Li Ping, Meinke Peter, Huong Le Thi Thanh, Wehnert Manfred, Noegel Angelika A
Institute for Biochemistry I, Center for Molecular Medicine Cologne (CMMC) and Cologne Excellence Cluster on Cellular Stress Responses in Aging-Associated Diseases (CECAD), Medical Faculty, University of Cologne, Cologne, Germany.
Hum Mutat. 2014 Apr;35(4):452-61. doi: 10.1002/humu.22504. Epub 2014 Jan 13.
Mutations in several genes encoding nuclear envelope (NE) associated proteins cause Emery-Dreifuss muscular dystrophy (EDMD). We analyzed fibroblasts from a patient who had a mutation in the EMD gene (p.L84Pfs*6) leading to loss of Emerin and a heterozygous mutation in SUN1 (p.A203V). The second patient harbored a heterozygous mutation in LAP2alpha (p.P426L) and a further mutation in SUN1 (p.A614V). p.A203V is located in the N-terminal domain of SUN1 facing the nucleoplasm and situated in the vicinity of the Nesprin-2 and Emerin binding site. p.A614V precedes the SUN domain, which interacts with the KASH domain of Nesprins in the periplasmic space and forms the center of the LINC complex. At the cellular level, we observed alterations in the amounts for several components of the NE in patient fibroblasts and further phenotypic characteristics generally attributed to laminopathies such as increased sensitivity to heat stress. The defects were more severe than observed in EDMD cells with mutations in a single gene. In particular, in patient fibroblasts carrying the p.A203V mutation in SUN1, the alterations were aggravated. Moreover, SUN1 of both patient fibroblasts exhibited reduced interaction with Lamin A/C and when expressed ectopically in wild-type fibroblasts, the SUN1 mutant proteins exhibited reduced interactions with Emerin as well.
编码核膜(NE)相关蛋白的多个基因发生突变会导致埃默里 - 德赖富斯肌营养不良症(EDMD)。我们分析了一名患者的成纤维细胞,该患者的EMD基因存在突变(p.L84Pfs*6),导致Emerin缺失,且SUN1存在杂合突变(p.A203V)。第二名患者在LAP2α中存在杂合突变(p.P426L),在SUN1中还存在另一个突变(p.A614V)。p.A203V位于SUN1面向核质的N端结构域,且位于Nesprin - 2和Emerin结合位点附近。p.A614V位于SUN结构域之前,该结构域在周质空间与Nesprins的KASH结构域相互作用,并形成LINC复合物的中心。在细胞水平上,我们观察到患者成纤维细胞中核膜的几种成分的量发生了改变,以及一些通常归因于核纤层蛋白病的进一步表型特征,如对热应激的敏感性增加。这些缺陷比在单个基因突变的EDMD细胞中观察到的更严重。特别是,在携带SUN1中p.A203V突变的患者成纤维细胞中,这些改变更加严重。此外,两名患者成纤维细胞的SUN1与核纤层蛋白A/C的相互作用均减弱,并且当在野生型成纤维细胞中异位表达时,SUN1突变蛋白与Emerin的相互作用也减弱。
