Abstract
Synapsin I is a major brain phosphoprotein which interacts with synaptic vesicles and actin in a phosphorylation-dependent fashion. The binding of synapsin I to synaptic vesicles involves interactions with the phospholipid and protein components of the vesicle membrane. The highly hydrophobic NH2-terminal head region of the protein binds with high-affinity to acidic phospholipids and penetrates the hydrophobic core of the membrane, whereas the basic COOH-terminal tail region does not significantly contribute to this binding. The interaction with phospholipids increases the amount of α-helix in the secondary structure of synapsin I, but does not markedly affect the microenvironment of tryptophan and cysteine residues present in the head region. The results suggest that synapsin I binds to synaptic vesicle phospholipids through amphiphilic and positively charged domains present in its NH2-terminal region and that such an interaction contributes to the high-affinity binding of synapsin I to synaptic vesicles.