Andrew M Glazer1, Brett M Kroncke1, Kenneth A Matreyek2, Tao Yang1, Yuko Wada1, Tiffany Shields1, Joe-Elie Salem1,3, Douglas M Fowler2, Dan M Roden1,4,5. 1. Department of Medicine, Division of Clinical Pharmacology, Vanderbilt Center for Arrhythmia Research and Therapeutics (A.M.G., B.M.K., T.Y., Y.W., T.S., J.-E.S., D.M.R.), Vanderbilt University Medical Center, Nashville, TN. 2. Department of Genome Sciences, University of Washington, Seattle (K.A.M., D.M.F.). 3. Department of Clinical Pharmacology, APHP, Sorbonne Université, INSERM, CIC-1421, Hôpital Pitié-Salpêtrière, Paris, France (J.-E.S.). 4. Department of Biomedical Informatics (D.M.R.), Vanderbilt University Medical Center, Nashville, TN. 5. Department of Pharmacology (D.M.R.), Vanderbilt University Medical Center, Nashville, TN.
Abstract
BACKGROUND: Variants in ion channel genes have classically been studied in low throughput by patch clamping. Deep mutational scanning is a complementary approach that can simultaneously assess function of thousands of variants. METHODS: We have developed and validated a method to perform a deep mutational scan of variants in SCN5A, which encodes the major voltage-gated sodium channel in the heart. We created a library of nearly all possible variants in a 36 base region of SCN5A in the S4 voltage sensor of domain IV and stably integrated the library into HEK293T cells. RESULTS: In preliminary experiments, challenge with 3 drugs (veratridine, brevetoxin, and ouabain) could discriminate wild-type channels from gain- and loss-of-function pathogenic variants. High-throughput sequencing of the pre- and postdrug challenge pools was used to count the prevalence of each variant and identify variants with abnormal function. The deep mutational scan scores identified 40 putative gain-of-function and 33 putative loss-of-function variants. For 8 of 9 variants, patch clamping data were consistent with the scores. CONCLUSIONS: These experiments demonstrate the accuracy of a high-throughput in vitro scan of SCN5A variant function, which can be used to identify deleterious variants in SCN5A and other ion channel genes.
BACKGROUND: Variants in ion channel genes have classically been studied in low throughput by patch clamping. Deep mutational scanning is a complementary approach that can simultaneously assess function of thousands of variants. METHODS: We have developed and validated a method to perform a deep mutational scan of variants in SCN5A, which encodes the major voltage-gated sodium channel in the heart. We created a library of nearly all possible variants in a 36 base region of SCN5A in the S4 voltage sensor of domain IV and stably integrated the library into HEK293T cells. RESULTS: In preliminary experiments, challenge with 3 drugs (veratridine, brevetoxin, and ouabain) could discriminate wild-type channels from gain- and loss-of-function pathogenic variants. High-throughput sequencing of the pre- and postdrug challenge pools was used to count the prevalence of each variant and identify variants with abnormal function. The deep mutational scan scores identified 40 putative gain-of-function and 33 putative loss-of-function variants. For 8 of 9 variants, patch clamping data were consistent with the scores. CONCLUSIONS: These experiments demonstrate the accuracy of a high-throughput in vitro scan of SCN5A variant function, which can be used to identify deleterious variants in SCN5A and other ion channel genes.
Entities:
Keywords:
Brugada syndrome; humans; long QT syndrome; prevalence; sodium channels
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