Voltage-gated sodium channels (VGSCs) are essential for the initiation and propagation of action potentials in excitable cells. Calmodulin (CaM), a calcium sensor protein, regulates many types of ionic channels by binding to the highly conserved IQ motif at the intracellular C-terminal. Several reports have suggested that CaM has differential binding affinities with peptides containing the IQ motifs of various Na+ channels. However, it is not clear how CaM modulate the Na+ channel activities. In this report, we co-expressed CaM and Nav1.4 in 293T cells and measured the Na+ currents by patch-clamp technique in whole-cell mode. Both CaM and the Ca2+-binding deficient mutant, CaM1234, enhanced the current amplitude without changing the activation and inactivation properties. Elevating the Ca2+ concentration in the pipette solution to 10 μM, CaM and CaM1234 further increased the Na+ current; however, only CaM shortened the recovery time. While with 0.2 μM Ca2+ in the pipette solution, both CaM and CaM1234 enhanced the Na+ currents but had no effect on recovery time. Staining the expression level of Nav1.4 with a specific antibody, the amount of Nav1.4 at the plasma membrane was increaseed by CaM and CaM1234. Mutation in the IQ motif increased the Na+ current and recovery rates. CaM had a similar effect in enhancing the Nav1.1 currents. These findings suggest that CaM modulates VGSCs via the IQ motif in response to intracellular calcium concentration changes.