Tan Bi-Hua, Valdivia Carmen R, Song Chunhua, Makielski Jonathan C
Dept. of Medicine, Univ. of Wisconsin, 600 Highland Ave. H6/349, Madison, WI 53792, USA.
Am J Physiol Heart Circ Physiol. 2006 Oct;291(4):H1822-8. doi: 10.1152/ajpheart.00101.2006. Epub 2006 Apr 21.
Mutations in the cardiac Na(+) channel gene SCN5A cause loss of function and underlie arrhythmia syndromes. SCN5A in humans has two splice variants, one lacking a glutamine at position 1077 (Q1077del) and one containing Q1077. We investigated the effect of splice variant background on loss of function and rescue for G1406R, a mutation reported to cause Brugada syndrome. Mutant and wild-type (WT) channels in both backgrounds were transfected into HEK-293 cells and incubated for up to 72 h with and without mexiletine. At 8 h, neither current nor cell surface expression was observed for the mutant in either background, but both were present in WT channels. At 24 h, small (<10% compared with WT) currents were noted and accompanied by cell surface expression. At 48 h, current density was approximately 40% of WT channels for the mutant in the Q1077del variant background but remained at <10% of WT channels in Q1077. Current levels were stable by 72 h. Coexpression with beta(1)- or beta(3)-subunits or insertion of the polymorphism H558R in the background did not significantly affect current expression. Mexiletine restored current density of the mutant channel in both backgrounds to nearly WT levels. The mutant channels also showed a negative shift in inactivation, slower recovery, and enhanced slow inactivation, consistent with a loss of function phenotype. These data show that a trafficking defect may be partial and time dependent and may differ with the splice variant background. Also, expression defects and gating abnormalities may contribute to loss of function for the same mutation.
心脏钠离子通道基因SCN5A的突变会导致功能丧失,并成为心律失常综合征的基础。人类的SCN5A有两种剪接变体,一种在第1077位缺乏谷氨酰胺(Q1077del),另一种含有Q1077。我们研究了剪接变体背景对功能丧失的影响以及对G1406R的挽救作用,G1406R是一种据报道会导致Brugada综合征的突变。将两种背景下的突变型和野生型(WT)通道转染到HEK - 293细胞中,并在有和没有美西律的情况下孵育长达72小时。在8小时时,两种背景下的突变体均未观察到电流或细胞表面表达,但WT通道中两者均存在。在24小时时,记录到小电流(与WT相比<10%)并伴有细胞表面表达。在48小时时,Q1077del变体背景下突变体的电流密度约为WT通道的40%,但在Q1077中仍保持在<WT通道的10%。到72小时时电流水平稳定。与β1或β3亚基共表达或在背景中插入多态性H558R对电流表达没有显著影响。美西律将两种背景下突变通道的电流密度恢复到接近WT水平。突变通道还表现出失活的负向移位、恢复较慢以及慢失活增强,这与功能丧失表型一致。这些数据表明,转运缺陷可能是部分的且与时间相关,并且可能因剪接变体背景而异。此外,表达缺陷和门控异常可能导致同一突变的功能丧失。
