[Action mechanisms of botulinum neurotoxins and tetanus neurotoxins].

F Deloye, F Doussau, B Poulain
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Abstract

Tetanus (TeNT) neurotoxin and botulinum (BoNT, serotypes A-G) neurotoxins are di-chain bacterial proteins of MW-150 kDa which are also termed as clostridial neurotoxins. They are the only causative agents of two severe neuroparalytic diseases, namely tetanus and botulism. The peripheral muscle spasms which characterise tetanus are due to a blockade of inhibitory (GABAergic and glycinergic) synapses in the central nervous system leading to a motor neurones desinhibition. In contrast, botulism symptoms are only peripheral. They are consequent to a near irreversible and highly selective inhibition of acetyl-choline release at the motor nerve endings innervating skeletal muscles. During the past decade, the cellular and molecular modes of action of clostridial neurotoxins has been near completely elucidated. After a binding step of the neurotoxins to specific membrane acceptors located only on nerve terminals, BoNTs and TeNT are internalized into neurons. Inside their target neurones, the intracellularly active moiety (their light chain) is translocated from the endosomal compartment to the cytosol. The neurotoxins' light chains are zinc-dependent (endopeptidases which are specific for one among three synaptic proteins (VAMP/synaptobrevin, syntaxin or SNAP-25) implicated in neurotransmitter exocytosis. The presence of distinct targets for BoNTs and TeNT correlates well with the observed quantal alterations of neurotransmitter release which characterize certain toxin serotypes. In addition, evidence for a second, non-proteolytic, inhibitory mechanism of action has been provided recently. Most likely, this additional blocking action involves the activation of neurone transglutaminases. Due to their specific action on key proteins of the exocytosis apparatus, clostridial neurotoxins are now widely used as molecular tools to study exocytosis.

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肉毒杆菌神经毒素和破伤风神经毒素的作用机制。
破伤风(TeNT)神经毒素和肉毒杆菌(BoNT,血清型A-G)神经毒素是分子量为mw - 150kda的双链细菌蛋白,也被称为梭状菌神经毒素。它们是两种严重神经麻痹性疾病,即破伤风和肉毒杆菌中毒的唯一病原体。破伤风的外周肌痉挛特征是由于中枢神经系统抑制性(gaba能和甘氨酸能)突触的阻断导致运动神经元的去抑制。相比之下,肉毒杆菌中毒症状只是外围性的。它们是由于支配骨骼肌的运动神经末梢对乙酰胆碱释放的几乎不可逆和高度选择性的抑制。在过去的十年中,梭状芽孢杆菌神经毒素的细胞和分子作用模式已接近完全阐明。在神经毒素与仅位于神经末梢的特定膜受体结合后,bont和TeNT被内化到神经元中。在它们的靶神经元内,细胞内活性部分(它们的轻链)从内体腔室转移到细胞质。神经毒素的轻链是锌依赖的(内肽酶),它对涉及神经递质胞吐的三种突触蛋白(VAMP/synaptobrevin, syntaxin或SNAP-25)中的一种具有特异性。bont和TeNT的不同靶点的存在与观察到的神经递质释放的量变密切相关,这是某些毒素血清型的特征。此外,最近还发现了第二种非蛋白水解的抑制作用机制。最有可能的是,这种额外的阻断作用涉及到神经元转谷氨酰胺酶的激活。由于其对胞吐装置关键蛋白的特异性作用,梭状芽胞杆菌神经毒素现在被广泛用作胞吐研究的分子工具。
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