OBJECTIVEBrugada syndrome is an inherited channelopathy that characterized by ST-segment elevation in the right precordial lead (V(1)-V(3)) on the electrocardiogram with or without right bundle branch block and related with high risk of sudden cardiac death and structurally normal hearts. The first and only gene linked to this disease is SCN5A, a gene encodes for alpha subunit of the cardiac sodium channel. The objective of this study is to explore SCN5A gene mutations in Chinese patients with Brugada syndrome.

METHODSFour patients diagnosed as Brugada syndrome and nine patients with suspected Brugada syndrome were chosen for the study. The exons in the functional regions of SCN5A gene were amplified with polymerase chain reaction and the amplified products were sequenced with Sanger method. If a mutation was identified, patient's family members were also screened.

RESULTSTwo heterozygous mutations were found in one family diagnosed as Brugada syndrome. One missense mutation was a G-->A transition in the first nucleotide of codon 95 in SCN5A gene exon 3, which was predicted to result in substitution of Valine with Isoleucine (V95I). The other missense mutation was a C-->T transition in the second nucleotide of codon 1649 in SCN5A gene exon 28, which was predicted to result in substitution of Alanine with Valine (A1649V). A heterozygous mutation was identified in one family suspected to have the disease. The mutation was a three nucleotides (TCT) deletion that caused Phenylalanine deletion in codon 1617 in SCN5A gene exon 28. The three mutations were not detected in 100 control chromosomes.

CONCLUSIONSMutation in SCN5A gene is one of the causes of Brugada syndrome in Chinese. Three novel SCN5A gene mutations were identified in Chinese with Brugada syndrome, which expands the spectrum of SCN5A mutations associated with the disease.