Expression of neuronal Na+ leak channel, NALCN, provides for persistent invasion of metastasizing cancer cells

Cytosolic Ca2+ oscillations provide signaling input to several effector systems of the cell. These include neuronal development, migration and networking. Although similar signaling events are hijacked by highly aggressive cancer cells, the complexity of the ‘neuron-like’ remodeling in metastasis remains to be explored. Here, using a variety of in vitro and in vivo techniques we show that strongly metastatic prostate cancer cells acquire specific Na+/Ca2+ signature required for persistent invasion. We identify the ‘neuronal’ Na+ leak channel, NALCN, at the hot spots of the Ca2+ wave initiation and invadopodia formation. Mechanistically, NALCN associates functionally with plasmalemmal and mitochondrial Na+/Ca2+ exchangers, reactive oxygen species and store-operated channels to generate intracellular Ca2+ oscillations. In turn, this stimulates the activity of protooncogene Src kinase co-localized with NALCN, actin remodeling and secretion of proteolytic enzymes, thus increasing an invasive potential of the cancer cells and metastatic lesions in vivo (accessed in pre-clinical models). Overall, our findings provide new insight into the signaling pathway specific for metastatic cells where NALCN plays the role of the persistent invasion “launcher and controller”. ### Competing Interest Statement The authors have declared no competing interest.