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1. Mechanochemical bistability of intestinal organoids enables robust morphogenesis

Author

Xue, Shi-Lei, Yang, Qiutan, Liberali, Prisca, and Hannezo, Edouard

Subjects
Quantitative Biology - Tissues and Organs, Physics - Applied Physics, Physics - Biological Physics
Abstract

How pattern and form are generated in a reproducible manner during embryogenesis remains poorly understood. Intestinal organoid morphogenesis involves a number of mechanochemical regulators, including cell-type specific cytoskeletal forces and osmotically-driven lumen volume changes. However, whether and how these forces are coordinated in time and space via feedbacks to ensure robust morphogenesis remains unclear. Here, we propose a minimal physical model of organoid morphogenesis with local cellular mechano-sensation, where lumen volume changes can impact epithelial shape via both direct mechanical (passive) and indirect mechanosensitive (active) mechanisms. We show how mechano-sensitive feedbacks on cytoskeletal tension generically give rise to morphological bistability, where both bulged (open) and budded (closed) crypt states are possible and dependent on the history of volume changes. Such bistability can explain several paradoxical experimental observations, such as the importance of the timing of lumen shrinkage and robustness of the final morphogenetic state to mechanical perturbations. More quantitatively, we performed mechanical and pharmacological experiments to validate the key modelling assumptions and make quantitative predictions on organoid morphogenesis. This suggests that bistability arising from feedbacks between cellular tensions and fluid pressure could be a general mechanism to allow for the coordination of multicellular shape changes in developing systems.

Published
2024

4. OME-Zarr: a cloud-optimized bioimaging file format with international community support

Author

Moore, Josh, Basurto-Lozada, Daniela, Besson, Sébastien, Bogovic, John, Bragantini, Jordão, Brown, Eva M., Burel, Jean-Marie, Casas Moreno, Xavier, de Medeiros, Gustavo, Diel, Erin E., Gault, David, Ghosh, Satrajit S., Gold, Ilan, Halchenko, Yaroslav O., Hartley, Matthew, Horsfall, Dave, Keller, Mark S., Kittisopikul, Mark, Kovacs, Gabor, Küpcü Yoldaş, Aybüke, Kyoda, Koji, le Tournoulx de la Villegeorges, Albane, Li, Tong, Liberali, Prisca, Lindner, Dominik, Linkert, Melissa, Lüthi, Joel, Maitin-Shepard, Jeremy, Manz, Trevor, Marconato, Luca, McCormick, Matthew, Lange, Merlin, Mohamed, Khaled, Moore, William, Norlin, Nils, Ouyang, Wei, Özdemir, Bugra, Palla, Giovanni, Pape, Constantin, Pelkmans, Lucas, Pietzsch, Tobias, Preibisch, Stephan, Prete, Martin, Rzepka, Norman, Samee, Sameeul, Schaub, Nicholas, Sidky, Hythem, Solak, Ahmet Can, Stirling, David R., Striebel, Jonathan, Tischer, Christian, Toloudis, Daniel, Virshup, Isaac, Walczysko, Petr, Watson, Alan M., Weisbart, Erin, Wong, Frances, Yamauchi, Kevin A., Bayraktar, Omer, Cimini, Beth A., Gehlenborg, Nils, Haniffa, Muzlifah, Hotaling, Nathan, Onami, Shuichi, Royer, Loic A., Saalfeld, Stephan, Stegle, Oliver, Theis, Fabian J., and Swedlow, Jason R.

Published
2023
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5. NIBR-LTSi is a selective LATS kinase inhibitor activating YAP signaling and expanding tissue stem cells in vitro and in vivo

Author

Namoto, Kenji, Baader, Clara, Orsini, Vanessa, Landshammer, Alexandro, Breuer, Eva, Dinh, Kieu Trinh, Ungricht, Rosemarie, Pikiolek, Monika, Laurent, Stephane, Lu, Bo, Aebi, Alexandra, Schönberger, Katharina, Vangrevelinghe, Eric, Evrova, Olivera, Sun, Tianliang, Annunziato, Stefano, Lachal, Julie, Redmond, Emily, Wang, Louis, Wetzel, Kristie, Capodieci, Paola, Turner, Jonathan, Schutzius, Gabi, Unterreiner, Vincent, Trunzer, Markus, Buschmann, Nicole, Behnke, Dirk, Machauer, Rainer, Scheufler, Clemens, Parker, Christian N., Ferro, Magali, Grevot, Armelle, Beyerbach, Armin, Lu, Wei-Yu, Forbes, Stuart J., Wagner, Jürgen, Bouwmeester, Tewis, Liu, Jun, Sohal, Bindi, Sahambi, Sukhdeep, Greenbaum, Linda E., Lohmann, Felix, Hoppe, Philipp, Cong, Feng, Sailer, Andreas W., Ruffner, Heinz, Glatthar, Ralf, Humar, Bostjan, Clavien, Pierre-Alain, Dill, Michael T., George, Elizabeth, Maibaum, Jürgen, Liberali, Prisca, and Tchorz, Jan S.

Published
2024
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6. RDCNet: Instance segmentation with a minimalist recurrent residual network

Author

Ortiz, Raphael, de Medeiros, Gustavo, Peters, Antoine H. F. M., Liberali, Prisca, and Rempfler, Markus

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning
Abstract

Instance segmentation is a key step for quantitative microscopy. While several machine learning based methods have been proposed for this problem, most of them rely on computationally complex models that are trained on surrogate tasks. Building on recent developments towards end-to-end trainable instance segmentation, we propose a minimalist recurrent network called recurrent dilated convolutional network (RDCNet), consisting of a shared stacked dilated convolution (sSDC) layer that iteratively refines its output and thereby generates interpretable intermediate predictions. It is light-weight and has few critical hyperparameters, which can be related to physical aspects such as object size or density.We perform a sensitivity analysis of its main parameters and we demonstrate its versatility on 3 tasks with different imaging modalities: nuclear segmentation of H&E slides, of 3D anisotropic stacks from light-sheet fluorescence microscopy and leaf segmentation of top-view images of plants. It achieves state-of-the-art on 2 of the 3 datasets., Comment: Accepted at MICCAI-MLMI 2020 workshop

Published
2020
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7. ISSCR standards for the use of human stem cells in basic research

Author

Ludwig, Tenneille E., Andrews, Peter W., Barbaric, Ivana, Benvenisty, Nissim, Bhattacharyya, Anita, Crook, Jeremy M., Daheron, Laurence M., Draper, Jonathan S., Healy, Lyn E., Huch, Meritxell, Inamdar, Maneesha S., Jensen, Kim B., Kurtz, Andreas, Lancaster, Madeline A., Liberali, Prisca, Lutolf, Matthias P., Mummery, Christine L., Pera, Martin F., Sato, Yoji, Shimasaki, Noriko, Smith, Austin G., Song, Jihwan, Spits, Claudia, Stacey, Glyn, Wells, Christine A., Zhao, Tongbiao, and Mosher, Jack T.

Published
2023
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11. Retrograde movements determine effective stem cell numbers in the intestine

Author

Azkanaz, Maria, Corominas-Murtra, Bernat, Ellenbroek, Saskia I. J., Bruens, Lotte, Webb, Anna T., Laskaris, Dimitrios, Oost, Koen C., Lafirenze, Simona J. A., Annusver, Karl, Messal, Hendrik A., Iqbal, Sharif, Flanagan, Dustin J., Huels, David J., Rojas-Rodríguez, Felipe, Vizoso, Miguel, Kasper, Maria, Sansom, Owen J., Snippert, Hugo J., Liberali, Prisca, Simons, Benjamin D., Katajisto, Pekka, Hannezo, Edouard, and van Rheenen, Jacco

Published
2022
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17. ZNRF3 and RNF43 cooperate to safeguard metabolic liver zonation and hepatocyte proliferation

Author

Sun, Tianliang, Annunziato, Stefano, Bergling, Sebastian, Sheng, Caibin, Orsini, Vanessa, Forcella, Pascal, Pikiolek, Monika, Kancherla, Venkatesh, Holwerda, Sjoerd, Imanci, Dilek, Wu, Fabian, Meylan, Ludivine Challet, Puehringer, Lea F., Waldt, Annick, Oertli, Mevion, Schuierer, Sven, Terracciano, Luigi M., Reinker, Stefan, Ruffner, Heinz, Bouwmeester, Tewis, Sailer, Andreas W., George, Elizabeth, Roma, Guglielmo, de Weck, Antoine, Piscuoglio, Salvatore, Lohmann, Felix, Naumann, Ulrike, Liberali, Prisca, Cong, Feng, and Tchorz, Jan S.

Published
2021
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20. ISSCR standards for the use of human stem cells in basic research

Author

Ludwig, Tenneille E., Andrews, Peter W., Barbaric, Ivana, Benvenisty, Nissim, Bhattacharyya, Anita, Crook, Jeremy M., Daheron, Laurence M., Draper, Jonathan S., Healy, Lyn E., Huch, Meritxell, Inamdar, Maneesha S., Jensen, Kim B., Kurtz, Andreas, Lancaster, Madeline A., Liberali, Prisca, Lutolf, Matthias P, Mummery, Christine L., Pera, Martin F., Sato, Yoji, Shimasaki, Noriko, Smith, Austin G., Song, Jihwan, Spits, Claudia, Stacey, Glyn, Wells, Christine A., Zhao, Tongbiao, Mosher, Jack T., Ludwig, Tenneille E., Andrews, Peter W., Barbaric, Ivana, Benvenisty, Nissim, Bhattacharyya, Anita, Crook, Jeremy M., Daheron, Laurence M., Draper, Jonathan S., Healy, Lyn E., Huch, Meritxell, Inamdar, Maneesha S., Jensen, Kim B., Kurtz, Andreas, Lancaster, Madeline A., Liberali, Prisca, Lutolf, Matthias P, Mummery, Christine L., Pera, Martin F., Sato, Yoji, Shimasaki, Noriko, Smith, Austin G., Song, Jihwan, Spits, Claudia, Stacey, Glyn, Wells, Christine A., Zhao, Tongbiao, and Mosher, Jack T.

Abstract

The laboratory culture of human stem cells seeks to capture a cellular state as an in vitro surrogate of a biological system. For the results and outputs from this research to be accurate, meaning-ful, and durable, standards that ensure reproducibility and reli-ability of the data should be applied. Although such standards have been previously proposed for repositories and distribution centers, no widely accepted best practices exist for laboratory research with human pluripotent and tissue stem cells. To fill that void, the International Society for Stem Cell Research has developed a set of recommendations, including reporting criteria, for scientists in basic research laboratories. These criteria are de-signed to be technically and financially feasible and, when imple-mented, enhance the reproducibility and rigor of stem cell research.

Published
2024
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22. The Organoid Cell Atlas

Author

Bock, Christoph, Boutros, Michael, Camp, J. Gray, Clarke, Laura, Clevers, Hans, Knoblich, Juergen A., Liberali, Prisca, Regev, Aviv, Rios, Anne C., Stegle, Oliver, Stunnenberg, Hendrik G., Teichmann, Sarah A., Treutlein, Barbara, and Vries, Robert G. J.

Published
2021
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25. An integrated transcriptomic cell atlas of human endoderm-derived organoids

Author

Xu, Quan, primary, Halle, Lennard, additional, Hediyeh-zadeh, Soroor, additional, Kuijs, Merel, additional, Kilik, Umut, additional, Yu, Qianhui, additional, Frum, Tristan, additional, Adam, Lukas, additional, Parikh, Shrey, additional, Gander, Manuel, additional, Kfuri-Rubens, Raphael, additional, Klein, Dominik, additional, He, Zhisong, additional, Fleck, Jonas Simon, additional, Oost, Koen, additional, Kahnwald, Maurice, additional, Barbiero, Silvia, additional, Mitrofanova, Olga, additional, Maciag, Grzegorz, additional, Jensen, Kim B., additional, Lutolf, Matthias, additional, Liberali, Prisca, additional, Beumer, Joep, additional, Spence, Jason R., additional, Treutlein, Barbara, additional, Theis, Fabian J., additional, and Camp, J. Gray, additional

Published
2023
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32. Supplementary Data from Liver Colonization by Colorectal Cancer Metastases Requires YAP-Controlled Plasticity at the Micrometastatic Stage

Author

Heinz, Maria C., primary, Peters, Niek A., primary, Oost, Koen C., primary, Lindeboom, Rik G.H., primary, van Voorthuijsen, Lisa, primary, Fumagalli, Arianna, primary, van der Net, Mirjam C., primary, de Medeiros, Gustavo, primary, Hageman, Joris H., primary, Verlaan-Klink, Ingrid, primary, Borel Rinkes, Inne H.M., primary, Liberali, Prisca, primary, Gloerich, Martijn, primary, van Rheenen, Jacco, primary, Vermeulen, Michiel, primary, Kranenburg, Onno, primary, and Snippert, Hugo J.G., primary

Published
2023
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33. Data from Liver Colonization by Colorectal Cancer Metastases Requires YAP-Controlled Plasticity at the Micrometastatic Stage

Author

Heinz, Maria C., primary, Peters, Niek A., primary, Oost, Koen C., primary, Lindeboom, Rik G.H., primary, van Voorthuijsen, Lisa, primary, Fumagalli, Arianna, primary, van der Net, Mirjam C., primary, de Medeiros, Gustavo, primary, Hageman, Joris H., primary, Verlaan-Klink, Ingrid, primary, Borel Rinkes, Inne H.M., primary, Liberali, Prisca, primary, Gloerich, Martijn, primary, van Rheenen, Jacco, primary, Vermeulen, Michiel, primary, Kranenburg, Onno, primary, and Snippert, Hugo J.G., primary

Published
2023
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34. OME-Zarr: a cloud-optimized bioimaging file format with international community support

Author

Moore, Josh, primary, Basurto-Lozada, Daniela, additional, Besson, Sébastien, additional, Bogovic, John, additional, Bragantini, Jordão, additional, Brown, Eva M., additional, Burel, Jean-Marie, additional, Casas Moreno, Xavier, additional, de Medeiros, Gustavo, additional, Diel, Erin E., additional, Gault, David, additional, Ghosh, Satrajit S., additional, Gold, Ilan, additional, Halchenko, Yaroslav O., additional, Hartley, Matthew, additional, Horsfall, Dave, additional, Keller, Mark S., additional, Kittisopikul, Mark, additional, Kovacs, Gabor, additional, Küpcü Yoldaş, Aybüke, additional, Kyoda, Koji, additional, le Tournoulx de la Villegeorges, Albane, additional, Li, Tong, additional, Liberali, Prisca, additional, Lindner, Dominik, additional, Linkert, Melissa, additional, Lüthi, Joel, additional, Maitin-Shepard, Jeremy, additional, Manz, Trevor, additional, Marconato, Luca, additional, McCormick, Matthew, additional, Lange, Merlin, additional, Mohamed, Khaled, additional, Moore, William, additional, Norlin, Nils, additional, Ouyang, Wei, additional, Özdemir, Bugra, additional, Palla, Giovanni, additional, Pape, Constantin, additional, Pelkmans, Lucas, additional, Pietzsch, Tobias, additional, Preibisch, Stephan, additional, Prete, Martin, additional, Rzepka, Norman, additional, Samee, Sameeul, additional, Schaub, Nicholas, additional, Sidky, Hythem, additional, Solak, Ahmet Can, additional, Stirling, David R., additional, Striebel, Jonathan, additional, Tischer, Christian, additional, Toloudis, Daniel, additional, Virshup, Isaac, additional, Walczysko, Petr, additional, Watson, Alan M., additional, Weisbart, Erin, additional, Wong, Frances, additional, Yamauchi, Kevin A., additional, Bayraktar, Omer, additional, Cimini, Beth A., additional, Gehlenborg, Nils, additional, Haniffa, Muzlifah, additional, Hotaling, Nathan, additional, Onami, Shuichi, additional, Royer, Loic A., additional, Saalfeld, Stephan, additional, Stegle, Oliver, additional, Theis, Fabian J., additional, and Swedlow, Jason R., additional

Published
2023
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35. Terminal differentiation of villus-tip enterocytes is governed by distinct members of Tgfβ superfamily

Author

Berková, Linda, primary, Fazilaty, Hassan, additional, Yang, Qiutan, additional, Kubovčiak, Jan, additional, Stastna, Monika, additional, Hrckulak, Dusan, additional, Vojtechova, Martina, additional, Brügger, Michael David, additional, Hausmann, George, additional, Liberali, Prisca, additional, Korinek, Vladimir, additional, Basler, Konrad, additional, and Valenta, Tomas, additional

Published
2022
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37. Organoids as tools for fundamental discovery and translation—a Keystone Symposia report

Author

Cable, Jennifer, primary, Lutolf, Matthias P., additional, Fu, Jianping, additional, Park, Sunghee Estelle, additional, Apostolou, Athanasia, additional, Chen, Shuibing, additional, Song, Cheng Jack, additional, Spence, Jason R., additional, Liberali, Prisca, additional, Lancaster, Madeline, additional, Meier, Anna B., additional, Pek, Nicole Min Qian, additional, Wells, James M., additional, Capeling, Meghan M., additional, Uzquiano, Ana, additional, Musah, Samira, additional, Huch, Meritxell, additional, Gouti, Mina, additional, Hombrink, Pleun, additional, Quadrato, Giorgia, additional, and Urenda, Jean‐Paul, additional

Published
2022
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39. Retrograde movements determine effective stem cell numbers in the intestine

Author

CMM Groep Snippert, Cancer, Azkanaz, Maria, Corominas-Murtra, Bernat, Ellenbroek, Saskia I.J., Bruens, Lotte, Webb, Anna T., Laskaris, Dimitrios, Oost, Koen C., Lafirenze, Simona J.A., Annusver, Karl, Messal, Hendrik A., Iqbal, Sharif, Flanagan, Dustin J., Huels, David J., Rojas-Rodríguez, Felipe, Vizoso, Miguel, Kasper, Maria, Sansom, Owen J., Snippert, Hugo J., Liberali, Prisca, Simons, Benjamin D., Katajisto, Pekka, Hannezo, Edouard, van Rheenen, Jacco, CMM Groep Snippert, Cancer, Azkanaz, Maria, Corominas-Murtra, Bernat, Ellenbroek, Saskia I.J., Bruens, Lotte, Webb, Anna T., Laskaris, Dimitrios, Oost, Koen C., Lafirenze, Simona J.A., Annusver, Karl, Messal, Hendrik A., Iqbal, Sharif, Flanagan, Dustin J., Huels, David J., Rojas-Rodríguez, Felipe, Vizoso, Miguel, Kasper, Maria, Sansom, Owen J., Snippert, Hugo J., Liberali, Prisca, Simons, Benjamin D., Katajisto, Pekka, Hannezo, Edouard, and van Rheenen, Jacco

Published
2022

40. Liver Colonization by Colorectal Cancer Metastases Requires YAP-Controlled Plasticity at the Micrometastatic Stage

Author

CMM Groep Snippert, Cancer, Lab Translational Oncology, CMM Groep Bos, CMM Groep Gloerich, MS CGO, Regenerative Medicine and Stem Cells, CMM Sectie Molecular Cancer Research, Hubrecht Institute with UMC, Heinz, Maria C, Peters, Niek A, Oost, Koen C, Lindeboom, Rik G H, van Voorthuijsen, Lisa, Fumagalli, Arianna, van der Net, Mirjam C, de Medeiros, Gustavo, Hageman, Joris H, Verlaan-Klink, Ingrid, Borel Rinkes, Inne H M, Liberali, Prisca, Gloerich, Martijn, van Rheenen, Jacco, Vermeulen, Michiel, Kranenburg, Onno, Snippert, Hugo J G, CMM Groep Snippert, Cancer, Lab Translational Oncology, CMM Groep Bos, CMM Groep Gloerich, MS CGO, Regenerative Medicine and Stem Cells, CMM Sectie Molecular Cancer Research, Hubrecht Institute with UMC, Heinz, Maria C, Peters, Niek A, Oost, Koen C, Lindeboom, Rik G H, van Voorthuijsen, Lisa, Fumagalli, Arianna, van der Net, Mirjam C, de Medeiros, Gustavo, Hageman, Joris H, Verlaan-Klink, Ingrid, Borel Rinkes, Inne H M, Liberali, Prisca, Gloerich, Martijn, van Rheenen, Jacco, Vermeulen, Michiel, Kranenburg, Onno, and Snippert, Hugo J G

Published
2022

41. Anthrax intoxication reveals that ER-Golgi membrane contact sites control the formation of plasma membrane lipid nanodomains

Author

Anwar, Muhammad U., primary, Sergeeva, Oksana A., additional, Abrami, Laurence, additional, Mesquita, Francisco, additional, Lukonin, Ilya, additional, Amen, Triana, additional, Chuart, Audrey, additional, Capolupo, Laura, additional, Liberali, Prisca, additional, D'Angelo, Giovanni, additional, and van der Goot, Francoise Gisou, additional

Published
2022
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42. Liver Colonization by Colorectal Cancer Metastases Requires YAP-Controlled Plasticity at the Micrometastatic Stage

Author

Heinz, Maria C., primary, Peters, Niek A., additional, Oost, Koen C., additional, Lindeboom, Rik G.H., additional, van Voorthuijsen, Lisa, additional, Fumagalli, Arianna, additional, van der Net, Mirjam C., additional, de Medeiros, Gustavo, additional, Hageman, Joris H., additional, Verlaan-Klink, Ingrid, additional, Borel Rinkes, Inne H.M., additional, Liberali, Prisca, additional, Gloerich, Martijn, additional, van Rheenen, Jacco, additional, Vermeulen, Michiel, additional, Kranenburg, Onno, additional, and Snippert, Hugo J.G., additional

Published
2022
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44. Single cell biology—a Keystone Symposia report

Author

Cable, Jennifer, primary, Elowitz, Michael B., additional, Domingos, Ana I., additional, Habib, Naomi, additional, Itzkovitz, Shalev, additional, Hamidzada, Homaira, additional, Balzer, Michael S., additional, Yanai, Itai, additional, Liberali, Prisca, additional, Whited, Jessica, additional, Streets, Aaron, additional, Cai, Long, additional, Stergachis, Andrew B., additional, Hong, Clarice Kit Yee, additional, Keren, Leeat, additional, Guilliams, Martin, additional, Alon, Uri, additional, Shalek, Alex K., additional, Hamel, Regan, additional, Pfau, Sarah J., additional, Raj, Arjun, additional, Quake, Stephen R., additional, Zhang, Nancy R., additional, Fan, Jean, additional, Trapnell, Cole, additional, Wang, Bo, additional, Greenwald, Noah F., additional, Vento‐Tormo, Roser, additional, Santos, Silvia D.M., additional, Spencer, Sabrina L., additional, Garcia, Hernan G., additional, Arekatla, Geethika, additional, Gaiti, Federico, additional, Arbel‐Goren, Rinat, additional, Rulands, Steffen, additional, Junker, Jan Philipp, additional, Klein, Allon M., additional, Morris, Samantha A., additional, Murray, John I., additional, Galloway, Kate E., additional, Ratz, Michael, additional, and Romeike, Merrit, additional

Published
2021
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45. Single cell biology—a Keystone Symposia report

Author

Cable, Jennifer, Elowitz, Michael B., Domingos, Ana I., Habib, Naomi, Itzkovitz, Shalev, Hamidzada, Homaira, Balzer, Michael S., Yanai, Itai, Liberali, Prisca, Whited, Jessica, Streets, Aaron, Cai, Long, Stergachis, Andrew B., Hong, Clarice Kit Yee, Keren, Leeat, Guilliams, Martin, Alon, Uri, Shalek, Alex K., Hamel, Regan, Pfau, Sarah J., Raj, Arjun, Quake, Stephen R., Zhang, Nancy R., Fan, Jean, Trapnell, Cole, Wang, Bo, Greenwald, Noah F., Vento‐Tormo, Roser, Santos, Silvia D. M., Spencer, Sabrina L., Garcia, Hernan G., Arekatla, Geethika, Gaiti, Federico, Arbel‐Goren, Rinat, Rulands, Steffen, Junker, Jan Philipp, Klein, Allon M., Morris, Samantha A., Murray, John I., Galloway, Kate E., Ratz, Michael, Romeike, Merrit, Cable, Jennifer, Elowitz, Michael B., Domingos, Ana I., Habib, Naomi, Itzkovitz, Shalev, Hamidzada, Homaira, Balzer, Michael S., Yanai, Itai, Liberali, Prisca, Whited, Jessica, Streets, Aaron, Cai, Long, Stergachis, Andrew B., Hong, Clarice Kit Yee, Keren, Leeat, Guilliams, Martin, Alon, Uri, Shalek, Alex K., Hamel, Regan, Pfau, Sarah J., Raj, Arjun, Quake, Stephen R., Zhang, Nancy R., Fan, Jean, Trapnell, Cole, Wang, Bo, Greenwald, Noah F., Vento‐Tormo, Roser, Santos, Silvia D. M., Spencer, Sabrina L., Garcia, Hernan G., Arekatla, Geethika, Gaiti, Federico, Arbel‐Goren, Rinat, Rulands, Steffen, Junker, Jan Philipp, Klein, Allon M., Morris, Samantha A., Murray, John I., Galloway, Kate E., Ratz, Michael, and Romeike, Merrit

Abstract

Single cell biology has the potential to elucidate many critical biological processes and diseases, from development and regeneration to cancer. Single cell analyses are uncovering the molecular diversity of cells, revealing a clearer picture of the variation among and between different cell types. New techniques are beginning to unravel how differences in cell state—transcriptional, epigenetic, and other characteristics—can lead to different cell fates among genetically identical cells, which underlies complex processes such as embryonic development, drug resistance, response to injury, and cellular reprogramming. Single cell technologies also pose significant challenges relating to processing and analyzing vast amounts of data collected. To realize the potential of single cell technologies, new computational approaches are needed. On March 17–19, 2021, experts in single cell biology met virtually for the Keystone eSymposium “Single Cell Biology” to discuss advances both in single cell applications and technologies.

Published
2021

46. The Organoid Cell Atlas

Author

Howard Hughes Medical Institute, Koch Institute for Integrative Cancer Research at MIT, Massachusetts Institute of Technology. Department of Biology, Bock, Christoph, Boutros, Michael, Camp, J Gray, Clarke, Laura, Clevers, Hans, Knoblich, Juergen A, Liberali, Prisca, Regev, Aviv, Rios, Anne C, Stegle, Oliver, Stunnenberg, Hendrik G, Teichmann, Sarah A, Treutlein, Barbara, Vries, Robert GJ, Howard Hughes Medical Institute, Koch Institute for Integrative Cancer Research at MIT, Massachusetts Institute of Technology. Department of Biology, Bock, Christoph, Boutros, Michael, Camp, J Gray, Clarke, Laura, Clevers, Hans, Knoblich, Juergen A, Liberali, Prisca, Regev, Aviv, Rios, Anne C, Stegle, Oliver, Stunnenberg, Hendrik G, Teichmann, Sarah A, Treutlein, Barbara, and Vries, Robert GJ

Published
2021

47. Population context determines cell-to-cell variability in endocytosis and virus infection

Author

Snijder, Berend, Sacher, Raphael, Ramo, Pauli, Damm, Eva-Maria, Liberali, Prisca, and Pelkmans, Lucas

Subjects
Gene expression -- Research -- Genetic aspects -- Health aspects, Endocytosis -- Health aspects -- Genetic aspects -- Research, Virus diseases -- Causes of -- Genetic aspects -- Research, Environmental issues, Science and technology, Zoology and wildlife conservation, Research, Genetic aspects, Causes of, Health aspects
Abstract

Single-cell heterogeneity in cell populations arises from a combination of intrinsic and extrinsic factors (1-3). This heterogeneity has been measured for gene transcription, phosphorylation, cell morphology and drug perturbations, and used to explain various aspects of cellular physiology (4-6). In all cases, however, the causes of heterogeneity were not studied. Here we analyse, for the first time, the heterogeneous patterns of related cellular activities, namely virus infection, endocytosis and membrane lipid composition in adherent human cells. We reveal correlations with specific cellular states that are defined by the population context of a cell, and we derive probabilistic models that can explain and predict most cellular heterogeneity of these activities, solely on the basis of each cell's population context. We find that accounting for population-determined heterogeneity is essential for interpreting differences between the activity levels of cell populations. Finally, we reveal that synergy between two molecular components, focal adhesion kinase and the sphingolipid GM1, enhances the population-determined pattern of simian virus 40 (SV40) infection. Our findings provide an explanation for the origin of heterogeneity patterns of cellular activities in adherent cell populations., Virus infection can be considered the end result of the concerted action of many cellular processes, including endocytosis and the establishment of membrane lipid composition (7,8). It is well accepted [...]

Published
2009

49. Multiscale light-sheet organoid imaging framework

Author

de Medeiros, Gustavo, primary, Ortiz, Raphael, additional, Strnad, Petr, additional, Boni, Andrea, additional, Moos, Franziska, additional, Repina, Nicole, additional, Chalet Meylan, Ludivine, additional, Maurer, Francisca, additional, and Liberali, Prisca, additional

Published
2021
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