Ca2+ -binding proteins 1-5 (CaBP1-5) are a group of proteins with structure similar to calmodulin. CaBP1 and CaBP4 have been reported to modulate the Ca2+ currents and synaptic plasticity of neurons; however, functions of other proteins have not been extensively investigated. In this report, functions of CaBP5 in excitable cells were studied. CaBP5 was cloned from rat (Rattus norvegicus) embryonic brain tissue and inserted into pEYFP-N1 for expression. Normally it was localized in the cytosol, but it may concentrat in the nucleus in some cells. We applied whole-cell patch clamping technique to monitor the electrophysiological properties of excitable cells. The results show that CaBP5 shifted the activation of Ca2+ channels to hyperpolarized voltages in primary neuron culture, but mutant CaBP5 with the first nonfunctional EF-hand didn’t have the same effect. When CaBP5 was expressed in cultured bovine adrenal chromaffin cells, neither the Ca2+ currents nor the exocytosis was affected, but the Na+ currents were enhanced. These observations indicate that CaBP5 may be involved in regulation of Ca2+ channels in neurons but enhanced Na+ currents in chromaffin cells.