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Central synaptopathy is the most conserved feature of motor circuit pathology across spinal muscular atrophy mouse models

Jannik M. Buettner, Josiane K. Sime Longang, Florian Gerstner, Katharina S. Apel, Beatriz Blanco-Redondo, Leonie Sowoidnich, Eva Janzen, Tobias Langenhan, Brunhilde Wirth, Christian M. Simon

2021iScience45 citationsDOIOpen Access PDF

Abstract

Spinal muscular atrophy (SMA) is a neurodegenerative disease caused by reduced survival motor neuron (SMN) protein. Recently, SMN dysfunction has been linked to individual aspects of motor circuit pathology in a severe SMA mouse model. To determine whether these disease mechanisms are conserved, we directly compared the motor circuit pathology of three SMA mouse models. The severe SMNΔ7 model exhibits vast motor circuit defects, including degeneration of motor neurons, spinal excitatory synapses, and neuromuscular junctions (NMJs). In contrast, the Taiwanese model shows very mild motor neuron pathology, but early central synaptic loss. In the intermediate Smn 2B/- model, strong pathology of central excitatory synapses and NMJs precedes the late onset of p53-dependent motor neuron death. These pathological events correlate with SMN-dependent splicing dysregulation of specific mRNAs. Our study provides a knowledge base for properly tailoring future studies and identifies central excitatory synaptopathy as a key feature of motor circuit pathology in SMA.

Topics & Concepts

SMA*Spinal muscular atrophyNeuroscienceMotor neuronExcitatory postsynaptic potentialBiologyAmyotrophic lateral sclerosisNeurodegenerationPathologySpinal cordDiseaseMedicineInhibitory postsynaptic potentialComputer scienceAlgorithmNeurogenetic and Muscular Disorders ResearchRNA modifications and cancerRNA Research and Splicing
Central synaptopathy is the most conserved feature of motor circuit pathology across spinal muscular atrophy mouse models | Litcius