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H322 在白喉毒素 T 结构域折叠成开放通道构象中的关键作用。

Crucial role of H322 in folding of the diphtheria toxin T-domain into the open-channel state.

机构信息

Department of Biochemistry and Molecular Biology, University of Kansas Medical Center , Kansas City, Kansas 66160, United States.

出版信息

Biochemistry. 2013 May 21;52(20):3457-63. doi: 10.1021/bi400249f. Epub 2013 May 9.

Abstract

The translocation (T) domain plays a key role in the entry of diphtheria toxin into the cell. Upon endosomal acidification, the T-domain undergoes a series of conformational changes that lead to its membrane insertion and formation of a channel. Recently, we have reported that the triple replacement of C-terminal histidines H322, H323, and H372 with glutamines prevents the formation of open channels in planar lipid bilayers. Here, we report that this effect is primarily due to the mutation of H322. We further examine the relationship between the loss of functionality and membrane folding in a series of mutants with C-terminal histidine substitutions using spectroscopic assays. The membrane insertion pathway for the mutants differs from that of the wild type as revealed by the membrane-induced red shift of tryptophan fluorescence at pH 6.0-6.5. T-Domain mutants with replacements at H323 and H372, but not at H322, regain a wild-type-like spectroscopic signature upon further acidification. Circular dichroism measurements confirm that affected mutants misfold during insertion into vesicles. Conductance measurements reveal that substituting H322 dramatically reduces the numbers of properly folded channels in a planar bilayer, but the properties of the active channels appear to be unaltered. We propose that H322 plays an important role in the formation of open channels and is involved in guiding the proper insertion of the N-terminal region of the T-domain into the membrane.

摘要

易位(T)结构域在白喉毒素进入细胞的过程中起着关键作用。在内体酸化时,T 结构域发生一系列构象变化,导致其插入膜并形成通道。最近,我们报道了用谷氨酰胺替换 C 末端组氨酸 H322、H323 和 H372 的三重替换可防止在平面脂质双层中形成开放通道。在这里,我们报告说这种效应主要是由于 H322 的突变。我们使用光谱测定法进一步研究了一系列 C 末端组氨酸取代突变体中功能丧失与膜折叠之间的关系。与野生型相比,突变体的膜插入途径不同,这是通过 pH 值为 6.0-6.5 时色氨酸荧光的膜诱导红移揭示的。在进一步酸化时,H323 和 H372 取代而不是 H322 的 T 结构域突变体恢复了类似于野生型的光谱特征。圆二色性测量证实受影响的突变体在插入囊泡时发生错误折叠。电导测量表明,取代 H322 会大大减少平面双层中正确折叠通道的数量,但活性通道的特性似乎没有改变。我们提出 H322 在形成开放通道中起着重要作用,并参与引导 T 结构域的 N 末端区域正确插入膜中。

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