Homosynaptic plasticity induction causes heterosynaptic changes at the unstimulated neighbors in an induction pattern and location-specific manner

Abstract: Dendritic spines are highly dynamic structures whose structural and functional fluctuations depend on multiple factors. Changes in synaptic strength are not limited to synapses directly involved in specific activity patterns. Unstimulated clusters of neighboring spines in and around the site of stimulation can also undergo alterations in strength. Usually, when plasticity is induced at single dendritic spines with glutamate uncaging, neighboring spines do not show any significant structural fluctuations. Here,… Show more

“…In fact, electron microscopy studies have shown that adjacent spines often serve as postsynaptic targets for single axons 61 . There are several studies that have shown that synaptic plasticity diffuses from stimulated spines into neighboring spines and interacts there 5 , 32 , 37 , 62 – 65 . However, the relationship between heterosynaptic plasticity and the subsequent generation or elimination of surrounding spines is not yet fully understood and is a subject for future research.…”

Altered projection-specific synaptic remodeling and its modification by oxytocin in an idiopathic autism marmoset model

“…In fact, electron microscopy studies have shown that adjacent spines often serve as postsynaptic targets for single axons 61 . There are several studies that have shown that synaptic plasticity diffuses from stimulated spines into neighboring spines and interacts there 5 , 32 , 37 , 62 – 65 . However, the relationship between heterosynaptic plasticity and the subsequent generation or elimination of surrounding spines is not yet fully understood and is a subject for future research.…”

Altered projection-specific synaptic remodeling and its modification by oxytocin in an idiopathic autism marmoset model