IRE1α 能识别霍乱毒素中的一个结构基团,从而激活未折叠蛋白反应。

M. S. Simpson, Heidi De Luca, Sarah Cauthorn, P. Luong, N. Udeshi, Tanya Svinkina, Stefanie S. Schmieder, Steve Carr, Michael J. Grey, W. Lencer
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引用次数: 0

摘要

IRE1α 是一种内质网(ER)传感器,它能识别折叠错误的蛋白质,从而诱导未折叠蛋白质反应(UPR)。我们研究了霍乱毒素(CTx),它能侵入ER并激活宿主细胞中的IRE1α,从而了解未折叠蛋白是如何被识别的。在活细胞中,我们还发现 CTx 诱导的 IRE1α 激活增强了毒性。在体外,CTxA1 与 IRE1α 管腔结构域(IRE1αLD)结合,但不需要整体展开。相反,IRE1αLD能识别CTxA1边缘β链中的一个七残基基团,该基团必须局部展开才能与CTxA1结合。结合点映射到 IRE1αLD 上的一个口袋,该口袋通常被 IRE1α C 端柔性环的一段占据,与 IRE1α 的寡聚化有关。CTxA1 识别基团的突变阻断了 CTx 在活细胞中诱导的 IRE1α 激活,从而将结合事件与 IRE1α 信号转导和 UPR 诱导联系起来。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
IRE1α recognizes a structural motif in cholera toxin to activate an unfolded protein response.
IRE1α is an endoplasmic reticulum (ER) sensor that recognizes misfolded proteins to induce the unfolded protein response (UPR). We studied cholera toxin (CTx), which invades the ER and activates IRE1α in host cells, to understand how unfolded proteins are recognized. Proximity labeling colocalized the enzymatic and metastable A1 segment of CTx (CTxA1) with IRE1α in live cells, where we also found that CTx-induced IRE1α activation enhanced toxicity. In vitro, CTxA1 bound the IRE1α lumenal domain (IRE1αLD), but global unfolding was not required. Rather, the IRE1αLD recognized a seven-residue motif within an edge β-strand of CTxA1 that must locally unfold for binding. Binding mapped to a pocket on IRE1αLD normally occupied by a segment of the IRE1α C-terminal flexible loop implicated in IRE1α oligomerization. Mutation of the CTxA1 recognition motif blocked CTx-induced IRE1α activation in live cells, thus linking the binding event with IRE1α signal transduction and induction of the UPR.
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