Stenmark H, McGill S, Olsnes S, Sandvig K
Institute for Cancer Research, Norwegian Radium Hospital, Montebello, Oslo.
EMBO J. 1989 Oct;8(10):2849-53. doi: 10.1002/j.1460-2075.1989.tb08432.x.
Diphtheria toxin B-fragment binds to cell-surface receptors and facilitates translocation of the enzymatically active A-fragment to the cytosol. In this process the B-fragment inserts into the plasma membrane and induces formation of cation-selective channels. We examined the ability of a number of diphtheria toxin-derived molecules translated in vitro to permeabilize cells. Two proteins consisting of the whole B-fragment and small parts of the A-fragment, and one protein comprising most of the B-fragment alone, were more efficient than full-length toxin in permeabilizing the plasma membrane to monovalent cations. Two shorter B-fragment-derived proteins, with 3 and 10 kd N-terminal deletions, permeabilized the cells to sulfate and sucrose in addition to monovalent cations. The relationship between channel formation and toxin translocation is discussed.
白喉毒素B片段与细胞表面受体结合,并促进具有酶活性的A片段转运至细胞质溶胶。在此过程中,B片段插入质膜并诱导形成阳离子选择性通道。我们检测了多种体外翻译的白喉毒素衍生分子使细胞通透的能力。两种由完整B片段和A片段小部分组成的蛋白质,以及一种仅包含大部分B片段的蛋白质,在使质膜对单价阳离子通透方面比全长毒素更有效。两种N端缺失3kd和10kd的较短B片段衍生蛋白质,除了使细胞对单价阳离子通透外,还能使细胞对硫酸盐和蔗糖通透。本文讨论了通道形成与毒素转运之间的关系。