In vitro analysis of neuron-glial cell interactions during cellular migration

Carla Distasi; Paolo Ariano; Pollyanna Zamburlin; Mario Ferraro

doi:10.1007/s00249-001-0194-y

In vitro analysis of neuron-glial cell interactions during cellular migration

Carla Distasi, Paolo Ariano, Pollyanna Zamburlin, Mario Ferraro

Dipartimento di Scienze del Farmaco

Risultato della ricerca: Contributo su rivista › Articolo in rivista › peer review

Abstract

We used time-lapse microscopy to study the in vitro migration of neuronal cells from developing chick ciliary ganglion. These cells, when dissociated and cultured in a chemically defined medium, are able to migrate and to associate into clusters. We focused our attention on the study of the distribution of neuronal velocity components. Quantitative analysis of cell trajectories allowed us to demonstrate that, in many cells, velocities are well described by the Langevin equation, when deterministic components of the forces acting on the cells are taken into account. We also have shown that the majority of neurons whose movement is not purely random migrate in association with glial cells. We conclude that glial cells, by guiding neurons during migration, play an important role in the cell organization in vitro.

Lingua originale	Inglese
pagine (da-a)	81-88
Numero di pagine	8
Rivista	European Biophysics Journal
Volume	31
Numero di pubblicazione	2
DOI	https://doi.org/10.1007/s00249-001-0194-y
Stato di pubblicazione	Pubblicato - mag 2002

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10.1007/s00249-001-0194-y

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title = "In vitro analysis of neuron-glial cell interactions during cellular migration",

abstract = "We used time-lapse microscopy to study the in vitro migration of neuronal cells from developing chick ciliary ganglion. These cells, when dissociated and cultured in a chemically defined medium, are able to migrate and to associate into clusters. We focused our attention on the study of the distribution of neuronal velocity components. Quantitative analysis of cell trajectories allowed us to demonstrate that, in many cells, velocities are well described by the Langevin equation, when deterministic components of the forces acting on the cells are taken into account. We also have shown that the majority of neurons whose movement is not purely random migrate in association with glial cells. We conclude that glial cells, by guiding neurons during migration, play an important role in the cell organization in vitro.",

keywords = "Cell locomotion, Ciliary ganglion, Langevin equation, Time-lapse microscopy",

author = "Carla Distasi and Paolo Ariano and Pollyanna Zamburlin and Mario Ferraro",

note = "Funding Information: Acknowledgements We thank Prof. Davide Lovisolo for a critical reading of the manuscript and many helpful suggestions. This work was financed by MURST. Support from Fondazione della Com-unit{\`a} del Novarese is also gratefully acknowledged.",

year = "2002",

month = may,

doi = "10.1007/s00249-001-0194-y",

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T1 - In vitro analysis of neuron-glial cell interactions during cellular migration

AU - Distasi, Carla

AU - Ariano, Paolo

AU - Zamburlin, Pollyanna

AU - Ferraro, Mario

N1 - Funding Information: Acknowledgements We thank Prof. Davide Lovisolo for a critical reading of the manuscript and many helpful suggestions. This work was financed by MURST. Support from Fondazione della Com-unità del Novarese is also gratefully acknowledged.

PY - 2002/5

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N2 - We used time-lapse microscopy to study the in vitro migration of neuronal cells from developing chick ciliary ganglion. These cells, when dissociated and cultured in a chemically defined medium, are able to migrate and to associate into clusters. We focused our attention on the study of the distribution of neuronal velocity components. Quantitative analysis of cell trajectories allowed us to demonstrate that, in many cells, velocities are well described by the Langevin equation, when deterministic components of the forces acting on the cells are taken into account. We also have shown that the majority of neurons whose movement is not purely random migrate in association with glial cells. We conclude that glial cells, by guiding neurons during migration, play an important role in the cell organization in vitro.

AB - We used time-lapse microscopy to study the in vitro migration of neuronal cells from developing chick ciliary ganglion. These cells, when dissociated and cultured in a chemically defined medium, are able to migrate and to associate into clusters. We focused our attention on the study of the distribution of neuronal velocity components. Quantitative analysis of cell trajectories allowed us to demonstrate that, in many cells, velocities are well described by the Langevin equation, when deterministic components of the forces acting on the cells are taken into account. We also have shown that the majority of neurons whose movement is not purely random migrate in association with glial cells. We conclude that glial cells, by guiding neurons during migration, play an important role in the cell organization in vitro.

KW - Cell locomotion

KW - Ciliary ganglion

KW - Langevin equation

KW - Time-lapse microscopy

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U2 - 10.1007/s00249-001-0194-y

DO - 10.1007/s00249-001-0194-y

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SP - 81

EP - 88

JO - European Biophysics Journal

JF - European Biophysics Journal

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In vitro analysis of neuron-glial cell interactions during cellular migration

Abstract

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