SOD1(G93A) transgenic mouse CD4(+) T cells mediate neuroprotection after facial nerve axotomy when removed from a suppressive peripheral microenvironment Journal Article

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Authors: Mesnard-Hoaglin, N. A.; Xin, J.; Haulcomb, M. M.; Batka, R. J.; Sanders, V. M.; Jones, K. J.
Article Title: SOD1(G93A) transgenic mouse CD4(+) T cells mediate neuroprotection after facial nerve axotomy when removed from a suppressive peripheral microenvironment
Abstract: Amyotrophic lateral sclerosis (ALS) is a fatal neurodegenerative disease involving motoneuron (MN) axonal withdrawal and cell death. Previously, we established that facial MN (FMN) survival levels in the SOD1(G93A) transgenic mouse model of ALS are reduced and nerve regeneration is delayed, similar to immunodeficient RAG2(-/-) mice, after facial nerve axotomy. The objective of this study was to examine the functionality of SOD1(G93A) splenic microenvironment, focusing on CD4(+) T cells, with regard to defects in immune-mediated neuroprotection of injured MN. We utilized the RAG2(-/-) and SOD1(G93A) mouse models, along with the facial nerve axotomy paradigm and a variety of cellular adoptive transfers, to assess immune-mediated neuroprotection of FMN survival levels. We determined that adoptively transferred SOD1(G93A) unfractionated splenocytes into RAG2(-/-) mice were unable to support FMN survival after axotomy, but that adoptive transfer of isolated SOD1(G93A) CD4(+) T cells could. Although WT unfractionated splenocytes adoptively transferred into SOD1(G93A) mice were able to maintain FMN survival levels, WT CD4(+) T cells alone could not. Importantly, these results suggest that SOD1(G93A) CD4(+) T cells retain neuroprotective functionality when removed from a dysfunctional SOD1(G93A) peripheral splenic microenvironment. These results also indicate that the SOD1(G93A) central nervous system microenvironment is able to re-activate CD4(+) T cells for immune-mediated neuroprotection when a permissive peripheral microenvironment exists. We hypothesize that a suppressive SOD1(G93A) peripheral splenic microenvironment may compromise neuroprotective CD4(+) T cell activation and/or differentiation, which, in turn, results in impaired immune-mediated neuroprotection for MN survival after peripheral axotomy in SOD1(G93A) mice.
Journal Title: Brain, behavior, and immunity
Volume: 40
ISSN: 1090-2139; 0889-1591
Publisher: Elsevier Inc  
Journal Place: United States
Date Published: 2014
Start Page: 55
End Page: 60
Language: eng
DOI/URL:

10.1016/j.bbi.2014.05.019
Notes: LR: 20150801; CI: Copyright (c) 2014; GR: NS40433/NS/NINDS NIH HHS/United States; GR: R01 NS040433/NS/NINDS NIH HHS/United States; JID: 8800478; 0 (DNA-Binding Proteins); 0 (Rag2 protein, mouse); EC 1.15.1.- (superoxide dismutase 1); EC 1.15.1.1 (Superoxide Dismutase); NIHMS603402; OID: NLM: NIHMS603402; OID: NLM: PMC4131730; OTO: NOTNLM; 2014/04/28 [received]; 2014/05/29 [revised]; 2014/05/29 [accepted]; 2014/06/06 [aheadofprint]; ppublish