Clinical SMN1 and SMN2 Gene-Specific Sequencing to Enhance the Clinical Sensitivity of Spinal Muscular Atrophy Diagnostic Testing

Abstract

Purpose. Therapeutic advances in the treatment of spinal muscular atrophy (SMA) prompt the need for robust and efficient molecular diagnosis of this disease. Approximately five percent of SMA cases are attributable to one copy of SMN1 with a hypomorphic or inactivating variant in trans with a deleted or converted allele. These intragenic variants are challenging to definitively localize to SMN1 due to its sequence homology with the SMN2 gene. To enhance the clinical sensitivity of SMA diagnostic testing, we present an optimized gene-specific sequencing assay to localize variants to either SMN1 or SMN2. Methods. SMN1 and SMN2 genes are independently amplified by long-range allele-specific PCR. Long-range products are used in subsequent nested PCR reactions to amplify the coding exons of SMN1 and SMN2. The resulting products are sequenced using standard Sanger-based methodologies and analyzed for disease-associated alterations. Results. 83 probands suspicious for a clinical diagnosis of SMA with a nondiagnostic SMN dosage result were sequenced for intragenic variants in the SMN1 gene. Gene-specific sequencing revealed likely disease-associated variants in SMN1 in 42 cases (50.6%). Of the 42 variants, 27 are unique including 16 loss-of-function variants, 9 missense variants, 1 in-frame deletion variant, and 1 splice site variant. Conclusions. Herein, we describe an optimized assay for clinical sequencing of the full coding region of SMN1 and SMN2. This assay uses standard techniques and equipment readily available to most molecular diagnostic laboratories.