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Significance Clinical and pathological hallmarks shared by various familial and sporadic forms of amyotrophic lateral sclerosis (ALS) suggest common underlying mechanisms of disease. Using a series of ALS mouse models, we demonstrate that one shared feature of ALS is the selective sparing of gamma motor neurons (γ-MNs), which innervate muscle spindles and regulate primary proprioceptive afferent (I A ) feedback on alpha motor neurons (α-MNs). Genetic evidence presented here implicates this major excitatory input in the selective degeneration of α-MNs in ALS. Functional elimination of I A inputs or partial elimination of γ-MNs is protective in superoxide dismutase-1 (SOD1) mutant mice, suggesting that surviving γ-MNs contribute to α-MN loss by increasing muscle afferent-mediated excitation. This study highlights the role of synaptic connectivity and circuit function in motor neuron disease.
Lalancette–Hébert et al. (Wed,) studied this question.