Decrypting Variants of Uncertain Significance in Long-QT Syndrome

Project: Research project

Project Details


Genetic testing has become standard-of-care for many heritable diseases including congenital longQT syndrome (LQTS). However, interpreting genetic test results is often confounded by the discovery of ‘variants of unknown significance’ (VUS) for which there is insufficient data to determine whether a particular variant is benign or pathogenic. The emergence of widespread clinical genetic testing and the use of next-generation sequencing in research have caused explosive growth in the number of known variants associated with disease traits and in populations. The goal of this project is to develop a novel paradigm for distinguishing disease-causing mutations from benign variants in LQTS and related genetic arrhythmia syndromes. We will focus on two potassium channel subunit genes, KCNQ1 and KCNE1, which are associated with LQTS, short-QT syndrome and familial atrial fibrillation. The ability to discern reliably whether a variant is a true risk factor would be transformative, improving patient care by avoiding unnecessary or potentially harmful interventions in carriers of benign variants, guiding therapy of true mutation carriers and improving family counseling. During the prior period of support, we implemented and optimized a high throughput experimental strategy to determine the functional consequences of ~110 KCNQ1 variants located in the KCNQ1 voltage-sensing domain (VSD) (Aim 1). In parallel, we elucidated the stability, structural properties, and cell surface expression of ~50 KCNQ1 VSD variants and deduced a previously unrecognized functional domain in the channel (S0 segment; Aim 2). Using data from the literature and from Aims 1-2, we developed, trained and tested a computational predictor for estimating the likelihood of channel dysfunction caused by KCNQ1 variants that performs better than other variant prediction algorithms (Aim 3). Together our work provides a new paradigm for addressing the emerging challenge of genetic variant classification. In th
Effective start/end date8/1/147/31/22


  • National Heart, Lung, and Blood Institute (3R01HL122010-08S1)


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