Abstract: | Polymerization of filamentous (F)‐actin at the neuronal synapse plays an important role in neuronal function. However, the regulatory mechanisms controlling the levels of synaptic actin remain incompletely understood. Here, I used established pharmacological blockers to acutely disrupt the function of actin polymerization machinery, then quantified their effect on synaptic F‐actin levels. Synaptic F‐actin was modestly decreased by inhibition of Arp2/3‐dependent actin branching. Blockade of formin‐dependent actin elongation resulted in an Arp2/3‐dependent increase in synaptic actin that could be mimicked by limited actin depolymerization. Limited actin depolymerization was also sufficient to reverse a decrease in synaptic F‐actin caused by prolonged blockade of synaptic NMDA‐type glutamate receptors. These results suggest that interplay between different actin polymerization pathways may regulate synaptic actin dynamics. |