评估树突的局部和分支特异性活动。

Assessing Local and Branch-specific Activity in Dendrites.

机构信息

Neuroscience Institute, New York University Langone Health, New York, NY 10016, USA.

Neuroscience Institute, New York University Langone Health, New York, NY 10016, USA; Department of Neuroscience and Physiology, New York University Grossman School of Medicine, New York, NY 10016, USA; Department of Psychiatry, New York University Grossman School of Medicine, New York, NY 10016, USA.

出版信息

Neuroscience. 2022 May 1;489:143-164. doi: 10.1016/j.neuroscience.2021.10.022. Epub 2021 Oct 29.

DOI:10.1016/j.neuroscience.2021.10.022

PMID:34756987

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9125998/

Abstract

Dendrites are elaborate neural processes which integrate inputs from various sources in space and time. While decades of work have suggested an independent role for dendrites in driving nonlinear computations for the cell, only recently have technological advances enabled us to capture the variety of activity in dendrites and their coupling dynamics with the soma. Under certain circumstances, activity generated in a given dendritic branch remains isolated, such that the soma or even sister dendrites are not privy to these localized signals. Such branch-specific activity could radically increase the capacity and flexibility of coding for the cell as a whole. Here, we discuss these forms of localized and branch-specific activity, their functional relevance in plasticity and behavior, and their supporting biophysical and circuit-level mechanisms. We conclude by showcasing electrical and optical approaches in hippocampal area CA3, using original experimental data to discuss experimental and analytical methodology and key considerations to take when investigating the functional relevance of independent dendritic activity.

摘要

树突是一种精细的神经过程，它可以整合来自不同时空来源的输入。虽然几十年来的研究表明，树突在驱动细胞的非线性计算方面具有独立的作用，但直到最近，技术的进步才使我们能够捕捉树突中的各种活动及其与胞体的耦合动力学。在某些情况下，在给定的树突分支中产生的活动仍然是孤立的，因此胞体甚至姐妹树突都无法接收到这些局部信号。这种特定于分支的活动可以极大地增加整个细胞的编码能力和灵活性。在这里，我们讨论了这些局部和特定于分支的活动形式，它们在可塑性和行为中的功能相关性，以及支持它们的生物物理和电路级机制。最后，我们以海马 CA3 区的电和光学方法为例，使用原始实验数据讨论实验和分析方法，以及在研究独立树突活动的功能相关性时需要考虑的关键问题。

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