AUTHORS
Floriane Bretheau, Adrian Castellanos-Molina, Benoit Mailhot, Maxime Kusik, Dominic Belanger, Martine Lessard, Nicolas Vallières, Xiaoyu Liu, Ning Quan, Steve Lacroix
ABSTRACT
Spinal cord injury (SCI) triggers neuroinflammation, and subsequently secondary degeneration and oligodendrocyte (OL) death. We report that the alarmin interleukin (IL)-1α is released by damaged microglia after SCI. Intra-cisterna magna injection of IL-1α in mice rapidly induced neutrophil infiltration and OL death throughout the spinal cord, mimicking what is seen at sites of SCI. These effects were abolished by co-treatment with the IL-1R1 antagonist anakinra, as well as in IL-1R1-knockout mice which showed enhanced locomotor recovery after SCI. Conditional restoration of IL-1R1 expression in astrocytes or endothelial cells (ECs), but not in OLs or microglia, restored IL-1α-induced effects, while astrocyte- or EC-specific Il1r1 deletion reduced OL loss. Conditioned medium derived from IL-1α-stimulated astrocytes is toxic for OLs; further, IL-1α-stimulated astrocytes generate reactive oxygen species (ROS) and blocking ROS production in IL-1α-treated or SCI mice prevented OL loss. Thus, after SCI, microglia release IL-1α, which induces astrocyte- and EC-mediated OL degeneration.