“Neuroplasticity” is often evoked to explain adaptation and compensation after acute lesions of the Central Nervous System (CNS). In this study, we investigated the modification of 80 genes involved in synaptic plasticity at different times (24 h, 8 and 45 days) from the traumatic spinal cord injury (SCI), adopting a bioinformatic analysis. mRNA expression levels were analyzed in the motor cortex, basal ganglia, cerebellum and in the spinal segments rostral and caudal to the lesion. The main results are: (i) a different gene expression regulation is observed in the Spinal Cord (SC) segments rostral and caudal to the lesion; (ii) long lasting changes in the SC includes the extracellular matrix (ECM) enzymes Timp1, transcription regulators (Egr, Nr4a1), second messenger associated proteins (Gna1, Ywhaq); (iii) long‐lasting changes in the Motor Cortex includes transcription regulators (Cebpd), neurotransmitters/neuromodulators and receptors (Cnr1, Gria1, Nos1), growth factors and related receptors (Igf1, Ntf3, Ntrk2), second messenger associated proteins (Mapk1); long lasting changes in Basal Ganglia and Cerebellum include ECM protein (Reln), growth factors (Ngf, Bdnf), transcription regulators (Egr, Cebpd), neurotransmitter receptors (Grin2c). These data suggest the molecular mapping as a useful tool to investigate the brain and SC reorganization after SCI.

Baldassarro V.A., Sanna M., Bighinati A., Sannia M., Gusciglio M., Giardino L., et al. (2021). A time‐course study of the expression level of synaptic plasticity‐associated genes in un‐lesioned spinal cord and brain areas in a rat model of spinal cord injury: A bioinformatic approach. INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES, 22(16), 1-23 [10.3390/ijms22168606].

A time‐course study of the expression level of synaptic plasticity‐associated genes in un‐lesioned spinal cord and brain areas in a rat model of spinal cord injury: A bioinformatic approach

Baldassarro V. A.;Sanna M.;Bighinati A.;Sannia M.;Giardino L.;Lorenzini L.;Calzà Laura
2021

Abstract

“Neuroplasticity” is often evoked to explain adaptation and compensation after acute lesions of the Central Nervous System (CNS). In this study, we investigated the modification of 80 genes involved in synaptic plasticity at different times (24 h, 8 and 45 days) from the traumatic spinal cord injury (SCI), adopting a bioinformatic analysis. mRNA expression levels were analyzed in the motor cortex, basal ganglia, cerebellum and in the spinal segments rostral and caudal to the lesion. The main results are: (i) a different gene expression regulation is observed in the Spinal Cord (SC) segments rostral and caudal to the lesion; (ii) long lasting changes in the SC includes the extracellular matrix (ECM) enzymes Timp1, transcription regulators (Egr, Nr4a1), second messenger associated proteins (Gna1, Ywhaq); (iii) long‐lasting changes in the Motor Cortex includes transcription regulators (Cebpd), neurotransmitters/neuromodulators and receptors (Cnr1, Gria1, Nos1), growth factors and related receptors (Igf1, Ntf3, Ntrk2), second messenger associated proteins (Mapk1); long lasting changes in Basal Ganglia and Cerebellum include ECM protein (Reln), growth factors (Ngf, Bdnf), transcription regulators (Egr, Cebpd), neurotransmitter receptors (Grin2c). These data suggest the molecular mapping as a useful tool to investigate the brain and SC reorganization after SCI.
2021
Baldassarro V.A., Sanna M., Bighinati A., Sannia M., Gusciglio M., Giardino L., et al. (2021). A time‐course study of the expression level of synaptic plasticity‐associated genes in un‐lesioned spinal cord and brain areas in a rat model of spinal cord injury: A bioinformatic approach. INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES, 22(16), 1-23 [10.3390/ijms22168606].
Baldassarro V.A.; Sanna M.; Bighinati A.; Sannia M.; Gusciglio M.; Giardino L.; Lorenzini L.; Calzà Laura
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/862102
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