Light emitting dioide (LED), in the red and infrared spectrum has proved efficacy in stimulating wound healing and accelerating optic nerve recovery. Very recently, the LED (630nm) has shown effects on repigmentation of vitiligo. Vitiligo is an acquired pigmentary disorder resulting from melanocyte destruction, which is thought to be mediated by apoptosis. Compared to low energy He-Ne laser, which is now used in treating vitiligo, LED with similar wavelength, is cheaper, longer-lasting, and requires less treatment time. However, the molecular mechanism of LED light on the activation of melanocytic cells has not been investigated. In this study, we utilized NCCmelan5 and NCCmelb4 melanoblast (MB), two melanoblast cell lines which were previously used to investigate the treatment of vitiligo, to investigate the anti-apoptotic effects of LED (630nm), and ruled out others causes of repigmentation including proliferation, mitochondrial metabolism, melanin production, migration distances of MBs after irradiation, to formulate the theoretical basis LED’s treatment of vitiligo. MBs showed 4J/cm2 to be the lethal dose and 1J/cm2 to be the effective dose for MBs. In mature MBs, there was decrement on total metabolism, cell number, melanin synthesis, and migration after irradiation, however, the effect of inhibition was not obvious for immature MBs. Under serum deprivation, pretreatment with LED (1J/cm2 ) has shown protective effect against cell death and down-regulated bax/bcl-2 mRNA expression ratio. In this study, we found that the mechanism for LED (630nm) repigmentation in vitiliginous skin is not through direct stimulation of melanin synthesis, proliferation, nor cellular migration. On the contrary, LED puts healthy MBs to arrest and prevents death of un-healthy cells through a cyto-protective mechanism with regulation of the mitochondria pathway of apoptosis.