Your search keyword '"Dennis SW"' showing total 2 results

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

Author

Zuo M, Fettig NM, Bernier LP, Pössnecker E, Spring S, Pu A, Ma XI, Lee DS, Ward LA, Sharma A, Kuhle J, Sled JG, Pröbstel AK, MacVicar BA, Osborne LC, Gommerman JL, and Ramaglia V

Subjects

Animals, Gray Matter pathology, Humans, Inflammation, Mice, Neutrophils pathology, Encephalomyelitis, Autoimmune, Experimental, Multiple Sclerosis

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.

Published

2022

2. Recirculating Intestinal IgA-Producing Cells Regulate Neuroinflammation via IL-10.

Author

Rojas, Olga L, Pröbstel, Anne-Katrin, Porfilio, Elisa A, Wang, Angela A, Charabati, Marc, Sun, Tian, Lee, Dennis SW, Galicia, Georgina, Ramaglia, Valeria, Ward, Lesley A, Leung, Leslie YT, Najafi, Ghazal, Khaleghi, Khashayar, Garcillán, Beatriz, Li, Angela, Besla, Rickvinder, Naouar, Ikbel, Cao, Eric Y, Chiaranunt, Pailin, Burrows, Kyle, Robinson, Hannah G, Allanach, Jessica R, Yam, Jennifer, Luck, Helen, Campbell, Daniel J, Allman, David, Brooks, David G, Tomura, Michio, Baumann, Ryan, Zamvil, Scott S, Bar-Or, Amit, Horwitz, Marc S, Winer, Daniel A, Mortha, Arthur, Mackay, Fabienne, Prat, Alexandre, Osborne, Lisa C, Robbins, Clinton, Baranzini, Sergio E, and Gommerman, Jennifer L

Subjects

Intestines, Intestinal Mucosa, Plasma Cells, Animals, Mice, Inbred C57BL, Humans, Mice, Multiple Sclerosis, Encephalomyelitis, Autoimmune, Experimental, Immunoglobulin A, Interleukin-10, Neuroimmunomodulation, B cells, EAE, IgA, MS, experimental autoimmune encephalomyelitis, microbiota, multiple sclerosis, plasma cells, small intestinal lamina propria, Autoimmune Disease, Brain Disorders, Neurodegenerative, Digestive Diseases, Neurosciences, Biological Sciences, Medical and Health Sciences, Developmental Biology

Abstract

Plasma cells (PC) are found in the CNS of multiple sclerosis (MS) patients, yet their source and role in MS remains unclear. We find that some PC in the CNS of mice with experimental autoimmune encephalomyelitis (EAE) originate in the gut and produce immunoglobulin A (IgA). Moreover, we show that IgA+ PC are dramatically reduced in the gut during EAE, and likewise, a reduction in IgA-bound fecal bacteria is seen in MS patients during disease relapse. Removal of plasmablast (PB) plus PC resulted in exacerbated EAE that was normalized by the introduction of gut-derived IgA+ PC. Furthermore, mice with an over-abundance of IgA+ PB and/or PC were specifically resistant to the effector stage of EAE, and expression of interleukin (IL)-10 by PB plus PC was necessary and sufficient to confer resistance. Our data show that IgA+ PB and/or PC mobilized from the gut play an unexpected role in suppressing neuroinflammation.

Published

2019