4.3 Article

Ultrastructural characterization of peripheral denervation in a mouse model of Type III spinal muscular atrophy

期刊

JOURNAL OF NEURAL TRANSMISSION
卷 128, 期 6, 页码 771-791

出版社

SPRINGER WIEN
DOI: 10.1007/s00702-021-02353-9

关键词

Neuromuscular disease; Muscle denervation; Muscle spindle; SMN; Transmission electron microscopy; Mitochondria

资金

  1. Universita di Pisa within the CRUI-CARE Agreement
  2. Ministero della Salute
  3. University of Pisa (Dept. of Translational Research and New Technologies in Medicine and Surgery)

向作者/读者索取更多资源

Spinal muscular atrophy is a heritable neuromuscular disorder characterized by a loss of the survival of motor neurons protein, leading to degeneration of lower motor neurons. Research indicates that early peripheral alterations may occur at the neuromuscular junction, muscle, and axons in SMA. Studies on a slow progressive mouse model have shown remarkable ultrastructural alterations related to early peripheral denervation in SMA, highlighting potential new anatomical targets for neuromuscular disease research.
Spinal muscular atrophy (SMA) is a heritable, autosomal recessive neuromuscular disorder characterized by a loss of the survival of motor neurons (SMN) protein, which leads to degeneration of lower motor neurons, and muscle atrophy. Despite SMA being nosographically classified as a motor neuron disease, recent advances indicate that peripheral alterations at the level of the neuromuscular junction (NMJ), involving the muscle, and axons of the sensory-motor system, occur early, and may even precede motor neuron loss. In the present study, we used a mouse model of slow progressive (type III) SMA, whereby the absence of the mouse SMN protein is compensated by the expression of two human genes (heterozygous SMN1A2G, and SMN2). This leads to late disease onset and prolonged survival, which allows for dissecting slow degenerative steps operating early in SMA pathogenesis. In this purely morphological study carried out at transmission electron microscopy, we extend the examination of motor neurons and proximal axons towards peripheral components, including distal axons, muscle fibers, and also muscle spindles. We document remarkable ultrastructural alterations being consistent with early peripheral denervation in SMA, which may shift the ultimate anatomical target in neuromuscular disease from the spinal cord towards the muscle. This concerns mostly mitochondrial alterations within distal axons and muscle, which are quantified here through ultrastructural morphometry. The present study is expected to provide a deeper knowledge of early pathogenic mechanisms in SMA.

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