Mast cells and neutrophils mediate peripheral motor pathway degeneration in ALS
Emiliano Trias, … , Olivier Hermine, Luis Barbeito
Emiliano Trias, … , Olivier Hermine, Luis Barbeito
Published October 4, 2018
Citation Information: JCI Insight. 2018;3(19):e123249. https://doi.org/10.1172/jci.insight.123249.
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Research Article Inflammation Neuroscience

Mast cells and neutrophils mediate peripheral motor pathway degeneration in ALS

Abstract

Neuroinflammation is a recognized pathogenic mechanism underlying motor neuron degeneration in amyotrophic lateral sclerosis (ALS), but the inflammatory mechanisms influencing peripheral motor axon degeneration remain largely unknown. A recent report showed a pathogenic role for c-Kit–expressing mast cells mediating inflammation and neuromuscular junction denervation in muscles from SOD1G93A rats. Here, we have explored whether mast cells infiltrate skeletal muscles in autopsied muscles from ALS patients. We report that degranulating mast cells were abundant in the quadriceps muscles from ALS subjects but not in controls. Mast cells were associated with myofibers and motor endplates and, remarkably, interacted with neutrophils forming large extracellular traps. Mast cells and neutrophils were also abundant around motor axons in the extensor digitorum longus muscle, sciatic nerve, and ventral roots of symptomatic SOD1G93A rats, indicating that immune cell infiltration extends along the entire peripheral motor pathway. Postparalysis treatment of SOD1G93A rats with the tyrosine kinase inhibitor drug masitinib prevented mast cell and neutrophil infiltration, axonal pathology, secondary demyelination, and the loss of type 2B myofibers, compared with vehicle-treated rats. These findings provide further evidence for a yet unrecognized contribution of immune cells in peripheral motor pathway degeneration that can be therapeutically targeted by tyrosine kinase inhibitors.

Authors

Emiliano Trias, Peter H. King, Ying Si, Yuri Kwon, Valentina Varela, Sofía Ibarburu, Mariángeles Kovacs, Ivan C. Moura, Joseph S. Beckman, Olivier Hermine, Luis Barbeito

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Figure 4

Infiltration and degranulation of mast cells into sciatic nerve endoneurium after paralysis onset in mSOD1 rats.

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Infiltration and degranulation of mast cells into sciatic nerve endoneur...
Longitudinal 10-μm cryostat sciatic nerve sections of nontransgenic (NonTg) and mSOD1 (onset and 15-day paralysis) rats. (A) Using toluidine blue staining, few endoneurial mast cells displaying metachromasia were observed in NonTg and mSOD1-onset sciatic nerve as compared with numerous mast cells 15 days after paralysis onset. High-magnification image (×100, inset) shows degranulating mast cells, which are commonly observed in mSOD1-advanced when compared with NonTg and mSOD1-onset, where few degranulating mast cells are observed. (B) Representative confocal images comparing the infiltration of tryptase-positive mast cells (red, arrows) among conditions. Few mast cells are observed in NonTg and mSOD1-onset conditions when compared with mSOD1 15d paralysis. Inset in lowest panel shows degranulating tryptase-positive mast cells (red). Scale bars: 100 μm in lower magnification panels, 20 μm in insets. (C) Quantitative analysis of total and degranulating mast cell number, toluidine blue staining, and tryptase staining. Note the sharp increase in mast cells between mSOD1 onset and 15-day paralysis. All quantitative data are expressed as the mean ± SEM (n = 4 animals/condition). Data were analyzed by Kruskal-Wallis followed by Dunn’s multiple-comparisons test; *P < 0.05. (D) 3D representative reconstruction of mast cell/neutrophil aggregates observed in the sciatic nerve 15 days after paralysis onset. Note chymase-positive mast cells (red) organizing at the surface of elastase-positive neutrophil aggregates (green) that aligned in the endoneurium. Scale bar: 10 μm.