Objective:

To test whether astrocytic major histocompatibility complex-I (MHC-I) and –II (MHC-II) regulate disease severity in experimental autoimmune encephalomyelitis (EAE). 

Background:

Reactive astrocytes upregulate the antigen presentation receptors, MHC-I and MHC-II, in lesions of viral encephalitis, multiple sclerosis and the animal model of CNS autoimmune disease, EAE. MHC-I and –II bind antigen-specific T cell receptors (TCRs) on CD8⁺ and CD4⁺ T cells, respectively, to drive T cell proliferation. Whether astrocytic antigen presentation contributes to CNS autoimmune disease pathophysiology is still unknown. The potential for antigen-specific regulation of immune cell proliferation by astrocytes, a local CNS resident cell population with CNS barrier properties, suggests a novel translational checkpoint against CNS inflammation. 

Design/Methods:

We created transgenic astrocyte-specific conditional MHC-I and MHC-II knock-out (CKO) mouse lines by crossing the astrocyte-specific promoter line, B6.Cg-Tg(Gfap-cre)77.6Mvs/2J, with the B6(Cg)-B2m^{tm1c(EUCOMM)Hmgu}/J and B6.129X1-H2-Ab1^b-tm1Koni/J lines, respectively. CKO (homozygous floxed mice with Gfap-Cre) and littermate wild-type (WT) controls (homozygous floxed animals without Gfap-Cre) were subjected to EAE at 10-12 weeks of age and then rated blind to genotype for 35 days from disease onset. Immunohistochemistry for neuropathological measures of astrocyte activation (GFAP), neuronal cell death (NeuN), demyelination (fluoromyelin) and remyelination (Olig2) were also performed at peak disease, 5 days from disease onset, and the chronic time point, 35 days from disease onset. 

Results:

MHC-I CKOs showed a more severe course of EAE compared to WTs and this phenotype was most pronounced in males compared to females. In contrast, MHC-II CKOs showed no significant difference in the course of EAE. 

Conclusions: