The effect of enriched environment on the outcome of traumatic brain injury; a behavioral, proteomics, and histological study

The effect of enriched environment on the outcome of traumatic brain injury; a behavioral, proteomics, and histological study

De novo hippocampal neurogenesis contributes to functional recovery following traumatic brain injury (TBI). Enriched environment (EEN) can improve the outcome of TBI by positively affecting neurogenesis. Blast induced traumatic brain injury (bTBI) characterized by memory impairment and increased anx...

Full description

Bibliographic Details
Main Authors: Erzsebet eKovesdi, Andrea Boglar Gyorgy, Sook-Kyung Christina Kwon, Daniel Lee Wingo, Alaa eKamnaksh, Joseph B Long, Christine E Kasper, Denes Vincent Agoston
Format: Article
Language:English
Published: Frontiers Media S.A. 2011-04-01
Series:Frontiers in Neuroscience
Subjects:
Anxiety
Hippocampus
Histology
Memory
Neurogenesis
Proteomics
Online Access:http://journal.frontiersin.org/Journal/10.3389/fnins.2011.00042/full
id doaj-8f7ec45fb2dc4548b8c367c572a28a22
record_format Article
spelling doaj-8f7ec45fb2dc4548b8c367c572a28a222020-11-24T22:43:54ZengFrontiers Media S.A.Frontiers in Neuroscience1662-453X2011-04-01510.3389/fnins.2011.000429429The effect of enriched environment on the outcome of traumatic brain injury; a behavioral, proteomics, and histological studyErzsebet eKovesdi0Andrea Boglar Gyorgy1Sook-Kyung Christina Kwon2Daniel Lee Wingo3Alaa eKamnaksh4Joseph B Long5Christine E Kasper6Denes Vincent Agoston7Veterans Affairs Central OfficeUniformed Services University of the Health SciencesUniformed Services University of the Health SciencesUniformed Services University of the Health SciencesUniformed Services University of the Health SciencesWalter Reed Army Institute of ResearchVeterans Affairs Central OfficeUniformed Services University of the Health SciencesDe novo hippocampal neurogenesis contributes to functional recovery following traumatic brain injury (TBI). Enriched environment (EEN) can improve the outcome of TBI by positively affecting neurogenesis. Blast induced traumatic brain injury (bTBI) characterized by memory impairment and increased anxiety levels, is a leading cause of chronic disability among soldiers. Using a rodent model of bTBI we asked: a) whether long-term exposure to EEN after injury can ameliorate behavioral abnormalities and b) what the effects of EEN are at the molecular and cellular levels and on de novo neurogenesis. We found that housing injured animals in EEN resulted in significantly improved spatial memory while animals in normal housing (NH) showed persistent memory impairment. VEGF and Tau-protein but not IL-6 levels were normalized in the dorsal hippocampus (DHC) of EEN rats while all three markers remained elevated in NH rats. Interestingly, after peaking at 6 weeks post-injury, anxiety returned to normal levels at 2 months independent of housing conditions. Housing animals in EEN had no significant effect on VEGF and Tau-protein levels in the ventral hippocampus (VHC) and the amygdala (AD). We also found that EEN reduced IL-6 and INF levels in the VHC; these markers remained elevated following NH. We observed an increase in GFAP and DCX immunoreactivities in the VHC of NH animals at 2 months post-injury. Conversely, injured animals housed in EEN showed no increase in GFAP or DCX immunoreactivity in their VHC. In summary, long-term exposure of injured animals to EEN appears to play a positive role in the restoration of memory functions but not on anxiety, which returned to normal levels after a significant period of time. Cellular and molecular changes in response to EEN appear to be a part of neurogenesis-independent as well as dependent recovery processes triggered by bTBI.http://journal.frontiersin.org/Journal/10.3389/fnins.2011.00042/fullAnxietyHippocampusHistologyMemoryNeurogenesisProteomics
collection DOAJ
language English
format Article
sources DOAJ
author Erzsebet eKovesdi
Andrea Boglar Gyorgy
Sook-Kyung Christina Kwon
Daniel Lee Wingo
Alaa eKamnaksh
Joseph B Long
Christine E Kasper
Denes Vincent Agoston
spellingShingle Erzsebet eKovesdi
Andrea Boglar Gyorgy
Sook-Kyung Christina Kwon
Daniel Lee Wingo
Alaa eKamnaksh
Joseph B Long
Christine E Kasper
Denes Vincent Agoston
The effect of enriched environment on the outcome of traumatic brain injury; a behavioral, proteomics, and histological study
Frontiers in Neuroscience
Anxiety
Hippocampus
Histology
Memory
Neurogenesis
Proteomics
author_facet Erzsebet eKovesdi
Andrea Boglar Gyorgy
Sook-Kyung Christina Kwon
Daniel Lee Wingo
Alaa eKamnaksh
Joseph B Long
Christine E Kasper
Denes Vincent Agoston
author_sort Erzsebet eKovesdi
title The effect of enriched environment on the outcome of traumatic brain injury; a behavioral, proteomics, and histological study
title_short The effect of enriched environment on the outcome of traumatic brain injury; a behavioral, proteomics, and histological study
title_full The effect of enriched environment on the outcome of traumatic brain injury; a behavioral, proteomics, and histological study
title_fullStr The effect of enriched environment on the outcome of traumatic brain injury; a behavioral, proteomics, and histological study
title_full_unstemmed The effect of enriched environment on the outcome of traumatic brain injury; a behavioral, proteomics, and histological study
title_sort effect of enriched environment on the outcome of traumatic brain injury; a behavioral, proteomics, and histological study
publisher Frontiers Media S.A.
series Frontiers in Neuroscience
issn 1662-453X
publishDate 2011-04-01
description De novo hippocampal neurogenesis contributes to functional recovery following traumatic brain injury (TBI). Enriched environment (EEN) can improve the outcome of TBI by positively affecting neurogenesis. Blast induced traumatic brain injury (bTBI) characterized by memory impairment and increased anxiety levels, is a leading cause of chronic disability among soldiers. Using a rodent model of bTBI we asked: a) whether long-term exposure to EEN after injury can ameliorate behavioral abnormalities and b) what the effects of EEN are at the molecular and cellular levels and on de novo neurogenesis. We found that housing injured animals in EEN resulted in significantly improved spatial memory while animals in normal housing (NH) showed persistent memory impairment. VEGF and Tau-protein but not IL-6 levels were normalized in the dorsal hippocampus (DHC) of EEN rats while all three markers remained elevated in NH rats. Interestingly, after peaking at 6 weeks post-injury, anxiety returned to normal levels at 2 months independent of housing conditions. Housing animals in EEN had no significant effect on VEGF and Tau-protein levels in the ventral hippocampus (VHC) and the amygdala (AD). We also found that EEN reduced IL-6 and INF levels in the VHC; these markers remained elevated following NH. We observed an increase in GFAP and DCX immunoreactivities in the VHC of NH animals at 2 months post-injury. Conversely, injured animals housed in EEN showed no increase in GFAP or DCX immunoreactivity in their VHC. In summary, long-term exposure of injured animals to EEN appears to play a positive role in the restoration of memory functions but not on anxiety, which returned to normal levels after a significant period of time. Cellular and molecular changes in response to EEN appear to be a part of neurogenesis-independent as well as dependent recovery processes triggered by bTBI.
topic Anxiety
Hippocampus
Histology
Memory
Neurogenesis
Proteomics
url http://journal.frontiersin.org/Journal/10.3389/fnins.2011.00042/full
work_keys_str_mv AT erzsebetekovesdi theeffectofenrichedenvironmentontheoutcomeoftraumaticbraininjuryabehavioralproteomicsandhistologicalstudy
AT andreaboglargyorgy theeffectofenrichedenvironmentontheoutcomeoftraumaticbraininjuryabehavioralproteomicsandhistologicalstudy
AT sookkyungchristinakwon theeffectofenrichedenvironmentontheoutcomeoftraumaticbraininjuryabehavioralproteomicsandhistologicalstudy
AT danielleewingo theeffectofenrichedenvironmentontheoutcomeoftraumaticbraininjuryabehavioralproteomicsandhistologicalstudy
AT alaaekamnaksh theeffectofenrichedenvironmentontheoutcomeoftraumaticbraininjuryabehavioralproteomicsandhistologicalstudy
AT josephblong theeffectofenrichedenvironmentontheoutcomeoftraumaticbraininjuryabehavioralproteomicsandhistologicalstudy
AT christineekasper theeffectofenrichedenvironmentontheoutcomeoftraumaticbraininjuryabehavioralproteomicsandhistologicalstudy
AT denesvincentagoston theeffectofenrichedenvironmentontheoutcomeoftraumaticbraininjuryabehavioralproteomicsandhistologicalstudy
AT erzsebetekovesdi effectofenrichedenvironmentontheoutcomeoftraumaticbraininjuryabehavioralproteomicsandhistologicalstudy
AT andreaboglargyorgy effectofenrichedenvironmentontheoutcomeoftraumaticbraininjuryabehavioralproteomicsandhistologicalstudy
AT sookkyungchristinakwon effectofenrichedenvironmentontheoutcomeoftraumaticbraininjuryabehavioralproteomicsandhistologicalstudy
AT danielleewingo effectofenrichedenvironmentontheoutcomeoftraumaticbraininjuryabehavioralproteomicsandhistologicalstudy
AT alaaekamnaksh effectofenrichedenvironmentontheoutcomeoftraumaticbraininjuryabehavioralproteomicsandhistologicalstudy
AT josephblong effectofenrichedenvironmentontheoutcomeoftraumaticbraininjuryabehavioralproteomicsandhistologicalstudy
AT christineekasper effectofenrichedenvironmentontheoutcomeoftraumaticbraininjuryabehavioralproteomicsandhistologicalstudy
AT denesvincentagoston effectofenrichedenvironmentontheoutcomeoftraumaticbraininjuryabehavioralproteomicsandhistologicalstudy
_version_ 1725693894247579648

Similar Items