We have investigated the regulation of actin assembly in whole mouse brain synaptosomes and how that regulation modulates neurotransmitter release. During a 30 s depolarization with high K+, filamentous actin (F-actin) levels, monitored by staining with rhodamine phalloidin, increase dramatically (up to 300% in 3 s), decrease, and increase once again. This F-actin cycling is regulated by pathways both dependent and independent of Ca2+ influx and is markedly affected by exposing synaptosomes to Li+, tetrodotoxin, and diacylglycerol. Measurement of [3H]norepinephrine release from synaptosomes containing entrapped agents that modulate actin assembly (DNAase I or phalloidin) indicates that actin depolymerization is necessary for normal release and that repolymerization limits release.