Literature DB >> 33275099

The actin-modulating protein synaptopodin mediates long-term survival of dendritic spines.

Kenrick Yap1, Alexander Drakew1, Dinko Smilovic1,2, Michael Rietsche1, Mandy H Paul1, Mario Vuksic1,2, Domenico Del Turco1, Thomas Deller1.   

Abstract

Large spines are stable and important for memory trace formation. The majority of large spines also contains synaptopodin (SP), an actin-modulating and plasticity-related protein. Since SP stabilizes F-actin, we speculated that the presence of SP within large spines could explain their long lifetime. Indeed, using 2-photon time-lapse imaging of SP-transgenic granule cells in mouse organotypic tissue cultures we found that spines containing SP survived considerably longer than spines of equal size without SP. Of note, SP-positive (SP+) spines that underwent pruning first lost SP before disappearing. Whereas the survival time courses of SP+ spines followed conditional two-stage decay functions, SP-negative (SP-) spines and all spines of SP-deficient animals showed single-phase exponential decays. This was also the case following afferent denervation. These results implicate SP as a major regulator of long-term spine stability: SP clusters stabilize spines, and the presence of SP indicates spines of high stability.
© 2020, Yap et al.

Entities:  

Keywords:  entorhinal denervation; granule cell; hippocampus; mouse; neuroscience; spine apparatus; synaptic plasticity

Mesh:

Substances:

Year:  2020        PMID: 33275099      PMCID: PMC7717903          DOI: 10.7554/eLife.62944

Source DB:  PubMed          Journal:  Elife        ISSN: 2050-084X            Impact factor:   8.140


  89 in total

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