The first World Cell Race

Paolo Maiuri; Emmanuel Terriac; Perrine Paul-Gilloteaux; Timothee Vignaud; Krista McNally; James Onuffer; Kurt Thorn; Phuong A. Nguyen; Nefeli Georgoulia; Daniel Soong; Asier Jayo Andres; Nina Beil; Juergen Beneke; Joleen Chooi Hong Lim; Chloe Pei-Ying Sim; Yeh-Shiu Chu; Andrea Jimenez-Dalmaroni; Jean-Francois Joanny; Jean-Paul Thiery; Holger Erfle; Madeline Parsons; Timothy J. Mitchison; Wendell A. Lim; Ana-Maria Lennon-Dumenil; Matthieu Piel; Manuel Thery; WCR Participants

doi:10.1016/j.cub.2012.07.052

The first World Cell Race

Paolo Maiuri, Emmanuel Terriac, Perrine Paul-Gilloteaux, Timothee Vignaud, Krista McNally, James Onuffer, Kurt Thorn, Phuong A. Nguyen, Nefeli Georgoulia, Daniel Soong, Asier Jayo Andres, Nina Beil, Juergen Beneke, Joleen Chooi Hong Lim, Chloe Pei-Ying Sim, Yeh-Shiu Chu, Andrea Jimenez-Dalmaroni, Jean-Francois Joanny, Jean-Paul Thiery, Holger ErfleMadeline Parsons, Timothy J. Mitchison, Wendell A. Lim, Ana-Maria Lennon-Dumenil, Matthieu Piel, Manuel Thery, WCR Participants

Research output: Contribution to journal › Letter › peer-review

117 Citations (Scopus)

Abstract

Motility is a common property of animal cells. Cell motility is required for embryogenesis [1], tissue morphogenesis [2] and the immune response [3] but is also involved in disease processes, such as metastasis of cancer cells [4]. Analysis of cell migration in native tissue in vivo has yet to be fully explored, but motility can be relatively easily studied in vitro in isolated cells. Recent evidence suggests that cells plated in vitro on thin lines of adhesive proteins printed onto culture dishes can recapitulate many features of in vivo migration on collagen fibers 5 and 6. However, even with controlled in vitro measurements, the characteristics of motility are diverse and are dependent on the cell type, origin and external cues. One objective of the first World Cell Race was to perform a large-scale comparison of motility across many different adherent cell types under standardized conditions. To achieve a diverse selection, we enlisted the help of many international laboratories, who submitted cells for analysis. The large-scale analysis, made feasible by this competition-oriented collaboration, demonstrated that higher cell speed correlates with the persistence of movement in the same direction irrespective of cell origin.

Original language	English
Article number	N/A
Pages (from-to)	R673-R675
Number of pages	3
Journal	Current Biology
Volume	22
Issue number	17
DOIs	https://doi.org/10.1016/j.cub.2012.07.052
Publication status	Published - 11 Sept 2012

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Maiuri, P., Terriac, E., Paul-Gilloteaux, P., Vignaud, T., McNally, K., Onuffer, J., Thorn, K., Nguyen, P. A., Georgoulia, N., Soong, D., Jayo Andres, A., Beil, N., Beneke, J., Lim, J. C. H., Sim, C. P.-Y., Chu, Y.-S., Jimenez-Dalmaroni, A., Joanny, J.-F., Thiery, J.-P., ... WCR Participants (2012). The first World Cell Race. Current Biology, 22(17), R673-R675. Article N/A. https://doi.org/10.1016/j.cub.2012.07.052

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title = "The first World Cell Race",

abstract = "Motility is a common property of animal cells. Cell motility is required for embryogenesis [1], tissue morphogenesis [2] and the immune response [3] but is also involved in disease processes, such as metastasis of cancer cells [4]. Analysis of cell migration in native tissue in vivo has yet to be fully explored, but motility can be relatively easily studied in vitro in isolated cells. Recent evidence suggests that cells plated in vitro on thin lines of adhesive proteins printed onto culture dishes can recapitulate many features of in vivo migration on collagen fibers 5 and 6. However, even with controlled in vitro measurements, the characteristics of motility are diverse and are dependent on the cell type, origin and external cues. One objective of the first World Cell Race was to perform a large-scale comparison of motility across many different adherent cell types under standardized conditions. To achieve a diverse selection, we enlisted the help of many international laboratories, who submitted cells for analysis. The large-scale analysis, made feasible by this competition-oriented collaboration, demonstrated that higher cell speed correlates with the persistence of movement in the same direction irrespective of cell origin.",

author = "Paolo Maiuri and Emmanuel Terriac and Perrine Paul-Gilloteaux and Timothee Vignaud and Krista McNally and James Onuffer and Kurt Thorn and Nguyen, {Phuong A.} and Nefeli Georgoulia and Daniel Soong and {Jayo Andres}, Asier and Nina Beil and Juergen Beneke and Lim, {Joleen Chooi Hong} and Sim, {Chloe Pei-Ying} and Yeh-Shiu Chu and Andrea Jimenez-Dalmaroni and Jean-Francois Joanny and Jean-Paul Thiery and Holger Erfle and Madeline Parsons and Mitchison, {Timothy J.} and Lim, {Wendell A.} and Ana-Maria Lennon-Dumenil and Matthieu Piel and Manuel Thery and {WCR Participants}",

year = "2012",

month = sep,

day = "11",

doi = "10.1016/j.cub.2012.07.052",

language = "English",

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Maiuri, P, Terriac, E, Paul-Gilloteaux, P, Vignaud, T, McNally, K, Onuffer, J, Thorn, K, Nguyen, PA, Georgoulia, N, Soong, D , Jayo Andres, A, Beil, N, Beneke, J, Lim, JCH, Sim, CP-Y, Chu, Y-S, Jimenez-Dalmaroni, A, Joanny, J-F, Thiery, J-P, Erfle, H, Parsons, M, Mitchison, TJ, Lim, WA, Lennon-Dumenil, A-M, Piel, M, Thery, M & WCR Participants 2012, 'The first World Cell Race', Current Biology, vol. 22, no. 17, N/A, pp. R673-R675. https://doi.org/10.1016/j.cub.2012.07.052

TY - JOUR

T1 - The first World Cell Race

AU - Maiuri, Paolo

AU - Terriac, Emmanuel

AU - Paul-Gilloteaux, Perrine

AU - Vignaud, Timothee

AU - McNally, Krista

AU - Onuffer, James

AU - Thorn, Kurt

AU - Nguyen, Phuong A.

AU - Georgoulia, Nefeli

AU - Soong, Daniel

AU - Jayo Andres, Asier

AU - Beil, Nina

AU - Beneke, Juergen

AU - Lim, Joleen Chooi Hong

AU - Sim, Chloe Pei-Ying

AU - Chu, Yeh-Shiu

AU - Jimenez-Dalmaroni, Andrea

AU - Joanny, Jean-Francois

AU - Thiery, Jean-Paul

AU - Erfle, Holger

AU - Parsons, Madeline

AU - Mitchison, Timothy J.

AU - Lim, Wendell A.

AU - Lennon-Dumenil, Ana-Maria

AU - Piel, Matthieu

AU - Thery, Manuel

AU - WCR Participants

PY - 2012/9/11

Y1 - 2012/9/11

N2 - Motility is a common property of animal cells. Cell motility is required for embryogenesis [1], tissue morphogenesis [2] and the immune response [3] but is also involved in disease processes, such as metastasis of cancer cells [4]. Analysis of cell migration in native tissue in vivo has yet to be fully explored, but motility can be relatively easily studied in vitro in isolated cells. Recent evidence suggests that cells plated in vitro on thin lines of adhesive proteins printed onto culture dishes can recapitulate many features of in vivo migration on collagen fibers 5 and 6. However, even with controlled in vitro measurements, the characteristics of motility are diverse and are dependent on the cell type, origin and external cues. One objective of the first World Cell Race was to perform a large-scale comparison of motility across many different adherent cell types under standardized conditions. To achieve a diverse selection, we enlisted the help of many international laboratories, who submitted cells for analysis. The large-scale analysis, made feasible by this competition-oriented collaboration, demonstrated that higher cell speed correlates with the persistence of movement in the same direction irrespective of cell origin.

AB - Motility is a common property of animal cells. Cell motility is required for embryogenesis [1], tissue morphogenesis [2] and the immune response [3] but is also involved in disease processes, such as metastasis of cancer cells [4]. Analysis of cell migration in native tissue in vivo has yet to be fully explored, but motility can be relatively easily studied in vitro in isolated cells. Recent evidence suggests that cells plated in vitro on thin lines of adhesive proteins printed onto culture dishes can recapitulate many features of in vivo migration on collagen fibers 5 and 6. However, even with controlled in vitro measurements, the characteristics of motility are diverse and are dependent on the cell type, origin and external cues. One objective of the first World Cell Race was to perform a large-scale comparison of motility across many different adherent cell types under standardized conditions. To achieve a diverse selection, we enlisted the help of many international laboratories, who submitted cells for analysis. The large-scale analysis, made feasible by this competition-oriented collaboration, demonstrated that higher cell speed correlates with the persistence of movement in the same direction irrespective of cell origin.

U2 - 10.1016/j.cub.2012.07.052

DO - 10.1016/j.cub.2012.07.052

M3 - Letter

SN - 0960-9822

VL - 22

SP - R673-R675

JO - Current Biology

JF - Current Biology

IS - 17

M1 - N/A

ER -

The first World Cell Race

Abstract

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