Institute of Biophysics, Consiglio Nazionale delle Ricerche, Genova, Italy.
Hum Mutat. 2020 Jun;41(6):1157-1170. doi: 10.1002/humu.24006. Epub 2020 Mar 18.
Mutations in the human TMEM16E/ANO5 gene are causative for gnathodiaphyseal dysplasia (GDD), a rare bone malformation and fragility disorder, and for two types of muscular dystrophy (MD). Previous studies have demonstrated that TMEM16E/ANO5 is a Ca -activated phospholipid scramblase and that the mutation c.1538C>T (p.Thr513Ile) causing GDD leads to a gain-of-function phenotype. Here, using established HEK293-based functional assays, we investigated the effects of MD-related and further GDD-related amino acid exchanges on TMEM16E/ANO5 function in the same expression system. These experiments also revealed that the gradual changes in HEK293 cell morphology observed upon expression of TMEM16E/ANO5 mutants are a consequence of aberrant protein activity. Our results collectively demonstrate that, on the level of protein function, MD mutations are associated to loss-of-function and GDD mutations to gain-of-function phenotypes, confirming conjectures made on the basis of inheritance modes.
人类 TMEM16E/ANO5 基因突变是颌骨-骨干发育不良(GDD)、两种类型的肌肉营养不良症(MD)的致病原因。先前的研究表明,TMEM16E/ANO5 是一种 Ca2+激活的磷脂翻转酶,导致 GDD 的突变 c.1538C>T(p.Thr513Ile)导致获得性功能表型。在这里,我们使用已建立的基于 HEK293 的功能测定法,在相同的表达系统中研究了与 MD 相关的和进一步的 GDD 相关的氨基酸交换对 TMEM16E/ANO5 功能的影响。这些实验还表明,在表达 TMEM16E/ANO5 突变体时观察到的 HEK293 细胞形态的逐渐变化是异常蛋白质活性的结果。我们的结果共同表明,在蛋白质功能水平上,MD 突变与功能丧失相关,GDD 突变与获得性功能表型相关,这证实了基于遗传模式的推测。
