Author:
Bonilla-Quintana Mayte,Wörgötter Florentin,D’Este Elisa,Tetzlaff Christian,Fauth Michael
Abstract
AbstractDendritic spines change their size and shape spontaneously, but the function of this remains unclear. Here, we address this in a biophysical model of spine fluctuations, which reproduces experimentally measured spine fluctuations. For this, we characterize size- and shape fluctuations from confocal microscopy image sequences using autoregressive models and a new set of shape descriptors derived from circular statistics. Using the biophysical model, we extrapolate into longer temporal intervals and find the presence of 1/f noise. When investigating its origins, the model predicts that the actin dynamics underlying shape fluctuations self-organizes into a critical state, which creates a fine balance between static actin filaments and free monomers. In a comparison against a non-critical model, we show that this state facilitates spine enlargement, which happens after LTP induction. Thus, ongoing spine shape fluctuations might be necessary to react quickly to plasticity events.
Funder
Deutsche Forschungsgemeinschaft
Projekt DEAL
Publisher
Springer Science and Business Media LLC
Cited by
4 articles.
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