In vitro comparison of motor and sensory neuron outgrowth in a 3D collagen matrix

Ilary Allodi; Mónica-Sofía Guzmán-Lenis; Joaquim Hernàndez; Xavier Navarro; Esther Udina

doi:10.1016/j.jneumeth.2011.03.006

In vitro comparison of motor and sensory neuron outgrowth in a 3D collagen matrix

Ilary Allodi, Mónica-Sofía Guzmán-Lenis, Joaquim Hernàndez, Xavier Navarro, Esther Udina

Motor Control

39 Citations (Scopus)

Abstract

In this work we set up an in vitro model, based on organotypic cultures of spinal cord slices and dorsal root ganglia explants from P7 rats, embedded in a collagen matrix and cultured under the same conditions. As specific reinnervation of end-organs is still an unresolved issue in peripheral nerve research, we characterized a model that allows us to compare under the same conditions motor and sensory neuron regeneration. RT97 labeling was used to visualize the regenerating neurites that extended in the collagen gel from both motor neurons in the spinal cord slices and sensory neurons in the DRG explants after a few days in vitro. By adding different neurotrophic factors in the collagen matrix, we evaluated the reliability of DRG and spinal cord preparations. Moreover, we also set up a co-culture with dissociated Schwann cells to further mimic the permissive environment of the peripheral nerve. Thus, these in vitro models can be useful tools to investigate mechanisms for the selective regeneration of sensory and motor neurons, which can be translated into in vivo models.

Original language	English
Journal	Journal of Neuroscience Methods
Volume	198
Issue number	1
Pages (from-to)	53-61
Number of pages	9
ISSN	0165-0270
DOIs	https://doi.org/10.1016/j.jneumeth.2011.03.006
Publication status	Published - 15 May 2011

Keywords

Animals
Animals, Newborn
Cells, Cultured
Coculture Techniques/methods
Collagen/metabolism
Extracellular Matrix/physiology
Ganglia, Spinal/cytology
Humans
In Situ Nick-End Labeling/methods
Motor Neurons/cytology
Nerve Growth Factors/pharmacology
Neurites/drug effects
Organ Culture Techniques
Rats
Rats, Sprague-Dawley
Schwann Cells/physiology
Sensory Receptor Cells/cytology
Spinal Cord/cytology
Time Factors

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title = "In vitro comparison of motor and sensory neuron outgrowth in a 3D collagen matrix",

abstract = "In this work we set up an in vitro model, based on organotypic cultures of spinal cord slices and dorsal root ganglia explants from P7 rats, embedded in a collagen matrix and cultured under the same conditions. As specific reinnervation of end-organs is still an unresolved issue in peripheral nerve research, we characterized a model that allows us to compare under the same conditions motor and sensory neuron regeneration. RT97 labeling was used to visualize the regenerating neurites that extended in the collagen gel from both motor neurons in the spinal cord slices and sensory neurons in the DRG explants after a few days in vitro. By adding different neurotrophic factors in the collagen matrix, we evaluated the reliability of DRG and spinal cord preparations. Moreover, we also set up a co-culture with dissociated Schwann cells to further mimic the permissive environment of the peripheral nerve. Thus, these in vitro models can be useful tools to investigate mechanisms for the selective regeneration of sensory and motor neurons, which can be translated into in vivo models.",

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AU - Guzmán-Lenis, Mónica-Sofía

AU - Hernàndez, Joaquim

AU - Navarro, Xavier

AU - Udina, Esther

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AB - In this work we set up an in vitro model, based on organotypic cultures of spinal cord slices and dorsal root ganglia explants from P7 rats, embedded in a collagen matrix and cultured under the same conditions. As specific reinnervation of end-organs is still an unresolved issue in peripheral nerve research, we characterized a model that allows us to compare under the same conditions motor and sensory neuron regeneration. RT97 labeling was used to visualize the regenerating neurites that extended in the collagen gel from both motor neurons in the spinal cord slices and sensory neurons in the DRG explants after a few days in vitro. By adding different neurotrophic factors in the collagen matrix, we evaluated the reliability of DRG and spinal cord preparations. Moreover, we also set up a co-culture with dissociated Schwann cells to further mimic the permissive environment of the peripheral nerve. Thus, these in vitro models can be useful tools to investigate mechanisms for the selective regeneration of sensory and motor neurons, which can be translated into in vivo models.

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KW - Sensory Receptor Cells/cytology

KW - Spinal Cord/cytology

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In vitro comparison of motor and sensory neuron outgrowth in a 3D collagen matrix

Abstract

Keywords

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