Characterization of novel CASQ1 variants in two families with unusual phenotypic features

Abstract

<h3>Background</h3><p>Variants in <em>CASQ1</em>, encoding a calcium-binding protein in the fast-twitch fibers of skeletal muscle, cause sarcoplasmic reticulum aberrations such as large vacuoles with CASQ1 inclusions or, less commonly, tubular aggregates. To date, seven pathogenic variants have been described, all dominant missense variants. The typical symptoms of the disease include muscle weakness, cramps, myalgia, and fatigue.</p><h3>Methods</h3><p>We used genome and exome sequencing to identify the disease-causing variants in two families with dominant myopathy. The candidate variants were further characterized by cell-transfection studies and western blotting.</p><h3>Results</h3><p>In Family 1, three patients presented with exercise intolerance, cramps, and myalgia. Additionally, the proband had muscle weakness and her muscle biopsy showed nemaline bodies. In electron microscopy, there were morphological changes in the triads and the SR-feet in all patients. A variant in <em>CASQ1</em>, p.(Glu89Lys), was found in all patients, whereas the proband had also two compound heterozygous variants in <em>NEB</em>. In Family 2, three patients presented with progressive muscle weakness. The proband’s muscle biopsy showed marked atrophy. The frameshift variant p.(Gly383Alafs*39) in <em>CASQ1</em> was found in all three patients. In silico analysis indicated that the variant results in protein extension, which was confirmed by western blotting of patient muscle. Cell-transfection studies showed that the variant protein forms aggregates.</p><h3>Conclusion</h3><p>This study expands the spectrum of pathogenic <em>CASQ1</em> variants. The morphological changes in the SR-feet indicate a novel pathogenetic mechanism.</p>