Wiley Open Access, Journal of the American Heart Association, 11(4), 2015
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Background The titin gene ( TTN ) encodes the largest human protein, which plays a central role in sarcomere organization and passive myocyte stiffness. TTN truncating mutations cause dilated cardiomyopathy ( DCM ); however, the role of TTN missense variants in DCM has been difficult to elucidate because of the presence of background TTN variation. Methods and Results A cohort of 147 DCM index subjects underwent DNA sequencing for 313 TTN exons covering the N2B and N2 BA cardiac isoforms of TTN . Of the 348 missense variants, we identified 44 “severe” rare variants by using a bioinformatic filtering process in 37 probands. Of these, 5 probands were double heterozygotes (additional variant in another DCM gene) and 7 were compound heterozygotes (2 TTN “severe” variants). Segregation analysis allowed the classification of the “severe” variants into 5 “likely” (cosegregating), 5 “unlikely” (noncosegregating), and 34 “possibly” (where family structure precluded segregation analysis) disease‐causing variants. Patients with DCM carrying “likely” or “possibly” pathogenic TTN “severe” variants did not show a different outcome compared with “unlikely” and noncarriers of a “severe” TTN variant. However, the “likely” and “possibly” disease‐causing variants were overrepresented in the C‐zone of the A‐band region of the sarcomere. Conclusions TTN missense variants are common and present a challenge for bioinformatic classification, especially when informative families are not available. Although DCM patients carrying bioinformatically “severe” TTN variants do not appear to have a worse clinical course than noncarriers, the nonrandom distribution of “likely” and “possibly” disease‐causing variants suggests a potential biological role for some TTN missense variants.