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Stability and dynamics of dendritic spines in macaque prefrontal cortex

Ming Chen, Junqian Qi, Mu‐ming Poo, Yang Yang

2022National Science Review18 citationsDOIOpen Access PDF

Abstract

Formation and elimination of synapses reflect structural plasticity of neuronal connectivity. Here we performed high-resolution two-photon imaging of dendritic spines in the prefrontal cortex of four macaque monkeys and found that spines were in general highly stable, with low percentages undergoing synaptic turnover. By observing the same spines at weekly intervals, we found that newly formed spines were more susceptible to elimination, with only 40% persisting over a period of months. Analyses of spatial distribution of large numbers of spines revealed that spine distribution was neither uniform nor random, favoring inter-spine distances of 2-4 μm. Furthermore, spine formation and elimination occurred more often in low- and high-density dendritic segments, respectively, and preferentially within a hot zone of ∼4 μm from existing spines. Our results demonstrate long-term stability and spatially regulated spine dynamics in the macaque cortex and provide a structural basis for understanding neural circuit plasticity in the primate brain.

Topics & Concepts

Dendritic spineMacaqueSPINE (molecular biology)NeuroscienceBiologyPrefrontal cortexDendritic filopodiaCortex (anatomy)AnatomyCell biologyHippocampal formationCognitionNeuroscience and Neuropharmacology ResearchNeural dynamics and brain functionFunctional Brain Connectivity Studies
Stability and dynamics of dendritic spines in macaque prefrontal cortex | Litcius