ABSTRACT
BACKGROUND: An accurate genetic diagnosis of Becker muscular dystrophy (BMD) can be sometimes challenging due to deep intronic DMD variants. Here, we report on the genetic diagnosis of a BMD patient with a novel deep-intronic splice-altering variant in DMD. METHODS: The index case was a 3.8-year-old boy who was suspected of having a diagnosis of BMD based on his clinical, muscle imaging, and pathological features. Routine genomic detection approaches did not detect any disease-causing variants in him. Muscle-derived DMD mRNA studies, followed by genomic Sanger sequencing and in silico bioinformatic analyses, were performed in the patient. RESULTS: DMD mRNA studies detected a cryptic exon-containing transcript and normally spliced DMD transcript in the patient. The cryptic exon-containing transcript encoded a frameshift and premature termination codon (NP_003997.1:p.[=,Asp2740Valfs*52]). Further genomic Sanger sequencing and bioinformatic analysis identified a novel deep-intronic splice-altering variant in DMD (c.8217 + 23338A > G). The novel variant strengthened a cryptic donor splice site and activated a cryptic acceptor splice site in the deep-intronic region of DMD intron 55, resulting in the activation of a new dystrophin cryptic exon found in the patient. CONCLUSION: Our case report expands the genetic spectrum of BMD and highlights the essential role of deep-intronic cryptic exon-activating variants in genetically unsolved BMD patients.
