Nebulin nemaline myopathy recapitulated in a compound heterozygous mouse model with both a missense and a nonsense mutation in Neb

  • Jenni M. Laitila (Creator)
  • Elyshia Mcnamara (Contributor)
  • Catherine D. Wingate (Creator)
  • Hayley Goullee (Creator)
  • Jacob A. Ross (Creator)
  • Rhonda L. Taylor (Creator)
  • Robbert van der Pijl (Contributor)
  • Lisa M. Griffiths (Creator)
  • Rachel Harries (Creator)
  • Gianina Ravenscroft (Creator)
  • Joshua S. Clayton (Creator)
  • Caroline A. Sewry (Creator)
  • Michael W. Lawlor (Creator)
  • Coen A C Ottenheijm (Creator)
  • Anthony J. Bakker (Creator)
  • Julien Ochala (Creator)
  • Nigel G. Laing (Creator)
  • Carina Wallgren-Pettersson (Creator)
  • Katarina Pelin (Creator)
  • Kristen J. Nowak (Creator)
  • Kristen Nowak (Creator)



Abstract Nemaline myopathy (NM) caused by mutations in the gene encoding nebulin (NEB) accounts for at least 50% of all NM cases worldwide, representing a significant disease burden. Most NEB-NM patients have autosomal recessive disease due to a compound heterozygous genotype. Of the few murine models developed for NEB-NM, most are Neb knockout models rather than harbouring Neb mutations. Additionally, some models have a very severe phenotype that limits their application for evaluating disease progression and potential therapies. No existing murine models possess compound heterozygous Neb mutations that reflect the genotype and resulting phenotype present in most patients. We aimed to develop a murine model that more closely matched the underlying genetics of NEB-NM, which could assist elucidation of the pathogenetic mechanisms underlying the disease. Here, we have characterised a mouse strain with compound heterozygous Neb mutations; one missense (p.Tyr2303His), affecting a conserved actin-binding site and one nonsense mutation (p.Tyr935*), introducing a premature stop codon early in the protein. Our studies reveal that this compound heterozygous model, NebY2303H, Y935X, has striking skeletal muscle pathology including nemaline bodies. In vitro whole muscle and single myofibre physiology studies also demonstrate functional perturbations. However, no reduction in lifespan was noted. Therefore, NebY2303H,Y935X mice recapitulate human NEB-NM and are a much needed addition to the NEB-NM mouse model collection. The moderate phenotype also makes this an appropriate model for studying NEB-NM pathogenesis, and could potentially be suitable for testing therapeutic applications.
Date made available2020

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