Abstract 16606: Utilization of the Genome Aggregation Database, In Silico Tools, and Heterologous Expression Patch Clamp Studies to Identify and Demote Previously Published Type 2 Long QT Syndrome-Causative Variants From Pathogenic to Likely Benign.

Introduction: Loss-of-function (LOF) variants in the KCNH2 -encoded Kv11.1 potassium channel cause type 2 long QT syndrome (LQT2). To date, hundreds of KCNH2 missense variants (MVs) have been published as "disease-causative". However, it has been suggested that 10% of rare LQTS variants in the literature may be "false positives". Objective: To determine previously published KCNH2 variants that are likely false positives and warrant demotion to at least likely benign status. Methods: A list of all case-derived LQT2-associated MVs from six large published compendia was compiled. The frequency of each MV within the Genome Aggregation Database (gnomAD, n = 141,352 individuals) was recorded. Eight in silico variant assessment tools were used to grade each MV. Variants (n=8) absent in gnomAD but predicted "benign" by all 8 tools were considered potential false positives, despite being ultra-rare, and were characterized functionally using whole-cell patch clamp. Results: Overall, 339 KCNH2 MVs were identified among LQTS cases. Of these, 13 (4%) were seen at a minor allele frequency (MAF) > 0.0004 in gnomAD. This MAF cut-off is derived from the frequency of R176W-KCNH2, a well-established albeit weakly penetrant (i.e. < 20%) LQT2-causative MV. Variants seen at MAF > R176W-KCNH2 are unlikely to be LQT2-contributing. However, 253 MVs (75%) were absent in gnomAD. Of these, 8 (4%) MVs (I96V, G187S, A203T, P241L, H254Q, G314S, P935S, and P963T) were predicted by all 8 in silico tools to be benign and had never been characterized functionally. Patch clamp studies did not demonstrate any LOF perturbation for these 8 MVs. Conclusion: This study offers compelling evidence for the demotion from LQT2-causative status to likely benign status for 21 (6%) of the 339 previously published LQT2 MVs based either on i) gnomAD MAF unacceptably high for a 1:8000 disorder (LQT2) for 13 MVs or ii) ultra-rarity (never seen in gnomAD) but in silico variant assessment tools predicting benign impact of the amino acid substitution and in vitro functional validation studies devoid of LOF for 8 additional MVs. This meticulous "pruning" exercise must be conducted for all published variants previously implicated as the monogenic cause for LQTS in particular and all genetic heart diseases in general. [ABSTRACT FROM AUTHOR]