Blood Glutamate Scavenger as a novel neuroprotective treatment in spinal cord injury

Neurotrauma causes immediate elevation of extracellular glutamate levels, which creates excitotoxicity and facilitates inflammation, glial scar formation and consequently neuronal death. Finding factors that reduce the inflammatory response, glial scar formation and increase neuronal survival and ne...

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Veröffentlicht in:	Journal of neurotrauma 2018-11, Vol.35 (21), p.2581-2590
Hauptverfasser:	Goldshmit, Yona, Jona, Ghil, Schmukler, Eran, Solomon, Shira, Pinkas-Kramarski, Ronit, Ruban, Angela
Format:	Artikel
Sprache:	eng
Schlagworte:	AKT protein Apoptosis Astrocytes Axonogenesis Blood circulation Blood-brain barrier Cell survival Central nervous system Clinical trials Drug dosages Excitotoxicity Inflammation Intravenous administration Laboratories Microglia Morphology Nestin Neuronal-glial interactions Neuroprotection Neurosciences Pax6 protein Proteins Radial glial cells Recovery of function Regeneration Spinal cord injuries Transaminase Trauma Traumatic brain injury
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container_end_page	2590
container_issue	21
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container_title	Journal of neurotrauma
container_volume	35
creator	Goldshmit, Yona Jona, Ghil Schmukler, Eran Solomon, Shira Pinkas-Kramarski, Ronit Ruban, Angela
description	Neurotrauma causes immediate elevation of extracellular glutamate levels, which creates excitotoxicity and facilitates inflammation, glial scar formation and consequently neuronal death. Finding factors that reduce the inflammatory response, glial scar formation and increase neuronal survival and neurite outgrowth, are of major importance for improving the outcome after spinal cord injury (SCI). In the present study, we evaluated a new treatment aiming to remove CNS glutamate into the systemic blood circulation by intravenous administration of blood glutamate scavengers (BGS) such as recombinant enzyme glutamate-oxaloacetate transaminase (rGOT1) and its co-substrate. In this study we induced in mice a spinal cord injury (hemisection), and one-hour post injury started administering BGS treatment for five consecutive days. The treatment reduced the expression levels of p-p38, which regulates apoptosis and increased the expression of p-Akt, which mediates cell survival. Moreover, this treatment decreased pro-inflammatory cytokine expression and microglia activation, reduced astrocytes' reactivity and facilitated expression of radial glia markers such as Pax6 and nestin. BGS treatment increased the survival of neurons at lesion site and enabled axonal regeneration into the injury site. These effects were correlated with improved functional recovery of the left paretic hindlimb. Thus, early pharmacological intervention with BGS following SCI may be neuroprotective and create a pro-regenerative environment by modulating glia cell response. In light of our results, the availability of the method to remove excess glutamate from CNS without the need to deliver drugs across the blood-brain barrier (BBB) and with minimal or no adverse effects may provide a major therapeutic asset.
doi_str_mv	10.1089/neu.2017.5524
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Finding factors that reduce the inflammatory response, glial scar formation and increase neuronal survival and neurite outgrowth, are of major importance for improving the outcome after spinal cord injury (SCI). In the present study, we evaluated a new treatment aiming to remove CNS glutamate into the systemic blood circulation by intravenous administration of blood glutamate scavengers (BGS) such as recombinant enzyme glutamate-oxaloacetate transaminase (rGOT1) and its co-substrate. In this study we induced in mice a spinal cord injury (hemisection), and one-hour post injury started administering BGS treatment for five consecutive days. The treatment reduced the expression levels of p-p38, which regulates apoptosis and increased the expression of p-Akt, which mediates cell survival. Moreover, this treatment decreased pro-inflammatory cytokine expression and microglia activation, reduced astrocytes' reactivity and facilitated expression of radial glia markers such as Pax6 and nestin. BGS treatment increased the survival of neurons at lesion site and enabled axonal regeneration into the injury site. These effects were correlated with improved functional recovery of the left paretic hindlimb. Thus, early pharmacological intervention with BGS following SCI may be neuroprotective and create a pro-regenerative environment by modulating glia cell response. 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subjects	AKT protein Apoptosis Astrocytes Axonogenesis Blood circulation Blood-brain barrier Cell survival Central nervous system Clinical trials Drug dosages Excitotoxicity Inflammation Intravenous administration Laboratories Microglia Morphology Nestin Neuronal-glial interactions Neuroprotection Neurosciences Pax6 protein Proteins Radial glial cells Recovery of function Regeneration Spinal cord injuries Transaminase Trauma Traumatic brain injury
title	Blood Glutamate Scavenger as a novel neuroprotective treatment in spinal cord injury
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