Congenital myopathy as a new phenotype caused by two undescribed variants in ASCC1 gene

We present a patient with congenital myopathy and an inborn epiphysiolysis of the ulna. Whole-exome sequencing analysis revealed two novel mutations in Activation Signal Cointegrator Complex 1 (ASCC1) gene in a compound heterozygous state-a splicing variant c.395-2A>G and a deletion of the first two coding exons. Homozygous and compound heterozygous LoF variants in ASCC1 gene lead to a severe phenotype of spinal muscular atrophy with congenital bone fractures 2 (SMABF2). All patients described to date presented with a severe muscular hypotony, inborn fractures, and passed away shortly after birth while our proband had moderate hypotony, no fractures, but epiphysiolysis and he was 3.5 years old at the time of examination. To explain the phenotype of our patient, we performed an RNA analysis of all family members. We discovered that the c.395-2A>G variant results in two aberrant mRNA isoforms. We also validated the deletion of two exons in ASCC1 gene that lead to the increased expression of this truncated transcript by 1.8 times. To investigate the possible impact of this deletion on the phenotype we predicted a new Kozak sequence in exon 4 that could lead to the formation of a truncated protein with shortened KH domain and a full RNA ligase-like domain. We suggest that this unexpectedly different phenotype of the proband with ASCC1-related disorder could be explained by the presence of the truncated protein with an increased expression.