Three novel missense variants in two families with JAG2-associated limb-girdle muscular dystrophy
Lein Dofash,Krishnan Lyengar,Nolette Pereira,...Matthew Lynch,Mark Davis,Gianina Ravenscroft
Limb-girdle muscular dystrophy recessive 27 is associated with biallelic variants in JAG2, encoding the JAG2 notch ligand. Twenty-four affected individuals from multiple families have been described in two reports. We present two Australian families with three novel JAG2 missense variants: (c.1021G>T, p.(Gly341Cys)) homozygous in two siblings of Pakistani origin, and compound heterozygous variants (c.703T>C, p.(Trp235Arg); c.2350C>T, p.(Arg784Cys)) in a proband of European ancestry. Patients presented with childhood-onset limb-girdle-like myopathy with difficulty or inability walking. MRI revealed widespread torso and limb muscle involvement. Muscle pathology showed myopathic changes with fatty infiltration. Muscle RNA sequencing revealed significant downregulation of myogenesis genes PAX7, MYF5, and MEGF10 similar to previous JAG2-related muscular dystrophy cases or Jag2-knockdown cells. In absence of functional assays to characterise JAG2 variants, clinical, MRI and transcriptomic profiling collectively may help discern JAG2-related muscular dystrophy, diagnosis of which is essential for patients and families given the severity of disease and reoccurrence risk.