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CBP/p300 activation promotes axon growth, sprouting, and synaptic plasticity in chronic experimental spinal cord injury with severe disability
CBP/p300 activation promotes axon growth, sprouting, and synaptic plasticity in chronic experimental spinal cord injury with severe disability
by Müller, Franziska , Serger, Elisabeth , Kundu, Tapas K. , De Virgiliis, Francesco , Sanchez-Vassopoulos, Alexandros , Singh, Akash Kumar , Chadwick, Jessica , Zhou, Luming , Kong, Guiping , Di Giovanni, Simone , Eswaramoorthy, Muthusamy
in Axon sprouting / Axonal plasticity / Axons / Biology and Life Sciences / Circuits / Contusions / Data analysis / Development and progression / Disability / Dorsal root ganglia / Enrichment / Epigenetics / Fibers / Ganglia / Gene expression / Health aspects / Hypotheses / Medicine and Health Sciences / Motor neurons / Nanoparticles / Neurological complications / Neuroplasticity / Physiology / Plasticity / Preregistered / Recovery / Recovery of function / Regeneration / Rehabilitation / Research and Analysis Methods / Sensorimotor system / Sensory neurons / Social Sciences / Spinal cord injuries / Spinal plasticity / Synaptic plasticity
2022
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CBP/p300 activation promotes axon growth, sprouting, and synaptic plasticity in chronic experimental spinal cord injury with severe disability
by Müller, Franziska , Serger, Elisabeth , Kundu, Tapas K. , De Virgiliis, Francesco , Sanchez-Vassopoulos, Alexandros , Singh, Akash Kumar , Chadwick, Jessica , Zhou, Luming , Kong, Guiping , Di Giovanni, Simone , Eswaramoorthy, Muthusamy
in Axon sprouting / Axonal plasticity / Axons / Biology and Life Sciences / Circuits / Contusions / Data analysis / Development and progression / Disability / Dorsal root ganglia / Enrichment / Epigenetics / Fibers / Ganglia / Gene expression / Health aspects / Hypotheses / Medicine and Health Sciences / Motor neurons / Nanoparticles / Neurological complications / Neuroplasticity / Physiology / Plasticity / Preregistered / Recovery / Recovery of function / Regeneration / Rehabilitation / Research and Analysis Methods / Sensorimotor system / Sensory neurons / Social Sciences / Spinal cord injuries / Spinal plasticity / Synaptic plasticity
2022
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CBP/p300 activation promotes axon growth, sprouting, and synaptic plasticity in chronic experimental spinal cord injury with severe disability
CBP/p300 activation promotes axon growth, sprouting, and synaptic plasticity in chronic experimental spinal cord injury with severe disability
by Müller, Franziska , Serger, Elisabeth , Kundu, Tapas K. , De Virgiliis, Francesco , Sanchez-Vassopoulos, Alexandros , Singh, Akash Kumar , Chadwick, Jessica , Zhou, Luming , Kong, Guiping , Di Giovanni, Simone , Eswaramoorthy, Muthusamy
in Axon sprouting / Axonal plasticity / Axons / Biology and Life Sciences / Circuits / Contusions / Data analysis / Development and progression / Disability / Dorsal root ganglia / Enrichment / Epigenetics / Fibers / Ganglia / Gene expression / Health aspects / Hypotheses / Medicine and Health Sciences / Motor neurons / Nanoparticles / Neurological complications / Neuroplasticity / Physiology / Plasticity / Preregistered / Recovery / Recovery of function / Regeneration / Rehabilitation / Research and Analysis Methods / Sensorimotor system / Sensory neurons / Social Sciences / Spinal cord injuries / Spinal plasticity / Synaptic plasticity
2022

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CBP/p300 activation promotes axon growth, sprouting, and synaptic plasticity in chronic experimental spinal cord injury with severe disability
CBP/p300 activation promotes axon growth, sprouting, and synaptic plasticity in chronic experimental spinal cord injury with severe disability
Journal Article

CBP/p300 activation promotes axon growth, sprouting, and synaptic plasticity in chronic experimental spinal cord injury with severe disability

Müller, Franziska,
Serger, Elisabeth,
Kundu, Tapas K.,
De Virgiliis, Francesco,
Sanchez-Vassopoulos, Alexandros,
Singh, Akash Kumar,
Chadwick, Jessica,
Zhou, Luming,
Kong, Guiping,
Di Giovanni, Simone,
Eswaramoorthy, Muthusamy
2022
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Overview
The interruption of spinal circuitry following spinal cord injury (SCI) disrupts neural activity and is followed by a failure to mount an effective regenerative response resulting in permanent neurological disability. Functional recovery requires the enhancement of axonal and synaptic plasticity of spared as well as injured fibres, which need to sprout and/or regenerate to form new connections. Here, we have investigated whether the epigenetic stimulation of the regenerative gene expression program can overcome the current inability to promote neurological recovery in chronic SCI with severe disability. We delivered the CBP/p300 activator CSP-TTK21 or vehicle CSP weekly between week 12 and 22 following a transection model of SCI in mice housed in an enriched environment. Data analysis showed that CSP-TTK21 enhanced classical regenerative signalling in dorsal root ganglia sensory but not cortical motor neurons, stimulated motor and sensory axon growth, sprouting, and synaptic plasticity, but failed to promote neurological sensorimotor recovery. This work provides direct evidence that clinically suitable pharmacological CBP/p300 activation can promote the expression of regeneration-associated genes and axonal growth in a chronic SCI with severe neurological disability.
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Publisher
Public Library of Science,Public Library of Science (PLoS)
Subject

Axon sprouting

/ Axonal plasticity

/ Axons

/ Biology and Life Sciences

/ Circuits

/ Contusions

/ Data analysis

/ Development and progression

/ Disability

/ Dorsal root ganglia

/ Enrichment

/ Epigenetics

/ Fibers

/ Ganglia

/ Gene expression

/ Health aspects

/ Hypotheses

/ Medicine and Health Sciences

/ Motor neurons

/ Nanoparticles

/ Neurological complications

/ Neuroplasticity

/ Physiology

/ Plasticity

/ Preregistered

/ Recovery

/ Recovery of function

/ Regeneration

/ Rehabilitation

/ Research and Analysis Methods

/ Sensorimotor system

/ Sensory neurons

/ Social Sciences

/ Spinal cord injuries

/ Spinal plasticity

/ Synaptic plasticity

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