Benoit Mailhot scite author profile

The role of microglia in spinal cord injury (SCI) remains poorly understood and is often confused with the response of macrophages. Here, we use specific transgenic mouse lines and depleting agents to understand the response of microglia after SCI. We find that microglia are highly dynamic and proliferate extensively during the first two weeks, accumulating around the lesion. There, activated microglia position themselves at the interface between infiltrating leukocytes and astrocytes, which proliferate and form a scar in response to microglia-derived factors, such as IGF-1. Depletion of microglia after SCI causes disruption of glial scar formation, enhances parenchymal immune infiltrates, reduces neuronal and oligodendrocyte survival, and impairs locomotor recovery. Conversely, increased microglial proliferation, induced by local M-CSF delivery, reduces lesion size and enhances functional recovery. Altogether, our results identify microglia as a key cellular component of the scar that develops after SCI to protect neural tissue.

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Platelets release pathogenic serotonin and return to circulation after immune complex-mediated sequestration

Cloutier

Allaeys

Marcoux

et al. 2018

Proc. Natl. Acad. Sci. U.S.A.

172

163

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There is a growing appreciation for the contribution of platelets to immunity; however, our knowledge mostly relies on platelet functions associated with vascular injury and the prevention of bleeding. Circulating immune complexes (ICs) contribute to both chronic and acute inflammation in a multitude of clinical conditions. Herein, we scrutinized platelet responses to systemic ICs in the absence of tissue and endothelial wall injury. Platelet activation by circulating ICs through a mechanism requiring expression of platelet Fcγ receptor IIA resulted in the induction of systemic shock. IC-driven shock was dependent on release of serotonin from platelet-dense granules secondary to platelet outside-in signaling by αIIbβ3 and its ligand fibrinogen. While activated platelets sequestered in the lungs and leaky vasculature of the blood-brain barrier, platelets also sequestered in the absence of shock in mice lacking peripheral serotonin. Unexpectedly, platelets returned to the blood circulation with emptied granules and were thereby ineffective at promoting subsequent systemic shock, although they still underwent sequestration. We propose that in response to circulating ICs, platelets are a crucial mediator of the inflammatory response highly relevant to sepsis, viremia, and anaphylaxis. In addition, platelets recirculate after degranulation and sequestration, demonstrating that in adaptive immunity implicating antibody responses, activated platelets are longer lived than anticipated and may explain platelet count fluctuations in IC-driven diseases.

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Myeloid cell transmigration across the CNS vasculature triggers IL-1β–driven neuroinflammation during autoimmune encephalomyelitis in mice

et al. 2016

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IL-1β enables CNS access to CCR2 ^hi monocytes and the generation of pathogenic cells through GM-CSF released by CNS endothelial cells

Paré

Mailhot

Lévesque

et al. 2018

Proc. Natl. Acad. Sci. U.S.A.

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Molecular interventions that limit pathogenic CNS inflammation are used to treat autoimmune conditions such as multiple sclerosis (MS). Remarkably, IL-1β-knockout mice are highly resistant to experimental autoimmune encephalomyelitis (EAE), an animal model of MS. Here, we show that interfering with the IL-1β/IL-1R1 axis severely impairs the transmigration of myeloid cells across central nervous system (CNS) endothelial cells (ECs). Notably, we report that IL-1β expression by inflammatory CCR2 monocytes favors their entry into the spinal cord before EAE onset. Following activation with IL-1β, CNS ECs release GM-CSF, which in turn converts monocytes into antigen-presenting cells (APCs). Accordingly, spinal cord-infiltrated monocyte-derived APCs are associated with dividing CD4 T cells. Factors released from the interaction between IL-1β-competent myeloid cells and CD4 T cells are highly toxic to neurons. Together, our results suggest that IL-1β signaling is an entry point for targeting both the initiation and exacerbation of neuroinflammation.

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Benoit Mailhot

Microglia are an essential component of the neuroprotective scar that forms after spinal cord injury

Platelets release pathogenic serotonin and return to circulation after immune complex-mediated sequestration

Myeloid cell transmigration across the CNS vasculature triggers IL-1β–driven neuroinflammation during autoimmune encephalomyelitis in mice

IL-1β enables CNS access to CCR2 ^hi monocytes and the generation of pathogenic cells through GM-CSF released by CNS endothelial cells

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About

Benoit Mailhot

Microglia are an essential component of the neuroprotective scar that forms after spinal cord injury

Platelets release pathogenic serotonin and return to circulation after immune complex-mediated sequestration

Myeloid cell transmigration across the CNS vasculature triggers IL-1β–driven neuroinflammation during autoimmune encephalomyelitis in mice

IL-1β enables CNS access to CCR2 hi monocytes and the generation of pathogenic cells through GM-CSF released by CNS endothelial cells

Contact Info

Product

Resources

About

IL-1β enables CNS access to CCR2 ^hi monocytes and the generation of pathogenic cells through GM-CSF released by CNS endothelial cells