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美国卫生研究院文献>FASEB BioAdvances
>Antioxidants restore store‐operated Ca2+ entry in patient‐iPSC‐derived myotubes with tubular aggregate myopathy‐associated Ile484ArgfsX21 STIM1 mutation via upregulation of binding immunoglobulin protein
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Antioxidants restore store‐operated Ca2+ entry in patient‐iPSC‐derived myotubes with tubular aggregate myopathy‐associated Ile484ArgfsX21 STIM1 mutation via upregulation of binding immunoglobulin protein
Store‐operated Ca2+ entry (SOCE) is indispensable for intracellular Ca2+ homeostasis in skeletal muscle, and constitutive activation of SOCE causes tubular aggregate myopathy (TAM). To understand the pathogenesis of TAM, we induced pluripotent stem cells (iPSCs) from a TAM patient with a rare mutation (c.1450_1451insGA; p. Ile484ArgfsX21) in the STIM1 gene. This frameshift mutation produces a truncated STIM1 with a disrupted C‐terminal inhibitory domain (CTID) and was reported to diminish SOCE. Myotubes induced from the patient's‐iPSCs (TAM myotubes) showed severely impaired SOCE, but antioxidants greatly restored SOCE partly via upregulation of an endoplasmic reticulum (ER) chaperone, BiP (GRP78), in the TAM myotubes. Our observation suggests that antioxidants are promising tools for treatment of TAM caused by reduced SOCE.
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机译:储存操作的 Ca2+ 入口 (SOCE) 对于骨骼肌的细胞内 Ca2+ 稳态是必不可少的,SOCE 的组成性激活导致肾小管聚集体肌病 (TAM)。为了了解 TAM 的发病机制,我们从 STIM1 基因中具有罕见突变 (c.1450_1451insGA; p. Ile484ArgfsX21) 的 TAM 患者诱导多能干细胞 (iPSC)。这种移码突变产生一个截短的 STIM1,其 C 末端抑制结构域 (CTID) 被破坏,据报道会减少 SOCE。由患者的 iPSC (TAM 肌管) 诱导的肌管显示 SOCE 严重受损,但抗氧化剂部分通过上调 TAM 肌管中的内质网 (ER) 伴侣 BiP (GRP78) 大大恢复了 SOCE。我们的观察表明,抗氧化剂是治疗由 SOCE 降低引起的 TAM 的有前途的工具。
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