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内在穿膜螺旋 1 的必需赖氨酸残基有助于白喉毒素与 COPI 结合和催化结构域进入。

Essential lysine residues within transmembrane helix 1 of diphtheria toxin facilitate COPI binding and catalytic domain entry.

机构信息

Department of Microbiology, Boston University School of Medicine, Boston, MA 02118, USA.

出版信息

Mol Microbiol. 2010 May;76(4):1010-9. doi: 10.1111/j.1365-2958.2010.07159.x. Epub 2010 Apr 14.

DOI:10.1111/j.1365-2958.2010.07159.x
PMID:20398220
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4113555/
Abstract

The translocation of the diphtheria toxin catalytic domain from the lumen of early endosomes into the cytosol of eukaryotic cells is an essential step in the intoxication process. We have previously shown that the in vitro translocation of the catalytic domain from the lumen of toxin pre-loaded endosomal vesicles to the external medium requires the addition of cytosolic proteins including coatomer protein complex I (COPI) to the reaction mixture. Further, we have shown that transmembrane helix 1 plays an essential, but as yet undefined role in the entry process. We have used both site-directed mutagenesis and a COPI complex precipitation assay to demonstrate that interaction(s) between at least three lysine residues in transmembrane helix 1 are essential for both COPI complex binding and the delivery of the catalytic domain into the target cell cytosol. Finally, a COPI binding domain swap was used to demonstrate that substitution of the lysine-rich transmembrane helix 1 with the COPI binding portion of the p23 adaptor cytoplasmic tail results in a mutant that displays full wild-type activity. Thus, irrespective of sequence, the ability of transmembrane helix 1 to bind to COPI complex appears to be the essential feature for catalytic domain delivery to the cytosol.

摘要

白喉毒素催化结构域从早期内体腔室向真核细胞质的易位是中毒过程中的一个关键步骤。我们之前已经表明,从预先加载内体囊泡的腔室到外部介质的催化结构域的体外易位需要向反应混合物中添加包括胞质蛋白复合物 I(COPI)在内的胞质蛋白。此外,我们已经表明,跨膜螺旋 1 在进入过程中起着至关重要但尚未定义的作用。我们使用定点突变和 COPI 复合物沉淀测定法证明,跨膜螺旋 1 中至少三个赖氨酸残基之间的相互作用对于 COPI 复合物的结合和催化结构域递送至靶细胞细胞质都是必需的。最后,使用 COPI 结合域交换证明,用 p23 衔接子细胞质尾部的 COPI 结合部分替代富含赖氨酸的跨膜螺旋 1 会产生一种突变体,该突变体显示出完全的野生型活性。因此,无论序列如何,跨膜螺旋 1 与 COPI 复合物结合的能力似乎是将催化结构域递送至细胞质的关键特征。

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