Distinct input-specific mechanisms enable presynaptic homeostatic plasticity

Chun Chien, Kaikai He, Sarah Perry, Elizabeth Tchitchkan, Yifu Han, Xiling Li, Dion Dickman
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Abstract

Synapses are endowed with the flexibility to change through experience, but must be sufficiently stable to last a lifetime. This tension is illustrated at the Drosophila neuromuscular junction (NMJ), where two motor inputs that differ in structural and functional properties co-innervate most muscles to coordinate locomotion. To stabilize NMJ activity, motor neurons augment neurotransmitter release following diminished postsynaptic glutamate receptor functionality, termed presynaptic homeostatic potentiation (PHP). How these distinct inputs contribute to PHP plasticity remains enigmatic. We have used a botulinum neurotoxin to selectively silence each input and resolve their roles in PHP, demonstrating that PHP is input-specific: Chronic (genetic) PHP selectively targets the tonic MN-Ib, where active zone remodeling enhances Ca2+ influx to promote increased glutamate release. In contrast, acute (pharmacological) PHP selectively increases vesicle pools to potentiate phasic MN-Is. Thus, distinct homeostatic modulations in active zone nanoarchitecture, vesicle pools, and Ca2+ influx collaborate to enable input-specific PHP expression.
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不同的输入特异性机制使突触前稳态可塑性得以实现
神经突触具有随着经验变化而变化的灵活性,但又必须足够稳定,以便终生使用。果蝇的神经肌肉接头(NMJ)就体现了这种紧张关系,两个在结构和功能特性上不同的运动输入端共同支配着大多数肌肉,以协调运动。为了稳定 NMJ 的活动,运动神经元会在突触后谷氨酸受体功能减弱后增加神经递质的释放,这被称为突触前稳态电位(PHP)。这些不同的输入如何促进 PHP 的可塑性仍然是个谜。我们利用肉毒杆菌神经毒素选择性地抑制了每种输入,并解析了它们在 PHP 中的作用,证明 PHP 具有输入特异性:慢性(遗传性)PHP 选择性地针对强直性 MN-Ib,该处的活性区重塑会增强 Ca2+ 的流入,从而促进谷氨酸的释放。与此相反,急性(药理学)PHP 选择性地增加囊泡池,以增强阶段性 MN-Is。因此,活性区纳米结构、囊泡池和 Ca2+ 流入的不同平衡调节共同促成了输入特异性 PHP 表达。
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