CD8+ T cells recognizing a neuron-restricted antigen injure axons in a model of multiple sclerosis
Benjamin D.S. Clarkson, … , Liz S. Muschler, Charles L. Howe
Benjamin D.S. Clarkson, … , Liz S. Muschler, Charles L. Howe
Published September 7, 2023
Citation Information: J Clin Invest. 2023;133(21):e162788. https://doi.org/10.1172/JCI162788.
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Research Article Immunology Neuroscience

CD8+ T cells recognizing a neuron-restricted antigen injure axons in a model of multiple sclerosis

Abstract

CD8+ T cells outnumber CD4+ cells in multiple sclerosis (MS) lesions associated with disease progression, but the pathogenic role and antigenic targets of these clonally expanded effectors are unknown. Based on evidence that demyelination is necessary but not sufficient for disease progression in MS, we previously hypothesized that CNS-infiltrating CD8+ T cells specific for neuronal antigens directly drive the axonal and neuronal injury that leads to cumulative neurologic disability in patients with MS. We now show that demyelination induced expression of MHC class I on neurons and axons and resulted in presentation of a neuron-specific neoantigen (synapsin promoter–driven chicken ovalbumin) to antigen-specific CD8+ T cells (anti-ovalbumin OT-I TCR-transgenic T cells). These neuroantigen-specific effectors surveilled the CNS in the absence of demyelination but were not retained. However, upon induction of demyelination via cuprizone intoxication, neuroantigen-specific CD8+ T cells proliferated, accumulated in the CNS, and damaged neoantigen-expressing neurons and axons. We further report elevated neuronal expression of MHC class I and β2-microglobulin transcripts and protein in gray matter and white matter tracts in tissue from patients with MS. These findings support a pathogenic role for autoreactive anti-axonal and anti-neuronal CD8+ T cells in MS progression.

Authors

Benjamin D.S. Clarkson, Ethan M. Grund, Miranda M. Standiford, Kanish Mirchia, Maria S. Westphal, Liz S. Muschler, Charles L. Howe

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Figure 3

Immune surveillance of a neuron-restricted antigen is increased during CNS demyelination.

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Immune surveillance of a neuron-restricted antigen is increased during C...
(A) Gating strategy for identifying CD8+Vα2+ OT-I T cells among deep cervical lymph node (CLN) cells in mice receiving adoptive transfer of 2 × 106 CMFDA-labeled OT-I cells 5 days prior to analysis. (B) OT-I T cell proliferation in deep CLNs and spleen of cuprizone-fed mice transduced with AAV.Syn.GFP (AAV.GFP, green) or AAV.Syn.OVA.GFP (AAV.OVA, red). (C) Percentage of CLN OT-I T cells exhibiting an LFA-1hi phenotype in mice transduced with AAV.Syn.GFP (green) or AAV.Syn.OVA.GFP (red) and fed either control chow (CON) or cuprizone (CUP). (D) Proliferation of adoptively transferred OT-I T cells in deep CLNs or spleen of mice transduced with AAV.Syn.OVA.GFP and fed control chow (gray) or cuprizone (blue). (E and F) Representative images of brain-draining deep CLNs showing CD11c+ dendritic cells (E; green) and Lyve-1+ stromal cells (F; green) colocalized with OVA (red) in cuprizone-fed mice transduced by intracranial inoculation with AAV.Syn.OVA.GFP. The same field from tissue labeled with 4 colors has been false colored to present CD11c and Lyve-1 individually. (G) Image of deep CLN showing CD11c+ (green) and CD8a+ (red) dendritic cells. (H) Representative image showing CD11c+ (green) and CD8a+ (blue) cells in the deep CLN of cuprizone-fed mice transduced by intracranial inoculation with AAV.Syn.OVA.GFP present SIINFEKL on H2-Kb (red). Images representative of 5 mice. Long scale bars: 100 μm; short scale bars: 10 μm. Error bars show the 95% CI. *P < 0.05; **P < 0.01 by 1-way ANOVA with Benjamini-Hochberg correction for multiple comparisons (C) or multiple unpaired t tests with Holm-Šidák multiple comparison correction (D).