TY - JOUR
T1 - Discerning the Ambiguous Role of Missense TTN Variants in Inherited Arrhythmogenic Syndromes
AU - Martínez‐Barrios, Estefanía
AU - Sarquella‐Brugada, Georgia
AU - Pérez‐Serra, Alexandra
AU - Fernández‐Falgueras, Anna
AU - Cesar, Sergi
AU - Coll, Mónica
AU - Puigmulé, Marta
AU - Iglesias, Anna
AU - Alcalde, Mireia
AU - Vallverdú‐Prats, Marta
AU - Ferrer‐Costa, Carles
AU - Del Olmo, Bernat
AU - Picó, Ferran
AU - López, Laura
AU - Fiol, Victoria
AU - Cruzalegui, José
AU - Hernández, Clara
AU - Arbelo, Elena
AU - Grassi, Simone
AU - Oliva, Antonio
AU - Toro, Rocío
AU - Brugada, Josep
AU - Brugada, Ramon
AU - Campuzano, Oscar
PY - 2022
Y1 - 2022
N2 - The titin gene (TTN) is associated with several diseases, including inherited arrhythmias. Most of these diagnoses are attributed to rare TTN variants encoding truncated forms, but missense variants represent a diagnostic challenge for clinical genetics. The proper interpretation of genetic data is critical for translation into the clinical setting. Notably, many TTN variants were classified before 2015, when the American College of Medical Genetics and Genomics (ACMG) published recommendations to accurately classify genetic variants. Our aim was to perform an exhaustive reanalysis of rare missense TTN variants that were classified before 2015, and that have ambiguous roles in inherited arrhythmogenic syndromes. Rare missense TTN variants classified before 2015 were updated following the ACMG recommendations and according to all the currently available data. Our cohort included 193 individuals definitively diagnosed with an inherited arrhythmogenic syndrome before 2015. Our analysis resulted in the reclassification of 36.8% of the missense variants from unknown to benign/likely benign. Of all the remaining variants, currently classified as of unknown significance, 38.3% showed a potential, but not confirmed, deleterious role. Most of these rare missense TTN variants with a suspected deleterious role were identified in patients diagnosed with hypertrophic cardiomyopathy. More than 35% of the rare missense TTN variants previously classified as ambiguous were reclassified as not deleterious, mainly because of improved population frequencies. Despite being inconclusive, almost 40% of the variants showed a potentially deleterious role in inherited arrhythmogenic syndromes. Our results highlight the importance of the periodical reclassification of rare missense TTN variants to improve genetic diagnoses and help increase the accuracy of personalized medicine.
AB - The titin gene (TTN) is associated with several diseases, including inherited arrhythmias. Most of these diagnoses are attributed to rare TTN variants encoding truncated forms, but missense variants represent a diagnostic challenge for clinical genetics. The proper interpretation of genetic data is critical for translation into the clinical setting. Notably, many TTN variants were classified before 2015, when the American College of Medical Genetics and Genomics (ACMG) published recommendations to accurately classify genetic variants. Our aim was to perform an exhaustive reanalysis of rare missense TTN variants that were classified before 2015, and that have ambiguous roles in inherited arrhythmogenic syndromes. Rare missense TTN variants classified before 2015 were updated following the ACMG recommendations and according to all the currently available data. Our cohort included 193 individuals definitively diagnosed with an inherited arrhythmogenic syndrome before 2015. Our analysis resulted in the reclassification of 36.8% of the missense variants from unknown to benign/likely benign. Of all the remaining variants, currently classified as of unknown significance, 38.3% showed a potential, but not confirmed, deleterious role. Most of these rare missense TTN variants with a suspected deleterious role were identified in patients diagnosed with hypertrophic cardiomyopathy. More than 35% of the rare missense TTN variants previously classified as ambiguous were reclassified as not deleterious, mainly because of improved population frequencies. Despite being inconclusive, almost 40% of the variants showed a potentially deleterious role in inherited arrhythmogenic syndromes. Our results highlight the importance of the periodical reclassification of rare missense TTN variants to improve genetic diagnoses and help increase the accuracy of personalized medicine.
KW - Genetics
KW - Inherited arrhythmogenic syndromes
KW - Interpretation
KW - Sudden cardiac death
KW - TTN
KW - Genetics
KW - Inherited arrhythmogenic syndromes
KW - Interpretation
KW - Sudden cardiac death
KW - TTN
UR - http://hdl.handle.net/10807/200899
U2 - 10.3390/jpm12020241
DO - 10.3390/jpm12020241
M3 - Article
SN - 2075-4426
VL - 12
SP - 241
EP - 258
JO - Journal of Personalized Medicine
JF - Journal of Personalized Medicine
ER -