ICAM1+ neutrophils promote chronic inflammation via ASPRV1 in B cell–dependent autoimmune encephalomyelitis
Ryder F. Whittaker Hawkins, Alexandre Patenaude, Aline Dumas, Rajiv Jain, Yodit Tesfagiorgis, Steven Kerfoot, Takeshi Matsui, Matthias Gunzer, Patrice E. Poubelle, Catherine Larochelle, Martin Pelletier, Luc Vallières
Ryder F. Whittaker Hawkins, Alexandre Patenaude, Aline Dumas, Rajiv Jain, Yodit Tesfagiorgis, Steven Kerfoot, Takeshi Matsui, Matthias Gunzer, Patrice E. Poubelle, Catherine Larochelle, Martin Pelletier, Luc Vallières
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Research Article Neuroscience

ICAM1+ neutrophils promote chronic inflammation via ASPRV1 in B cell–dependent autoimmune encephalomyelitis

Abstract

Neutrophils contribute to demyelinating autoimmune diseases, yet their phenotype and functions have been elusive to date. Here, we demonstrate that ICAM1 surface expression distinguishes extra- from intravascular neutrophils in the mouse CNS during experimental autoimmune encephalomyelitis (EAE). Transcriptomic analysis of these 2 subpopulations indicated that neutrophils, once extravasated, acquire macrophage-like properties, including the potential for immunostimulation and MHC class II–mediated antigen presentation. In corroboration, super-resolution (3D stimulated emission-depletion [STED]) microscopy revealed neutrophils forming synapses with T and B cells in situ. Further, neutrophils specifically express the aspartic retroviral-like protease ASPRV1, which increases in the CNS during EAE and severe cases of multiple sclerosis. Without ASPRV1, mice immunized with a new B cell–dependent myelin antigen (but not with the traditional myelin oligodendrocyte glycoprotein peptide) develop a chronic phase of EAE that is less severe and even completely fades in many individuals. Therefore, ICAM1+ macrophage–like neutrophils can play both shared and nonredundant roles in autoimmune demyelination, among them perpetuating inflammation via ASPRV1.

Authors

Ryder F. Whittaker Hawkins, Alexandre Patenaude, Aline Dumas, Rajiv Jain, Yodit Tesfagiorgis, Steven Kerfoot, Takeshi Matsui, Matthias Gunzer, Patrice E. Poubelle, Catherine Larochelle, Martin Pelletier, Luc Vallières

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Figure 2

Further characterization of ICAM1+ and ICAM spinal cord neutrophil populations.

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Further characterization of ICAM1+ and ICAM– spinal cord neutrophil popu...
(A) Flow cytometric quantification of CD11b and CD45 on ICAM1+ and ICAM1 neutrophils from the spinal cord of EAE mice. Stars indicate significant increases (2-tailed Student’s t test, P < 0.0001). The right chart shows a positive correlation between CD11b and CD45 expression (Pearson correlation test). n = 15 per group. (B) Confocal images showing different nuclear morphologies in spinal cord neutrophils isolated by FACS and stained with DAPI. Scale bar: 1 μm. (C) Frequency of the different nuclear morphologies in ICAM1+ and ICAM1 neutrophils separately purified from the spinal cord of EAE mice by FACS. No intergroup difference was observed (2-tailed Student’s t test, P ≥ 0.1). Fifty to 160 nuclei were counted per cell subset and per mouse (total of 5 mice).