A screen for morphological complexity identifies regulators of switch-like transitions between discrete cell shapes

Zheng Yin; Amine Sadok; Heba Sailem; Afshan McCarthy; Xiaofeng Xia; Fuhai Li; Mar Arias Garcia; Louise Evans; Alexis R. Barr; Norbert Perrimon; Christopher J. Marshall; Stephen T.C. Wong; Chris Bakal

doi:10.1038/ncb2764

A screen for morphological complexity identifies regulators of switch-like transitions between discrete cell shapes

Zheng Yin, Amine Sadok, Heba Sailem, Afshan McCarthy, Xiaofeng Xia, Fuhai Li, Mar Arias Garcia, Louise Evans, Alexis R. Barr, Norbert Perrimon, Christopher J. Marshall, Stephen T.C. Wong, Chris Bakal

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137 Scopus citations

Abstract

The way in which cells adopt different morphologies is not fully understood. Cell shape could be a continuous variable or restricted to a set of discrete forms. We developed quantitative methods to describe cell shape and show that Drosophila haemocytes in culture are a heterogeneous mixture of five discrete morphologies. In an RNAi screen of genes affecting the morphological complexity of heterogeneous cell populations, we found that most genes regulate the transition between discrete shapes rather than generating new morphologies. In particular, we identified a subset of genes, including the tumour suppressor PTEN, that decrease the heterogeneity of the population, leading to populations enriched in rounded or elongated forms. We show that these genes have a highly conserved function as regulators of cell shape in both mouse and human metastatic melanoma cells.

Original language	English (US)
Pages (from-to)	860-871
Number of pages	12
Journal	Nature Cell Biology
Volume	15
Issue number	7
DOIs	https://doi.org/10.1038/ncb2764
State	Published - Jul 2013

ASJC Scopus subject areas

Cell Biology

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title = "A screen for morphological complexity identifies regulators of switch-like transitions between discrete cell shapes",

abstract = "The way in which cells adopt different morphologies is not fully understood. Cell shape could be a continuous variable or restricted to a set of discrete forms. We developed quantitative methods to describe cell shape and show that Drosophila haemocytes in culture are a heterogeneous mixture of five discrete morphologies. In an RNAi screen of genes affecting the morphological complexity of heterogeneous cell populations, we found that most genes regulate the transition between discrete shapes rather than generating new morphologies. In particular, we identified a subset of genes, including the tumour suppressor PTEN, that decrease the heterogeneity of the population, leading to populations enriched in rounded or elongated forms. We show that these genes have a highly conserved function as regulators of cell shape in both mouse and human metastatic melanoma cells.",

author = "Zheng Yin and Amine Sadok and Heba Sailem and Afshan McCarthy and Xiaofeng Xia and Fuhai Li and Garcia, {Mar Arias} and Louise Evans and Barr, {Alexis R.} and Norbert Perrimon and Marshall, {Christopher J.} and Wong, {Stephen T.C.} and Chris Bakal",

note = "Funding Information: We are indebted to the Drosophila RNAi Screening Center staff at Harvard Medical School for their invaluable assistance. We especially thank I. Flockhart for assistance with data management. We thank J. Wang, X. Zhou and P. Bradley for their initial involvement in this study. We are grateful to N. Dhomen and R. Marais for melanoma cell lines. Work was financially supported in part by NCI grants (Grants R01CA121225 and U54CA149196) to S.T.C.W. and CRUK grants to C.B. (Grant 13478) and C.J.M. (Grant C107/A10433). N.P. is an Investigator of the Howard Hughes Medical Institute. A.S. is a Marie Curie Intra-European Fellow. C.J.M. is a Gibb Life Fellow of CRUK. C.B. is a Research Career Development Fellow of the Wellcome Trust.",

year = "2013",

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doi = "10.1038/ncb2764",

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AU - Sadok, Amine

AU - Sailem, Heba

AU - McCarthy, Afshan

AU - Xia, Xiaofeng

AU - Li, Fuhai

AU - Garcia, Mar Arias

AU - Evans, Louise

AU - Barr, Alexis R.

AU - Perrimon, Norbert

AU - Marshall, Christopher J.

AU - Wong, Stephen T.C.

AU - Bakal, Chris

N1 - Funding Information: We are indebted to the Drosophila RNAi Screening Center staff at Harvard Medical School for their invaluable assistance. We especially thank I. Flockhart for assistance with data management. We thank J. Wang, X. Zhou and P. Bradley for their initial involvement in this study. We are grateful to N. Dhomen and R. Marais for melanoma cell lines. Work was financially supported in part by NCI grants (Grants R01CA121225 and U54CA149196) to S.T.C.W. and CRUK grants to C.B. (Grant 13478) and C.J.M. (Grant C107/A10433). N.P. is an Investigator of the Howard Hughes Medical Institute. A.S. is a Marie Curie Intra-European Fellow. C.J.M. is a Gibb Life Fellow of CRUK. C.B. is a Research Career Development Fellow of the Wellcome Trust.

PY - 2013/7

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A screen for morphological complexity identifies regulators of switch-like transitions between discrete cell shapes

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