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Age-dependent gray matter demyelination is associated with leptomeningeal neutrophil accumulation
Michelle Zuo, Naomi M. Fettig, Louis-Philippe Bernier, Elisabeth Pössnecker, Shoshana Spring, Annie Pu, Xianjie I. Ma, Dennis S.W. Lee, Lesley A. Ward, Anshu Sharma, Jens Kuhle, John G. Sled, Anne-Katrin Pröbstel, Brian A. MacVicar, Lisa C. Osborne, Jennifer L. Gommerman, Valeria Ramaglia
Michelle Zuo, Naomi M. Fettig, Louis-Philippe Bernier, Elisabeth Pössnecker, Shoshana Spring, Annie Pu, Xianjie I. Ma, Dennis S.W. Lee, Lesley A. Ward, Anshu Sharma, Jens Kuhle, John G. Sled, Anne-Katrin Pröbstel, Brian A. MacVicar, Lisa C. Osborne, Jennifer L. Gommerman, Valeria Ramaglia
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Research Article Immunology

Age-dependent gray matter demyelination is associated with leptomeningeal neutrophil accumulation

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Abstract

People living with multiple sclerosis (MS) experience episodic CNS white matter lesions instigated by autoreactive T cells. With age, patients with MS show evidence of gray matter demyelination and experience devastating nonremitting symptomology. What drives progression is unclear and studying this has been hampered by the lack of suitable animal models. Here, we show that passive experimental autoimmune encephalomyelitis (EAE) induced by an adoptive transfer of young Th17 cells induced a nonremitting clinical phenotype that was associated with persistent leptomeningeal inflammation and cortical pathology in old, but not young, SJL/J mice. Although the quantity and quality of T cells did not differ in the brains of old versus young EAE mice, an increase in neutrophils and a decrease in B cells were observed in the brains of old mice. Neutrophils were also found in the leptomeninges of a subset of progressive MS patient brains that showed evidence of leptomeningeal inflammation and subpial cortical demyelination. Taken together, our data show that while Th17 cells initiate CNS inflammation, subsequent clinical symptoms and gray matter pathology are dictated by age and associated with other immune cells, such as neutrophils.

Authors

Michelle Zuo, Naomi M. Fettig, Louis-Philippe Bernier, Elisabeth Pössnecker, Shoshana Spring, Annie Pu, Xianjie I. Ma, Dennis S.W. Lee, Lesley A. Ward, Anshu Sharma, Jens Kuhle, John G. Sled, Anne-Katrin Pröbstel, Brian A. MacVicar, Lisa C. Osborne, Jennifer L. Gommerman, Valeria Ramaglia

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Figure 5

Flow cytometry and immunofluorescence of the brain from old versus young SJL/J A/T EAE mice reveal differences in immune cell compositions.

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Flow cytometry and immunofluorescence of the brain from old versus young...
Leptomeninges were separately dissected from mice at the acute time point of EAE and subjected to analysis by flow cytometry. Despite no change in (A) T cell number or frequency, we observed a decrease in density of (B) monocytes and (C) B cells and an increase in frequency of (D) neutrophils. Naive samples represent a pool of 2 young, 1 old age-matched, unimmunized controls. (A–D) Statistical analysis by 1-way ANOVA (absolute number) or Kruskal-Wallis (frequency) with correction for multiple comparisons. (F and H) Statistical analysis by Kruskal-Wallis with correction for multiple comparisons. Data are expressed as mean ± SD. We also performed immunofluorescence staining for Ly6G, identifying neutrophils in fresh-frozen brain tissue from old versus young naive and SJL/J A/T EAE mice. Note the enrichment in Ly6G+ neutrophils in the leptomeninges overlying the (E and F) cortex and (G and H) brainstem. *P ≤ 0.05, **P ≤ 0.01, ***P ≤ 0.001, ****P ≤ 0.0001. Scale bars: 50 μm.

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