Close

Spatial Self-Organization Resolves Conflicts Between Individuality and Collective Migration

Xiongfei Fu, Setsu Kato, Junjiajia Long, Henry H. Mattingly, Caiyun He, Dervis Can Vural, Steven W. Zucker, Thierry Emonet

Posted on: 24 April 2018

Preprint posted on 5 April 2018

Keeping the runners and tumblers together: Spontaneous spatial organization allows for the collective migration of phenotypically diverse groups

Selected by Amanda Haage

Categories: cell biology, microbiology

Why This Is Cool – Populations of E. coli cells can migrate collectively up chemoattractant gradients and they do so with a biased random walk produced by straight “runs” and random “tumbles.” It has also been previously established that E. coli that are genetically identical present with variable swimming phenotypes i.e. some cells run more and some cells tumble more than others. What Fu et al. set out to answer was how do these groups of cells travel together despite their individual differences in chemotactic ability? To answer this, they had to observe both collective and individual behaviors, so they used the smartly designed microfluidic device pictured below. The narrow channel allowed E. coli cells to migrate in bands up a gradient, towards an open chamber where cells could disperse and individual behavior could be tracked. Using this set-up, they were able to establish that although there is some selection for less tumbling in collectively migrating bands, phenotypic diversity is definitely still present. They then expanded a classic mathematical model1 for collective chemotaxis to account for individual diversities. This expanded model allowed them to predict how different swimming phenotypes could still travel together. Spatial sorting of cells, so that high tumbling coincides with a steeper gradient, allows the group to compensate for diversity. So the less efficient, more tumbley cells get sorted to the back of the group where the gradient is steeper, because the front runner cells, which perform better with small changes in gradient, metabolize a certain amount of the attractant, leaving a steeper gradient behind them. The steeper gradient keeps the tumblers more focused and they are able to keep up to a certain cut-off point. Fu et al. were then able to confirm these predictions experimentally with mixed levels of expression of the chemotaxis regulating phosphatase CheZ. In addition, they identified a possible role for oxygen availability in controlling this spatial sorting. E. coli need oxygen to metabolize these chemoattractants, but oxygen becomes less available with more cells, such as the conditions of the middle of the band (Figure 1). More oxygen is available at the back due to lower cell density, which increases metabolism, thus increasing the local gradient steepness even more and possibly allowing even the worst tumblers to keep up.

Figure 1. Collective migration of a phenotypically diverse clonal population. A) When concentrated at the bottom of a nutrient channel, motile E. coli cells emerge from the high cell density region and travel in bands along the channel by following gradients produced by their own attractant consumption. B) Microfluidic device used to quantify the band migration. Control gates along the channel (black vertical lines) are initially open (top), and later closed to capture different bands of cells in the observation chamber (bottom), where single cells are tracked to quantify the distribution of phenotypes within the band.

 

Why I Selected It – I was looking for preprints on the collective migration of eukaryotic cells when I “tumbled” across this work from Fu et al., but I am so glad I stuck with it. I didn’t know bacteria even underwent collective migrations. This work uses an excellent and high-throughput model system for studying phenotypic diversity and I think their results are widely applicable, as they state – “For example in migrating neural crest cells and in fish shoals, many organisms may follow a few more informed individuals2.” Reading this preprint made me question the phenotypic diversity I see in my own research, a phenomenon not often addressed in eukaryotic cell biology.

Open Questions –

  • Would you expect the spatial sorting of cells to be any different based on the type of chemotactic cue? Are there any non-consumable cues that could be tested, presumably to see a disruption in this process?
  • Do you think this spatial sorting is an active process? If you reversed the direction of the gradient mid-migration, would the organization of the band change?
  • If you continually removed a certain phenotype, say removed all the cells that fell off the band over multiple cycles of migration, would you eventually get a homogenous band with no spatial sorting? Would this impede or improve collective migration?

Related References –

  1. Classic model of collective bacteria cell chemotaxis
    1. Keller EF, Segel LA. Traveling bands of chemotactic bacteria: a theoretical analysis. J Theor Biol 30, 235-248 (1971).
  2. Collective cell migration review
    1. Mayor R, Etienne-Manneville S. The front and rear of collective cell migration. Nat Rev Mol Cell Biol 17, 97-109 (2016).
  3. Similar mechanisms operating in eukaryotic collective cell migration
    1. Tweedy L, Knecht DA, Mackay GM, Insall RH. Self-Generated Chemoattractant Gradients: Attractant Depletion Extends the Range and Robustness of Chemotaxis. PLoS Biol 14, e1002404 (2016).

Tags: mathematical model, migration

Read preprint (No Ratings Yet)

Author's response

Thierry Emonet shared

  1. We expect spatial sorting to be a generic outcome when cells of different gradient-climbing abilities climb the same gradient, whether it be a gradient of consumable chemoattractant, non-consumable chemoattractant, oxygen, temperature, etc. However, spatial sorting in an attractant gradient created by consumption is special in that the fastest cells can’t run far ahead of the slower ones because they need those cells to help create the gradient; without them, there is no gradient to climb.
  2. We think this spatial sorting is active in the sense that if the gradient reversed direction (not too fast), then the direction of sorting would reverse, as well. Any fast gradient climbers located at the bottom of the new gradient would quickly catch up with and pass the slow gradient climbers ahead of them, leading to reorientation of the sorting. However, although this is an active process, it is not hard-coded in the cells; spatial sorting emerges from the differences in individual gradient-climbing capabilities.
  3. Eliminating phenotypic diversity would be very difficult because every time a cell divides it will give rise to daughter cells that are not entirely identical. If under special circumstances we managed to form a band composed of a narrow distribution of phenotypes that is nearly homogeneous, we would expect cell diffusion to smear out spatial sorting, making the band effectively well-mixed. To what extend this band might perform better than a more diverse one is unclear and  a question we are actively investigating.

 

Have your say

Your email address will not be published. Required fields are marked *

This site uses Akismet to reduce spam. Learn how your comment data is processed.

Sign up to customise the site to your preferences and to receive alerts

Register here

Also in the cell biology category:

Motor Clustering Enhances Kinesin-driven Vesicle Transport

Rui Jiang, Qingzhou Feng, Daguan Nong, et al.

Selected by 16 November 2024

Sharvari Pitke

Biophysics

Cellular signalling protrusions enable dynamic distant contacts in spinal cord neurogenesis

Joshua Hawley, Robert Lea, Veronica Biga, et al.

Selected by 15 November 2024

Ankita Walvekar

Developmental Biology

Green synthesized silver nanoparticles from Moringa: Potential for preventative treatment of SARS-CoV-2 contaminated water

Adebayo J. Bello, Omorilewa B. Ebunoluwa, Rukayat O. Ayorinde, et al.

Selected by 14 November 2024

Safieh Shah, Benjamin Dominik Maier

Epidemiology

Also in the microbiology category:

Intracellular diffusion in the cytoplasm increases with cell size in fission yeast

Catherine Tan, Michael C. Lanz, Matthew Swaffer, et al.

Selected by 18 October 2024

Leeba Ann Chacko, Sameer Thukral

Cell Biology

Significantly reduced, but balanced, rates of mitochondrial fission and fusion are sufficient to maintain the integrity of yeast mitochondrial DNA

Brett T. Wisniewski, Laura L. Lackner

Selected by 30 August 2024

Leeba Ann Chacko

Cell Biology

The bat Influenza A virus subtype H18N11 induces nanoscale MHCII clustering upon host cell attachment

Maria Kaukab Osman, Jonathan Robert, Lukas Broich, et al.

Selected by 20 August 2024

Mitchell Sarmie, Mohammed A. Jalloh

Immunology

preLists in the cell biology category:

BSCB-Biochemical Society 2024 Cell Migration meeting

This preList features preprints that were discussed and presented during the BSCB-Biochemical Society 2024 Cell Migration meeting in Birmingham, UK in April 2024. Kindly put together by Sara Morais da Silva, Reviews Editor at Journal of Cell Science.

 



List by Reinier Prosee

‘In preprints’ from Development 2022-2023

A list of the preprints featured in Development's 'In preprints' articles between 2022-2023

 



List by Alex Eve, Katherine Brown

preLights peer support – preprints of interest

This is a preprint repository to organise the preprints and preLights covered through the 'preLights peer support' initiative.

 



List by preLights peer support

The Society for Developmental Biology 82nd Annual Meeting

This preList is made up of the preprints discussed during the Society for Developmental Biology 82nd Annual Meeting that took place in Chicago in July 2023.

 



List by Joyce Yu, Katherine Brown

CSHL 87th Symposium: Stem Cells

Preprints mentioned by speakers at the #CSHLsymp23

 



List by Alex Eve

Journal of Cell Science meeting ‘Imaging Cell Dynamics’

This preList highlights the preprints discussed at the JCS meeting 'Imaging Cell Dynamics'. The meeting was held from 14 - 17 May 2023 in Lisbon, Portugal and was organised by Erika Holzbaur, Jennifer Lippincott-Schwartz, Rob Parton and Michael Way.

 



List by Helen Zenner

9th International Symposium on the Biology of Vertebrate Sex Determination

This preList contains preprints discussed during the 9th International Symposium on the Biology of Vertebrate Sex Determination. This conference was held in Kona, Hawaii from April 17th to 21st 2023.

 



List by Martin Estermann

Alumni picks – preLights 5th Birthday

This preList contains preprints that were picked and highlighted by preLights Alumni - an initiative that was set up to mark preLights 5th birthday. More entries will follow throughout February and March 2023.

 



List by Sergio Menchero et al.

CellBio 2022 – An ASCB/EMBO Meeting

This preLists features preprints that were discussed and presented during the CellBio 2022 meeting in Washington, DC in December 2022.

 



List by Nadja Hümpfer et al.

Fibroblasts

The advances in fibroblast biology preList explores the recent discoveries and preprints of the fibroblast world. Get ready to immerse yourself with this list created for fibroblasts aficionados and lovers, and beyond. Here, my goal is to include preprints of fibroblast biology, heterogeneity, fate, extracellular matrix, behavior, topography, single-cell atlases, spatial transcriptomics, and their matrix!

 



List by Osvaldo Contreras

EMBL Synthetic Morphogenesis: From Gene Circuits to Tissue Architecture (2021)

A list of preprints mentioned at the #EESmorphoG virtual meeting in 2021.

 



List by Alex Eve

FENS 2020

A collection of preprints presented during the virtual meeting of the Federation of European Neuroscience Societies (FENS) in 2020

 



List by Ana Dorrego-Rivas

Planar Cell Polarity – PCP

This preList contains preprints about the latest findings on Planar Cell Polarity (PCP) in various model organisms at the molecular, cellular and tissue levels.

 



List by Ana Dorrego-Rivas

BioMalPar XVI: Biology and Pathology of the Malaria Parasite

[under construction] Preprints presented at the (fully virtual) EMBL BioMalPar XVI, 17-18 May 2020 #emblmalaria

 



List by Dey Lab, Samantha Seah

1

Cell Polarity

Recent research from the field of cell polarity is summarized in this list of preprints. It comprises of studies focusing on various forms of cell polarity ranging from epithelial polarity, planar cell polarity to front-to-rear polarity.

 



List by Yamini Ravichandran

TAGC 2020

Preprints recently presented at the virtual Allied Genetics Conference, April 22-26, 2020. #TAGC20

 



List by Maiko Kitaoka et al.

3D Gastruloids

A curated list of preprints related to Gastruloids (in vitro models of early development obtained by 3D aggregation of embryonic cells). Updated until July 2021.

 



List by Paul Gerald L. Sanchez and Stefano Vianello

ECFG15 – Fungal biology

Preprints presented at 15th European Conference on Fungal Genetics 17-20 February 2020 Rome

 



List by Hiral Shah

ASCB EMBO Annual Meeting 2019

A collection of preprints presented at the 2019 ASCB EMBO Meeting in Washington, DC (December 7-11)

 



List by Madhuja Samaddar et al.

EMBL Seeing is Believing – Imaging the Molecular Processes of Life

Preprints discussed at the 2019 edition of Seeing is Believing, at EMBL Heidelberg from the 9th-12th October 2019

 



List by Dey Lab

Autophagy

Preprints on autophagy and lysosomal degradation and its role in neurodegeneration and disease. Includes molecular mechanisms, upstream signalling and regulation as well as studies on pharmaceutical interventions to upregulate the process.

 



List by Sandra Malmgren Hill

Lung Disease and Regeneration

This preprint list compiles highlights from the field of lung biology.

 



List by Rob Hynds

Cellular metabolism

A curated list of preprints related to cellular metabolism at Biorxiv by Pablo Ranea Robles from the Prelights community. Special interest on lipid metabolism, peroxisomes and mitochondria.

 



List by Pablo Ranea Robles

BSCB/BSDB Annual Meeting 2019

Preprints presented at the BSCB/BSDB Annual Meeting 2019

 



List by Dey Lab

MitoList

This list of preprints is focused on work expanding our knowledge on mitochondria in any organism, tissue or cell type, from the normal biology to the pathology.

 



List by Sandra Franco Iborra

Biophysical Society Annual Meeting 2019

Few of the preprints that were discussed in the recent BPS annual meeting at Baltimore, USA

 



List by Joseph Jose Thottacherry

ASCB/EMBO Annual Meeting 2018

This list relates to preprints that were discussed at the recent ASCB conference.

 



List by Dey Lab, Amanda Haage
Close