Your search keyword '"Fischbach, Claudia"' showing total 4 results

1. Computational 4D-OCM for label-free imaging of collective cell invasion and force-mediated deformations in collagen

Author

Mulligan, Jeffrey A., Ling, Lu, Leartprapun, Nichaluk, Fischbach, Claudia, and Adie, Steven G.

Published

2021

2. A physical sciences network characterization of non-tumorigenic and metastatic cells

Author

Agus, David B, Alexander, Jenolyn F, Arap, Wadih, Ashili, Shashanka, Aslan, Joseph E, Austin, Robert H, Backman, Vadim, Bethel, Kelly J, Bonneau, Richard, Chen, Wei-Chiang, Chen-Tanyolac, Chira, Choi, Nathan C, Curley, Steven A, Dallas, Matthew, Damania, Dhwanil, Davies, Paul CW, Decuzzi, Paolo, Dickinson, Laura, Estevez-Salmeron, Luis, Estrella, Veronica, Ferrari, Mauro, Fischbach, Claudia, Foo, Jasmine, Fraley, Stephanie I, Frantz, Christian, Fuhrmann, Alexander, Gascard, Philippe, Gatenby, Robert A, Geng, Yue, Gerecht, Sharon, Gillies, Robert J, Godin, Biana, Grady, William M, Greenfield, Alex, Hemphill, Courtney, Hempstead, Barbara L, Hielscher, Abigail, Hillis, W Daniel, Holland, Eric C, Ibrahim-Hashim, Arig, Jacks, Tyler, Johnson, Roger H, Joo, Ahyoung, Katz, Jonathan E, Kelbauskas, Laimonas, Kesselman, Carl, King, Michael R, Konstantopoulos, Konstantinos, Kraning-Rush, Casey M, Kuhn, Peter, Kung, Kevin, Kwee, Brian, Lakins, Johnathon N, Lambert, Guillaume, Liao, David, Licht, Jonathan D, Liphardt, Jan T, Liu, Liyu, Lloyd, Mark C, Lyubimova, Anna, Mallick, Parag, Marko, John, McCarty, Owen JT, Meldrum, Deirdre R, Michor, Franziska, Mumenthaler, Shannon M, Nandakumar, Vivek, O'Halloran, Thomas V, Oh, Steve, Pasqualini, Renata, Paszek, Matthew J, Philips, Kevin G, Poultney, Christopher S, Rana, Kuldeepsinh, Reinhart-King, Cynthia A, Ros, Robert, Semenza, Gregg L, Senechal, Patti, Shuler, Michael L, Srinivasan, Srimeenakshi, Staunton, Jack R, Stypula, Yolanda, Subramanian, Hariharan, Tlsty, Thea D, Tormoen, Garth W, Tseng, Yiider, van Oudenaarden, Alexander, Verbridge, Scott S, Wan, Jenny C, Weaver, Valerie M, Widom, Jonathan, Will, Christine, Wirtz, Denis, Wojtkowiak, Jonathan, and Wu, Pei-Hsun

Subjects

Biochemistry and Cell Biology, Biological Sciences, Cancer, Breast Cancer, Biotechnology, Aetiology, 2.1 Biological and endogenous factors, Biomarkers, Tumor, Cell Line, Tumor, Cell Movement, Cell Size, Cell Survival, Computer Simulation, Gene Expression Regulation, Neoplastic, Humans, Models, Biological, Neoplasm Metastasis, Neoplasm Proteins, Physical Sciences - Oncology Centers Network

Abstract

To investigate the transition from non-cancerous to metastatic from a physical sciences perspective, the Physical Sciences-Oncology Centers (PS-OC) Network performed molecular and biophysical comparative studies of the non-tumorigenic MCF-10A and metastatic MDA-MB-231 breast epithelial cell lines, commonly used as models of cancer metastasis. Experiments were performed in 20 laboratories from 12 PS-OCs. Each laboratory was supplied with identical aliquots and common reagents and culture protocols. Analyses of these measurements revealed dramatic differences in their mechanics, migration, adhesion, oxygen response, and proteomic profiles. Model-based multi-omics approaches identified key differences between these cells' regulatory networks involved in morphology and survival. These results provide a multifaceted description of cellular parameters of two widely used cell lines and demonstrate the value of the PS-OC Network approach for integration of diverse experimental observations to elucidate the phenotypes associated with cancer metastasis.

Published

2013

3. A physical sciences network characterization of non-tumorigenic and metastatic cells.

Author

Physical Sciences - Oncology Centers Network, Agus, David B, Alexander, Jenolyn F, Arap, Wadih, Ashili, Shashanka, Aslan, Joseph E, Austin, Robert H, Backman, Vadim, Bethel, Kelly J, Bonneau, Richard, Chen, Wei-Chiang, Chen-Tanyolac, Chira, Choi, Nathan C, Curley, Steven A, Dallas, Matthew, Damania, Dhwanil, Davies, Paul CW, Decuzzi, Paolo, Dickinson, Laura, Estevez-Salmeron, Luis, Estrella, Veronica, Ferrari, Mauro, Fischbach, Claudia, Foo, Jasmine, Fraley, Stephanie I, Frantz, Christian, Fuhrmann, Alexander, Gascard, Philippe, Gatenby, Robert A, Geng, Yue, Gerecht, Sharon, Gillies, Robert J, Godin, Biana, Grady, William M, Greenfield, Alex, Hemphill, Courtney, Hempstead, Barbara L, Hielscher, Abigail, Hillis, W Daniel, Holland, Eric C, Ibrahim-Hashim, Arig, Jacks, Tyler, Johnson, Roger H, Joo, Ahyoung, Katz, Jonathan E, Kelbauskas, Laimonas, Kesselman, Carl, King, Michael R, Konstantopoulos, Konstantinos, Kraning-Rush, Casey M, Kuhn, Peter, Kung, Kevin, Kwee, Brian, Lakins, Johnathon N, Lambert, Guillaume, Liao, David, Licht, Jonathan D, Liphardt, Jan T, Liu, Liyu, Lloyd, Mark C, Lyubimova, Anna, Mallick, Parag, Marko, John, McCarty, Owen JT, Meldrum, Deirdre R, Michor, Franziska, Mumenthaler, Shannon M, Nandakumar, Vivek, O'Halloran, Thomas V, Oh, Steve, Pasqualini, Renata, Paszek, Matthew J, Philips, Kevin G, Poultney, Christopher S, Rana, Kuldeepsinh, Reinhart-King, Cynthia A, Ros, Robert, Semenza, Gregg L, Senechal, Patti, Shuler, Michael L, Srinivasan, Srimeenakshi, Staunton, Jack R, Stypula, Yolanda, Subramanian, Hariharan, Tlsty, Thea D, Tormoen, Garth W, Tseng, Yiider, van Oudenaarden, Alexander, Verbridge, Scott S, Wan, Jenny C, Weaver, Valerie M, Widom, Jonathan, Will, Christine, Wirtz, Denis, Wojtkowiak, Jonathan, and Wu, Pei-Hsun

Subjects

Physical Sciences - Oncology Centers Network, Cell Line, Tumor, Humans, Neoplasm Metastasis, Neoplasm Proteins, Cell Movement, Cell Size, Cell Survival, Gene Expression Regulation, Neoplastic, Models, Biological, Computer Simulation, Biomarkers, Tumor, Cancer, Breast Cancer, Biotechnology, 2.1 Biological and endogenous factors

Abstract

To investigate the transition from non-cancerous to metastatic from a physical sciences perspective, the Physical Sciences-Oncology Centers (PS-OC) Network performed molecular and biophysical comparative studies of the non-tumorigenic MCF-10A and metastatic MDA-MB-231 breast epithelial cell lines, commonly used as models of cancer metastasis. Experiments were performed in 20 laboratories from 12 PS-OCs. Each laboratory was supplied with identical aliquots and common reagents and culture protocols. Analyses of these measurements revealed dramatic differences in their mechanics, migration, adhesion, oxygen response, and proteomic profiles. Model-based multi-omics approaches identified key differences between these cells' regulatory networks involved in morphology and survival. These results provide a multifaceted description of cellular parameters of two widely used cell lines and demonstrate the value of the PS-OC Network approach for integration of diverse experimental observations to elucidate the phenotypes associated with cancer metastasis.

Published

2013

4. Endothelial cells promote 3D invasion of GBM by IL-8-dependent induction of cancer stem cell properties

Author

McCoy, Michael G., Nyanyo, Dennis, Hung, Carol K., Goerger, Julian Palacios, R. Zipfel, Warren, Williams, Rebecca M., Nishimura, Nozomi, and Fischbach, Claudia

Published

2019