Cargando…

Cognitive Impairments Accompanying Rodent Mild Traumatic Brain Injury Involve p53-Dependent Neuronal Cell Death and Are Ameliorated by the Tetrahydrobenzothiazole PFT-α

With parallels to concussive mild traumatic brain injury (mTBI) occurring in humans, anesthetized mice subjected to a single 30 g weight drop mTBI event to the right parietal cortex exhibited significant diffuse neuronal degeneration that was accompanied by delayed impairments in recognition and spa...

Descripción completa

Detalles Bibliográficos
Autores principales: Rachmany, Lital, Tweedie, David, Rubovitch, Vardit, Yu, Qian-Sheng, Li, Yazhou, Wang, Jia-Yi, Pick, Chaim G., Greig, Nigel H.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2013
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3842915/
https://www.ncbi.nlm.nih.gov/pubmed/24312187
http://dx.doi.org/10.1371/journal.pone.0079837
_version_ 1782293005393199104
author Rachmany, Lital
Tweedie, David
Rubovitch, Vardit
Yu, Qian-Sheng
Li, Yazhou
Wang, Jia-Yi
Pick, Chaim G.
Greig, Nigel H.
author_facet Rachmany, Lital
Tweedie, David
Rubovitch, Vardit
Yu, Qian-Sheng
Li, Yazhou
Wang, Jia-Yi
Pick, Chaim G.
Greig, Nigel H.
author_sort Rachmany, Lital
collection PubMed
description With parallels to concussive mild traumatic brain injury (mTBI) occurring in humans, anesthetized mice subjected to a single 30 g weight drop mTBI event to the right parietal cortex exhibited significant diffuse neuronal degeneration that was accompanied by delayed impairments in recognition and spatial memory. To elucidate the involvement of reversible p53-dependent apoptosis in this neuronal loss and associated cognitive deficits, mice were subjected to experimental mTBI followed by the systemic administration of the tetrahydrobenzothiazole p53 inactivator, PFT-α, or vehicle. Neuronal loss was quantified immunohistochemically at 72 hr. post-injury by the use of fluoro-Jade B and NeuN within the dentate gyrus on both sides of the brain, and recognition and spatial memory were assessed by novel object recognition and Y-maze paradigms at 7 and 30 days post injury. Systemic administration of a single dose of PFT-α 1 hr. post-injury significantly ameliorated both neuronal cell death and cognitive impairments, which were no different from sham control animals. Cellular studies on human SH-SY5Y cells and rat primary neurons challenged with glutamate excitotoxicity and H(2)O(2) induced oxidative stress, confirmed the ability of PFT-α and a close analog to protect against these TBI associated mechanisms mediating neuronal loss. These studies suggest that p53-dependent apoptotic mechanisms underpin the neuronal and cognitive losses accompanying mTBI, and that these are potentially reversible by p53 inactivation.
format Online
Article
Text
id pubmed-3842915
institution National Center for Biotechnology Information
language English
publishDate 2013
publisher Public Library of Science
record_format MEDLINE/PubMed
spelling pubmed-38429152013-12-05 Cognitive Impairments Accompanying Rodent Mild Traumatic Brain Injury Involve p53-Dependent Neuronal Cell Death and Are Ameliorated by the Tetrahydrobenzothiazole PFT-α Rachmany, Lital Tweedie, David Rubovitch, Vardit Yu, Qian-Sheng Li, Yazhou Wang, Jia-Yi Pick, Chaim G. Greig, Nigel H. PLoS One Research Article With parallels to concussive mild traumatic brain injury (mTBI) occurring in humans, anesthetized mice subjected to a single 30 g weight drop mTBI event to the right parietal cortex exhibited significant diffuse neuronal degeneration that was accompanied by delayed impairments in recognition and spatial memory. To elucidate the involvement of reversible p53-dependent apoptosis in this neuronal loss and associated cognitive deficits, mice were subjected to experimental mTBI followed by the systemic administration of the tetrahydrobenzothiazole p53 inactivator, PFT-α, or vehicle. Neuronal loss was quantified immunohistochemically at 72 hr. post-injury by the use of fluoro-Jade B and NeuN within the dentate gyrus on both sides of the brain, and recognition and spatial memory were assessed by novel object recognition and Y-maze paradigms at 7 and 30 days post injury. Systemic administration of a single dose of PFT-α 1 hr. post-injury significantly ameliorated both neuronal cell death and cognitive impairments, which were no different from sham control animals. Cellular studies on human SH-SY5Y cells and rat primary neurons challenged with glutamate excitotoxicity and H(2)O(2) induced oxidative stress, confirmed the ability of PFT-α and a close analog to protect against these TBI associated mechanisms mediating neuronal loss. These studies suggest that p53-dependent apoptotic mechanisms underpin the neuronal and cognitive losses accompanying mTBI, and that these are potentially reversible by p53 inactivation. Public Library of Science 2013-11-28 /pmc/articles/PMC3842915/ /pubmed/24312187 http://dx.doi.org/10.1371/journal.pone.0079837 Text en https://creativecommons.org/publicdomain/zero/1.0/ This is an open-access article distributed under the terms of the Creative Commons Public Domain declaration, which stipulates that, once placed in the public domain, this work may be freely reproduced, distributed, transmitted, modified, built upon, or otherwise used by anyone for any lawful purpose.
spellingShingle Research Article
Rachmany, Lital
Tweedie, David
Rubovitch, Vardit
Yu, Qian-Sheng
Li, Yazhou
Wang, Jia-Yi
Pick, Chaim G.
Greig, Nigel H.
Cognitive Impairments Accompanying Rodent Mild Traumatic Brain Injury Involve p53-Dependent Neuronal Cell Death and Are Ameliorated by the Tetrahydrobenzothiazole PFT-α
title Cognitive Impairments Accompanying Rodent Mild Traumatic Brain Injury Involve p53-Dependent Neuronal Cell Death and Are Ameliorated by the Tetrahydrobenzothiazole PFT-α
title_full Cognitive Impairments Accompanying Rodent Mild Traumatic Brain Injury Involve p53-Dependent Neuronal Cell Death and Are Ameliorated by the Tetrahydrobenzothiazole PFT-α
title_fullStr Cognitive Impairments Accompanying Rodent Mild Traumatic Brain Injury Involve p53-Dependent Neuronal Cell Death and Are Ameliorated by the Tetrahydrobenzothiazole PFT-α
title_full_unstemmed Cognitive Impairments Accompanying Rodent Mild Traumatic Brain Injury Involve p53-Dependent Neuronal Cell Death and Are Ameliorated by the Tetrahydrobenzothiazole PFT-α
title_short Cognitive Impairments Accompanying Rodent Mild Traumatic Brain Injury Involve p53-Dependent Neuronal Cell Death and Are Ameliorated by the Tetrahydrobenzothiazole PFT-α
title_sort cognitive impairments accompanying rodent mild traumatic brain injury involve p53-dependent neuronal cell death and are ameliorated by the tetrahydrobenzothiazole pft-α
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3842915/
https://www.ncbi.nlm.nih.gov/pubmed/24312187
http://dx.doi.org/10.1371/journal.pone.0079837
work_keys_str_mv AT rachmanylital cognitiveimpairmentsaccompanyingrodentmildtraumaticbraininjuryinvolvep53dependentneuronalcelldeathandareamelioratedbythetetrahydrobenzothiazolepfta
AT tweediedavid cognitiveimpairmentsaccompanyingrodentmildtraumaticbraininjuryinvolvep53dependentneuronalcelldeathandareamelioratedbythetetrahydrobenzothiazolepfta
AT rubovitchvardit cognitiveimpairmentsaccompanyingrodentmildtraumaticbraininjuryinvolvep53dependentneuronalcelldeathandareamelioratedbythetetrahydrobenzothiazolepfta
AT yuqiansheng cognitiveimpairmentsaccompanyingrodentmildtraumaticbraininjuryinvolvep53dependentneuronalcelldeathandareamelioratedbythetetrahydrobenzothiazolepfta
AT liyazhou cognitiveimpairmentsaccompanyingrodentmildtraumaticbraininjuryinvolvep53dependentneuronalcelldeathandareamelioratedbythetetrahydrobenzothiazolepfta
AT wangjiayi cognitiveimpairmentsaccompanyingrodentmildtraumaticbraininjuryinvolvep53dependentneuronalcelldeathandareamelioratedbythetetrahydrobenzothiazolepfta
AT pickchaimg cognitiveimpairmentsaccompanyingrodentmildtraumaticbraininjuryinvolvep53dependentneuronalcelldeathandareamelioratedbythetetrahydrobenzothiazolepfta
AT greignigelh cognitiveimpairmentsaccompanyingrodentmildtraumaticbraininjuryinvolvep53dependentneuronalcelldeathandareamelioratedbythetetrahydrobenzothiazolepfta