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在存在HIV的情况下对突触进行缩放。

Scaling Synapses in the Presence of HIV.

作者信息

Green Matthew V, Raybuck Jonathan D, Zhang Xinwen, Wu Mariah M, Thayer Stanley A

机构信息

Department of Pharmacology, University of Minnesota Medical School, Minneapolis, MN, 55455, USA.

出版信息

Neurochem Res. 2019 Jan;44(1):234-246. doi: 10.1007/s11064-018-2502-2. Epub 2018 Mar 14.

DOI:10.1007/s11064-018-2502-2
PMID:29541929
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6716166/
Abstract

A defining feature of HIV-associated neurocognitive disorder (HAND) is the loss of excitatory synaptic connections. Synaptic changes that occur during exposure to HIV appear to result, in part, from a homeostatic scaling response. Here we discuss the mechanisms of these changes from the perspective that they might be part of a coping mechanism that reduces synapses to prevent excitotoxicity. In transgenic animals expressing the HIV proteins Tat or gp120, the loss of synaptic markers precedes changes in neuronal number. In vitro studies have shown that HIV-induced synapse loss and cell death are mediated by distinct mechanisms. Both in vitro and animal studies suggest that HIV-induced synaptic scaling engages new mechanisms that suppress network connectivity and that these processes might be amenable to therapeutic intervention. Indeed, pharmacological reversal of synapse loss induced by HIV Tat restores cognitive function. In summary, studies indicate that there are temporal, mechanistic and pharmacological features of HIV-induced synapse loss that are consistent with homeostatic plasticity. The increasingly well delineated signaling mechanisms that regulate synaptic scaling may reveal pharmacological targets suitable for normalizing synaptic function in chronic neuroinflammatory states such as HAND.

摘要

与HIV相关的神经认知障碍(HAND)的一个决定性特征是兴奋性突触连接的丧失。在接触HIV期间发生的突触变化似乎部分源于稳态缩放反应。在这里,我们从这些变化可能是一种减少突触以防止兴奋性毒性的应对机制的一部分这一角度来讨论这些变化的机制。在表达HIV蛋白Tat或gp120的转基因动物中,突触标记物的丧失先于神经元数量的变化。体外研究表明,HIV诱导的突触丧失和细胞死亡是由不同机制介导的。体外和动物研究均表明,HIV诱导的突触缩放涉及抑制网络连接的新机制,并且这些过程可能适合进行治疗干预。事实上,由HIV Tat诱导的突触丧失的药理学逆转可恢复认知功能。总之,研究表明,HIV诱导的突触丧失具有与稳态可塑性一致的时间、机制和药理学特征。越来越清晰的调节突触缩放的信号机制可能揭示适合使慢性神经炎症状态(如HAND)中的突触功能正常化的药理学靶点。

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