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Transglutaminase inhibition protects against oxidative stress-induced neuronal death downstream of pathological ERK activation

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dc.contributor.author Sleiman, Sama F.
dc.contributor.author Basso, Manuela
dc.contributor.author Xia, Li
dc.contributor.author Berlin, Jill
dc.contributor.author Ko, Brendan
dc.contributor.author Haskew-Layton, Renee
dc.contributor.author Kim, Eunhee
dc.contributor.author Antonyak, Marc A.
dc.contributor.author Cerione, Richard A.
dc.contributor.author Lismaa, Siri E.
dc.contributor.author Willis, Dianna
dc.contributor.author Cho, Sunghee
dc.contributor.author Ratan, Rajiv R.
dc.date.accessioned 2017-09-06T07:08:12Z
dc.date.available 2017-09-06T07:08:12Z
dc.date.copyright 2012 en_US
dc.date.issued 2017-04-11
dc.identifier.issn 1529-2401 en_US
dc.identifier.uri http://hdl.handle.net/10725/6138
dc.description.abstract Molecular deletion of transglutaminase 2 (TG2) has been shown to improve function and survival in a host of neurological conditions including stroke, Huntington's disease, and Parkinson's disease. However, unifying schemes by which these cross-linking or polyaminating enzymes participate broadly in neuronal death have yet to be presented. Unexpectedly, we found that in addition to TG2, TG1 gene expression level is significantly induced following stroke in vivo or due to oxidative stress in vitro. Forced expression of TG1 or TG2 proteins is sufficient to induce neuronal death in Rattus norvegicus cortical neurons in vitro. Accordingly, molecular deletion of TG2 alone is insufficient to protect Mus musculus neurons from oxidative death. By contrast, structurally diverse inhibitors used at concentrations that inhibit TG1 and TG2 simultaneously are neuroprotective. These small molecules inhibit increases in neuronal transamidating activity induced by oxidative stress; they also protect neurons downstream of pathological ERK activation when added well after the onset of the death stimulus. Together, these studies suggest that multiple TG isoforms, not only TG2, participate in oxidative stress-induced cell death signaling; and that isoform nonselective inhibitors of TG will be most efficacious in combating oxidative death in neurological disorders. en_US
dc.language.iso en en_US
dc.title Transglutaminase inhibition protects against oxidative stress-induced neuronal death downstream of pathological ERK activation en_US
dc.type Article en_US
dc.description.version Published en_US
dc.author.school SAS en_US
dc.author.idnumber 201408170 en_US
dc.author.department Natural Sciences en_US
dc.description.embargo N/A en_US
dc.relation.journal Journal of Neuroscience en_US
dc.journal.volume 32 en_US
dc.journal.issue 19 en_US
dc.identifier.doi https://doi.org/10.1523/JNEUROSCI.3353-11.2012 en_US
dc.identifier.ctation Basso, M., Berlin, J., Xia, L., Sleiman, S. F., Ko, B., Haskew-Layton, R., ... & Willis, D. (2012). Transglutaminase inhibition protects against oxidative stress-induced neuronal death downstream of pathological ERK activation. Journal of Neuroscience, 32(19), 6561-6569. en_US
dc.author.email sama.sleiman@lau.edu.lb en_US
dc.identifier.tou http://libraries.lau.edu.lb/research/laur/terms-of-use/articles.php en_US
dc.identifier.url http://www.jneurosci.org/content/32/19/6561.short en_US
dc.author.affiliation Lebanese American University en_US


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