RESUMEN
Morphological changes are thought to contribute to the expression of long-term synaptic plasticity, a cellular basis for learning and memory. The mechanisms mediating the initiation and maintenance of the morphological changes are poorly understood. We repeatedly imaged the axonal arbors of mechanosensory neurons of Aplysia as they formed new synaptic varicosities and axonal branches after applications of serotonin that cause long-term synaptic facilitation. New varicosities formed exclusively from preexisting varicosities, by splitting or branch outgrowth. These changes were prevented by cytochalasin D, which blocks actin polymerization and the turnover of actin filaments. The suppression of the morphological changes by cytochalasin D did not impair their expression when cytochalasin D was removed 24 hr after exposure to serotonin. These results imply that serotonin induces persistent effects at preexisting presynaptic varicosities, which enhance actin polymerization, and that this is essential for presynaptic morphological changes of long-term facilitation.