期刊论文详细信息
Cell Reports
Network-centered homeostasis through inhibition maintains hippocampal spatial map and cortical circuit function
Claudia Clopath1  Klara Kaleb2  Victor Pedrosa2 
[1] Sainsbury Wellcome Centre, UCL, London, UK;Bioengineering Department, Imperial College London, London, UK;
关键词: network homeostasis;    inhibitory plasticity;    hippocampus;    place cells;    remapping;    recurrent networks;   
DOI  :  
来源: DOAJ
【 摘 要 】

Summary: Despite ongoing experiential change, neural activity maintains remarkable stability. Although this is thought to be mediated by homeostatic plasticity, what aspect of neural activity is conserved and how the flexibility necessary for learning and memory is maintained is not fully understood. Experimental studies suggest that there exists network-centered, in addition to the well-studied neuron-centered, control. Here we computationally study such a potential mechanism: input-dependent inhibitory plasticity (IDIP). In a hippocampal model, we show that IDIP can explain the emergence of active and silent place cells as well as remapping following silencing of active place cells. Furthermore, we show that IDIP can also stabilize recurrent dynamics while preserving firing rate heterogeneity and stimulus representation, as well as persistent activity after memory encoding. Hence, the establishment of global network balance with IDIP has diverse functional implications and may be able to explain experimental phenomena across different brain areas.

【 授权许可】

Unknown   

  文献评价指标  
  下载次数:0次 浏览次数:4次