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Harnessing the Neural Stem Cell Secretome for Regenerative Neuroimmunology

by Willis, Cory M. , Hamel, Regan , Peruzzotti-Jametti, Luca , Nicaise, Alexandra M. , Pappa, Vasiliki , Pluchino, Stefano

in Animal models / Biology / Cellular Neuroscience / Central nervous system / CNS injury / Cytokines / extracellular vesicles / Flow cytometry / High-throughput screening / Identification / immune modulation / Immune response / Inflammatory diseases / Libraries / Mass spectrometry / Membrane vesicles / Neural stem cells / Neuroimmunology / Proteins / Proteomics / Regeneration / regenerative neuroimmunology / Scientific imaging / Secretome / stem cell secretome / Stem cells / Transplants / Trauma

2020

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Harnessing the Neural Stem Cell Secretome for Regenerative Neuroimmunology

by Willis, Cory M. , Hamel, Regan , Peruzzotti-Jametti, Luca , Nicaise, Alexandra M. , Pappa, Vasiliki , Pluchino, Stefano

2020

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Harnessing the Neural Stem Cell Secretome for Regenerative Neuroimmunology

by Willis, Cory M. , Hamel, Regan , Peruzzotti-Jametti, Luca , Nicaise, Alexandra M. , Pappa, Vasiliki , Pluchino, Stefano

2020

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Journal Article

Harnessing the Neural Stem Cell Secretome for Regenerative Neuroimmunology

Willis, Cory M.,

Hamel, Regan,

Peruzzotti-Jametti, Luca,

Nicaise, Alexandra M.,

Pappa, Vasiliki,

Pluchino, Stefano

2020

Overview

Increasing evidence foresees the of neural stem cells (NSCs) to confer superimposable beneficial properties as exogenous NSC transplants in experimental treatments of traumas and diseases of the central nervous system (CNS). Naturally produced biologics include membrane-free signaling molecules and extracellular membrane vesicles (EVs) capable of regulating broad functional responses. The development of high-throughput screening pipelines for the identification and validation of NSC targets is still in early development. Encouraging results from pre-clinical animal models of disease have highlighted -based (acellular) therapeutics as providing significant improvements in biochemical and behavioral measurements. Most of these responses are being hypothesized to be the result of modulating and promoting the restoration of key inflammatory and regenerative programs in the CNS. Here, we will review the most recent findings regarding the identification of NSC-secreted factors capable of modulating the immune response to promote the regeneration of the CNS in animal models of CNS trauma and inflammatory disease and discuss the increased interest to refine the pro-regenerative features of the NSC into a clinically available therapy in the emerging field of Regenerative Neuroimmunology.

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Publisher

Frontiers Research Foundation,Frontiers Media S.A

Subject

Animal models

/ Biology

/ Cellular Neuroscience

/ Central nervous system

/ CNS injury

/ Cytokines

/ extracellular vesicles