; Brábek, Jan (advisor) ; Dvořák, Michal (referee) ; Vomastek, Tomáš (referee)
Tumour cell invasion is one of the most critical steps in malignant progression. It includes a broad spectrum of mechanisms, including both individual and collective cell migration, which enables them to spread towards adjacent tissue, and form new metastases. Understanding the mechanisms of cell spreading, and invasion, is crucial for effective anticancer therapy. Two modes of individual migration of tumour cells have been established in a three-dimensional environment. Mesenchymally migrating cells use proteases to cleave collagen bundles, and thus overcome the ECM barriers. Recently described protease-independent amoeboid mode of invasion has been discovered in studies of cancer cells with protease inhibitors. During my PhD study, I have focused on determining the molecular mechanisms involved in amoeboid invasion of tumour cells. We have examined invasive abilities in non-metastatic K2 and highly metastatic A3 rat sarcoma cell lines. We have shown that even though highly metastatic A3 rat sarcoma cells are of mesenchymal origin, they have upregulated Rho/ROCK signalling pathway. Moreover, A3 cells generate actomyosin-based mechanical forces at their leading edges to physically squeeze through the collagen fibrils by adopting an amoeboid phenotype. Amoeboid invasiveness is also less dependent on...
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The role of NG2 glycoprotein in the regulation of Rho/ROCK signaling.
Kratochvílová, Magdalena ; Rösel, Daniel (advisor) ; Libusová, Lenka (referee)
NG2 is a transmembrane glycoprotein mainly expressed in developing tissue, and often re-expressed in tumor cells. NG2 glycoprotein is an important regulator of cell migration and adhesion. Increased expression of NG2 enhances the metastatic potential of cancer cells. However, the molecular mechanisms of these processes are still not fully understood. An increasing number of evidences, in recent years, have shown that NG2 can be responsible for Rho/ROCK activation, which is essential for effective amoeboid invasiveness. In this thesis, we analysed the role of NG2 glycoprotein, especially the role of its PDZ- binding motif on amoeboid phenotype induction, and activation of Rho/ROCK signaling. Our results demonstrate the importance of the NG2 PDZ-binding motif on mesenchymal- amoeboid transition of cells in a 3D environment. Surprisingly, they show that the expression of both the NG2 cytoplasmatic domain and the truncated version, lacking the PDZ-binding motif, do not change the amount of Rho-GTP or the activation of the Rho/ROCK signaling pathway in 2D.
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Mechanisms of invasiveness and transcription regulation in cancer cells
Tolde, Ondřej ; Folk, Petr (advisor) ; Kovář, Jan (referee) ; Brdička, Tomáš (referee)
The mechanisms of invazivity and regulation of transcription of cancer cells Cancer originates in cells that overcome the control mechanisms of the organism. Cancer cells can be eventually released from the site of origin and spread through tissues. Cancer cells can acquire certain mechanisms that enable them to more effectively invade surrounding tissue or layers of other cells. The research on the migration of cancer cells is important for the understanding of the origin and spreading of metastases and consequently for anticancer therapy. In my Ph.D. work, I participated in the research of the properties of invasive metastatic cells. We compared non-invasive rat sarcoma cell line with a higly metastatic cell line derived from it. We showed that cells of the invasive cell line use amoeboid mode of migration, have upregulated Rho/ROCK signaling, and have accumulated actin and myosin at the leading edge. It is at the leading edge where the cells generate their traction forces. Cells of non-invasive cell line use mesenchymal mode of migration and generate forces mainly at their retracting end. We also compared two breast cancer cell lines derived from a single carcinoma. We showed that the more invasive cell line, derived from its parental line by neoplastic transformation, displayed elevated cytoskeletal...
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