γδT cells but not αβT cells contribute to sepsis-induced white matter injury and motor abnormalities in mice

Infection and sepsis are associated with brain white matter injury in preterm infants and the subsequent development of cerebral palsy. In the present study, we used a neonatal mouse sepsis-induced white matter injury model to determine the contribution of different T cell subsets (αβT cells and γδT...

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Bibliographic Details
Published in:Journal of neuroinflammation 2017-12, Vol.14 (1), p.255-255, Article 255
Main Authors: Zhang, Xiaoli, Rocha-Ferreira, Eridan, Li, Tao, Vontell, Regina, Jabin, Darakhshan, Hua, Sha, Zhou, Kai, Nazmi, Arshed, Albertsson, Anna-Maj, Sobotka, Kristina, Ek, Joakim, Thornton, Claire, Hagberg, Henrik, Mallard, Carina, Leavenworth, Jianmei W, Zhu, Changlian, Wang, Xiaoyang
Format: Article
Language:English
Subjects:
Behavior tests
Pediatrics
Pediatrik
Preterm
Sepsis
T lymphocytes
White matter injury
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Summary:Infection and sepsis are associated with brain white matter injury in preterm infants and the subsequent development of cerebral palsy. In the present study, we used a neonatal mouse sepsis-induced white matter injury model to determine the contribution of different T cell subsets (αβT cells and γδT cells) to white matter injury and consequent behavioral changes. C57BL/6J wild-type (WT), T cell receptor (TCR) δ-deficient (Tcrd , lacking γδT cells), and TCRα-deficient (Tcra , lacking αβT cells) mice were administered with lipopolysaccharide (LPS) at postnatal day (PND) 2. Brain myelination was examined at PNDs 12, 26, and 60. Motor function and anxiety-like behavior were evaluated at PND 26 or 30 using DigiGait analysis and an elevated plus maze. White matter development was normal in Tcrd and Tcrα compared to WT mice. LPS exposure induced reductions in white matter tissue volume in WT and Tcrα mice, but not in the Tcrd mice, compared with the saline-treated groups. Neither LPS administration nor the T cell deficiency affected anxiety behavior in these mice as determined with the elevated plus maze. DigiGait analysis revealed motor function deficiency after LPS-induced sepsis in both WT and Tcrα mice, but no such effect was observed in Tcrd mice. Our results suggest that γδT cells but not αβT cells contribute to sepsis-induced white matter injury and subsequent motor function abnormalities in early life. Modulating the activity of γδT cells in the early stages of preterm white matter injury might represent a novel therapeutic strategy for the treatment of perinatal brain injury.
ISSN:1742-2094
1742-2094
DOI:10.1186/s12974-017-1029-9