Neurons release neurotransmitter by exocytosis and recycle the fused vesicles by endocytosis to maintain the membrane homeostasis. Clathrin-mediated endocytosis is one of the major pathways to form an invaginated membrane patch; after fission from the plasma membrane, the clathrin coat would be destabilized and dissociated from the vesicle by Hsc70 and auxilin. These vesicles will fuse with lysosome or be recycled for exocytosis. Auxilin-1 is a neuron-specific isoform and has three domains: an N-terminal PTEN-domain for PIP2 binding, a central domain for AP-2, dynamin, and clathrin interactions, and a C-terminal J domain for Hsc70 interaction. Our previous studies have shown that a rat cDNA clone covers the C-half (a. a. 444 ~ 970) of auxilin-1 was identified by yeast-two-hybrid screening using neuronal calcium sensor-1 (NCS-1) as the bait. NCS-1 has been shown to modulate the neurotransmitter release and auxilin is involved in clathrin-mediated endocytosis pathway; therefore, we are interested in characterizing how the interaction between NCS-1 and auxilin modulates exo-endocytosis. The auxilin-1 C-terminal fragment (a.a. 465 ~ 970, auxilin-1 C-half) was fused with the ECFP and subcloned to a mammalian expression vectors. The cloned was expressed in PC12 and the exo-endocytosis was investigated by electrophysiological approaches. In NGF-treated PC12 cell, auxilin-1 C-half was mainly distributed in the cytosol and not changed by depolarization treatment. However, when co-expressed with NCS-1, the auxilin-1 C-half was localized at the plasma membrane. In addition, endogenous clathrin could not aggregate at the plasma membrane in cells overexpressing the auxilin-1 C-half. When cells were perforated patched and the membrane capacitance was monitored, the evoked exocytosis was inhibited by auxilin-1 C-half, but not the inactive mutant. These results suggest that NCS-1 may interact with auxilin to guide the localization of clathrin to the plasma membrane for vesicle recycling and modulates the exo-endocytosis.