Annals of Clinical and Translational Neurology (Jul 2020)

Whole‐blood dysregulation of actin‐cytoskeleton pathway in adult spinal muscular atrophy patients

  • Jennifer J. Siranosian,
  • Flavia C. Nery,
  • Christiano R. R. Alves,
  • Benjamin A. Siranosian,
  • Nicholas J. Lyons,
  • Eric J. Eichelberger,
  • Reid Garner,
  • Salomé Da Silva Duarte Lepez,
  • Alec J. Johnstone,
  • Aravind Subramanian,
  • Kathryn J. Swoboda

DOI
https://doi.org/10.1002/acn3.51092
Journal volume & issue
Vol. 7, no. 7
pp. 1158 – 1165

Abstract

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Abstract Objective Recent advances in therapeutics have improved prognosis for severely affected spinal muscular atrophy (SMA) type 1 and 2 patients, while the best method of treatment for SMA type 3 patients with later onset of disease is unknown. To better characterize the SMA type 3 population and provide potential therapeutic targets, we aimed to understand gene expression differences in whole blood of SMA type 3 patients (n = 31) and age‐ and gender‐matched controls (n = 34). Methods We performed the first large‐scale whole blood transcriptomic screen with L1000, a rapid, high‐throughput gene expression profiling technology that uses 978 landmark genes to capture a representation of the transcriptome and predict expression of 9196 additional genes. Results The primary downregulated KEGG pathway in adult SMA type 3 patients was "Regulation of Actin Cytoskeleton,” and downregulated expression of key genes in this pathway, including ROCK1, RHOA, and ACTB, was confirmed in the same whole blood samples using RT‐qPCR. SMA type 3 patient‐derived fibroblasts had lower expression of these genes compared to control fibroblasts from unaffected first‐degree relatives. Overexpression of SMN levels using an AAV vector in fibroblasts did not normalize ROCK1, RHOA, and ACTB mRNA expression, indicating the involvement of additional genes in cytoskeleton dynamic regulation. Interpretation Our findings from whole blood and patient‐derived fibroblasts suggest SMA type 3 patients have decreased expression of actin cytoskeleton regulators. These observations provide new insights and potential therapeutic targets for SMA patients with longstanding denervation and secondary musculoskeletal pathophysiology.