Department of Otolaryngology-Head and Neck Surgery, Chungnam National University College of Medicine, Daejeon, Korea.
Laboratory of Molecular Pharmacology, Biosignal Research Center, Kobe University, Kobe 657-8501, Japan
J Med Genet. 2019 Dec;56(12):818-827. doi: 10.1136/jmedgenet-2019-106282. Epub 2019 Aug 31.
Diaphanous-related formin 1 (DIA1), which assembles the unbranched actin microfilament and microtubule cytoskeleton, is encoded by . Constitutive activation by the disruption of autoinhibitory interactions between the N-terminal diaphanous inhibitory domain (DID) and C-terminal diaphanous autoregulatory domain (DAD) dysregulates DIA1, resulting in both hearing loss and blood cell abnormalities.
Here, we report the first constitutively active mutant in the DID (p.A265S) of humans with only hearing loss and not blood cell abnormality through whole exome sequencing. The previously reported DAD mutants and our DID mutant (p.A265S) shared the finding of diminished autoinhibitory interaction, abnormally upregulated actin polymerisation activity and increased localisations at the plasma membrane. However, the obvious defect in the DIA1-driven assembly of cytoskeleton 'during cell division' was only from the DAD mutants, not from p.A265S, which did not show any blood cell abnormality. We also evaluated the five DID mutants in the hydrophobic pocket since four of these five additional mutants were predicted to critically disrupt interaction between the DID and DAD. These additional pathogenic DID mutants revealed varying degrees of defect in the DIA1-driven cytoskeleton assembly, including nearly normal phenotype during cell division as well as obvious impaired autoinhibition, again coinciding with our key observation in DIA1 mutant (p.A265S) in the DID.
Here, we report the first mutant in the DID of humans with only hearing loss. The differential cell biological phenotypes of DIA1 during cell division appear to be potential determinants of the clinical severity of related cytoskeletopathy in humans.
Dia 相关形态发生因子 1(DIA1)可组装无分支肌动蛋白微丝和微管细胞骨架,由 编码。通过破坏 N 端 Dia 抑制结构域(DID)和 C 端 Dia 自我调节结构域(DAD)之间的自动抑制相互作用,导致 DIA1 组成性激活,从而导致听力损失和血细胞异常。
在这里,我们通过全外显子测序报告了首例仅表现为听力损失而无血细胞异常的人类 DID(p.A265S)的组成性激活突变体。先前报道的 DAD 突变体和我们的 DID 突变体(p.A265S)均具有减弱自动抑制相互作用、异常上调肌动蛋白聚合活性和增加质膜定位的发现。然而,只有 DAD 突变体而非 p.A265S 表现出在细胞分裂过程中 DIA1 驱动的细胞骨架组装的明显缺陷,p.A265S 并不表现出任何血细胞异常。我们还评估了疏水口袋中的五个 DID 突变体,因为其中四个突变体被预测会严重破坏 DID 和 DAD 之间的相互作用。这些额外的致病性 DID 突变体显示出不同程度的 DIA1 驱动的细胞骨架组装缺陷,包括在细胞分裂过程中几乎正常的表型以及明显受损的自动抑制,这再次与我们在 DID 突变体(p.A265S)中观察到的关键结果一致。
在这里,我们报告了首例人类 DID 中的突变体,仅表现为听力损失。DIA1 在细胞分裂过程中的不同细胞生物学表型似乎是相关细胞骨架病在人类中临床严重程度的潜在决定因素。
