甘油-3-磷酸脱氢酶1样基因(GPD1-L)突变会降低心脏钠离子电流并导致遗传性心律失常。
Mutation in glycerol-3-phosphate dehydrogenase 1 like gene (GPD1-L) decreases cardiac Na+ current and causes inherited arrhythmias.
作者信息
London Barry, Michalec Michael, Mehdi Haider, Zhu Xiaodong, Kerchner Laurie, Sanyal Shamarendra, Viswanathan Prakash C, Pfahnl Arnold E, Shang Lijuan L, Madhusudanan Mohan, Baty Catherine J, Lagana Stephen, Aleong Ryan, Gutmann Rebecca, Ackerman Michael J, McNamara Dennis M, Weiss Raul, Dudley Samuel C
机构信息
Cardiovascular Institute, University of Pittsburgh Medical Center, Scaife S-572, 200 Lothrop St, Pittsburgh, PA 15213-2582, USA.
出版信息
Circulation. 2007 Nov 13;116(20):2260-8. doi: 10.1161/CIRCULATIONAHA.107.703330. Epub 2007 Oct 29.
BACKGROUND
Brugada syndrome is a rare, autosomal-dominant, male-predominant form of idiopathic ventricular fibrillation characterized by a right bundle-branch block and ST elevation in the right precordial leads of the surface ECG. Mutations in the cardiac Na+ channel SCN5A on chromosome 3p21 cause approximately 20% of the cases of Brugada syndrome; most mutations decrease inward Na+ current, some by preventing trafficking of the channels to the surface membrane. We previously used positional cloning to identify a new locus on chromosome 3p24 in a large family with Brugada syndrome and excluded SCN5A as a candidate gene.
METHODS AND RESULTS
We used direct sequencing to identify a mutation (A280V) in a conserved amino acid of the glycerol-3-phosphate dehydrogenase 1-like (GPD1-L) gene. The mutation was present in all affected individuals and absent in >500 control subjects. GPD1-L RNA and protein are abundant in the heart. Compared with wild-type GPD1-L, coexpression of A280V GPD1-L with SCN5A in HEK cells reduced inward Na+ currents by approximately 50% (P<0.005). Wild-type GPD1-L localized near the cell surface to a greater extent than A280V GPD1-L. Coexpression of A280V GPD1-L with SCN5A reduced SCN5A cell surface expression by 31+/-5% (P=0.01).
CONCLUSIONS
GPD1-L is a novel gene that may affect trafficking of the cardiac Na+ channel to the cell surface. A GPD1-L mutation decreases SCN5A surface membrane expression, reduces inward Na+ current, and causes Brugada syndrome.
背景
Brugada综合征是一种罕见的、常染色体显性遗传、男性居多的特发性室颤形式,其特征为右束支传导阻滞及体表心电图右胸前导联ST段抬高。位于3号染色体p21上的心脏钠离子通道SCN5A的突变导致约20%的Brugada综合征病例;大多数突变会减少内向钠离子电流,有些是通过阻止通道转运至表面膜来实现的。我们之前利用定位克隆技术在一个患有Brugada综合征的大家族中确定了3号染色体p24上的一个新位点,并排除了SCN5A作为候选基因。
方法与结果
我们采用直接测序法在甘油-3-磷酸脱氢酶1样(GPD1-L)基因的一个保守氨基酸中鉴定出一个突变(A280V)。该突变存在于所有患病个体中,而在500多名对照受试者中不存在。GPD1-L RNA和蛋白质在心脏中含量丰富。与野生型GPD1-L相比,在HEK细胞中A280V GPD1-L与SCN5A共表达使内向钠离子电流减少了约50%(P<0.005)。野生型GPD1-L比A280V GPD1-L在细胞表面附近的定位程度更高。A280V GPD1-L与SCN5A共表达使SCN5A细胞表面表达减少了31±5%(P=0.01)。
结论
GPD1-L是一个可能影响心脏钠离子通道向细胞表面转运的新基因。GPD1-L突变会降低SCN5A表面膜表达,减少内向钠离子电流,并导致Brugada综合征。
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