Yamasaki S, Baumeister A, Binz T, Blasi J, Link E, Cornille F, Roques B, Fykse E M, Südhof T C, Jahn R
Department of Microbiology, Federal Research Center for Virus Diseases of Animals, Tübingen, Federal Republic of Germany.
J Biol Chem. 1994 Apr 29;269(17):12764-72.
Tetanus toxin (TeTx) and the various forms of botulinal neurotoxins (BoNT/A to BoNT/G) potently inhibit neurotransmission by means of their L chains which selectively proteolyze synaptic proteins such as synaptobrevin (TeTx, BoNT/B, BoNT/F), SNAP-25 (BoNT/A), and syntaxin (BoNT/C1). Here we show that BoNT/D cleaves rat synaptobrevin 1 and 2 in toxified synaptosomes and in isolated vesicles. In contrast, synaptobrevin 1, as generated by in vitro translation, is only a poor substrate for BoNT/D, whereas this species is cleaved by BoNT/F with similar potency. Cleavage by BoNT/D occurs at the peptide bond Lys59-Leu60 which is adjacent to the BoNT/F cleavage site (Gln58-Lys59) and again differs from the site hydrolyzed by TeTx and BoNT/B (Gln76-Phe77). Cellubrevin, a recently discovered isoform expressed outside the nervous system, is efficiently cleaved by all three toxins examined. For further characterization of the substrate requirements of BoNT/D, we tested amino- and carboxyl-terminal deletion mutants of synaptobrevin 2 as well as synthetic peptides. Shorter peptides containing up to 15 amino acids on either side of the cleavage site were not cleaved, and a peptide extending from Arg47 to Thr116 was a poor substrate for all three toxins tested. However, cleavability was restored when the peptide is further extended at the NH2 terminus (Thr27-Thr116) demonstrating that NH2 terminally located sequences of synaptobrevin which are distal from the respective cleavage sites are required for proteolysis. To further examine the isoform specificity, several mutants of rat synaptobrevin 2 were generated in which individual amino acids were replaced with those found in rat synaptobrevin 1. We show that a Met46 to Ile46 substitution drastically diminishes cleavability by BoNT/D and that the presence of Val76 instead of Gln76 dictates the reduced cleavability of synaptobrevin isoforms by TeTx.
破伤风毒素(TeTx)和各种形式的肉毒杆菌神经毒素(BoNT/A至BoNT/G)通过其轻链有效抑制神经传递,这些轻链选择性地蛋白水解突触蛋白,如突触小泡蛋白(TeTx、BoNT/B、BoNT/F)、SNAP-25(BoNT/A)和 syntaxin(BoNT/C1)。在此我们表明,BoNT/D在中毒的突触体和分离的囊泡中切割大鼠突触小泡蛋白1和2。相比之下,体外翻译产生的突触小泡蛋白1仅是BoNT/D的不良底物,而该蛋白被BoNT/F以相似效力切割。BoNT/D的切割发生在肽键Lys59-Leu60处,该肽键与BoNT/F的切割位点(Gln58-Lys59)相邻,并且再次不同于TeTx和BoNT/B水解的位点(Gln76-Phe77)。细胞ubrevin是最近在神经系统外发现的一种异构体,被所检测的所有三种毒素有效切割。为了进一步表征BoNT/D的底物需求,我们测试了突触小泡蛋白2的氨基末端和羧基末端缺失突变体以及合成肽。在切割位点两侧含多达15个氨基酸的较短肽未被切割,并且从Arg47延伸至Thr116的肽是所测试的所有三种毒素的不良底物。然而,当肽在NH2末端进一步延伸(Thr27-Thr116)时,切割能力得以恢复,这表明突触小泡蛋白位于NH2末端且远离各自切割位点的序列是蛋白水解所必需的。为了进一步研究异构体特异性,我们构建了大鼠突触小泡蛋白2的几个突变体,其中个别氨基酸被大鼠突触小泡蛋白1中的氨基酸取代。我们表明,Met46至Ile46的取代极大地降低了BoNT/D的切割能力,并且Val76而非Gln76的存在决定了TeTx对突触小泡蛋白异构体切割能力的降低。
