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  • Title: Cryptic 5' splice site activation in SCN5A associated with Brugada syndrome.
    Author: Hong K, Guerchicoff A, Pollevick GD, Oliva A, Dumaine R, de Zutter M, Burashnikov E, Wu YS, Brugada J, Brugada P, Brugada R.
    Journal: J Mol Cell Cardiol; 2005 Apr; 38(4):555-60. PubMed ID: 15808832.
    Abstract:
    The Brugada syndrome (BS) is characterized by ST segment elevation in the right precordial leads and sudden cardiac death. The disease is linked to mutations in SCN5A in approximately 20% of cases. We collected a large family with BS and have identified a novel intronic mutation. We performed the clinical, genetic, molecular and biophysical characterization of this disease-causing mutation. With direct sequencing we identified an intronic insertion of TGGG 5 bp from the end of the Exon 27 of SCN5A. For transcript analysis, we investigated Epstein-Barr-transformed lymphoblastoid cell lines from patients and controls. Total RNA was extracted and RT-PCR experiments were performed to analyze the splicing patterns in exon 27 and 28. We identified two bands, one of the expected size and the other which showed a 96 bp deletion in exon 27, leading to a 32 amino acid in-frame deletion involving segments 2 and 3 of Domain IV of the SCN5A protein. This finding indicates that the intronic mutation creates a cryptic splice site inside Exon 27. Biophysical analysis using whole-cell patch-clamp techniques showed a complete loss of function of the mutated channels when heterologously expressed. In summary, this is the first report of a dysfunctional sodium channel created by an intronic mutation giving rise to cryptic splice site activation in SCN5A in a family with the BS. The deletion of fragments of segments 2 and 3 of Domain IV leads to complete loss of function, consistent with the biophysical data found in several mutations causing BS.
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