Early in development, GABA and glycine exert excitatory action that turns to inhibition due to modification of the chloride equilibrium potential (ECl) controlled by the KCC2 and NKCC1 transporters. This switch is thought to be due to a late expression of KCC2 associated with a NKCC1 down-regulation. Here, we show in mouse embryonic spinal cord that both KCC2 and NKCC1 are expressed and are functional early in development (E11.5-E13.5) when GABAAR receptors activation induces strong excitatory action. After E15.5, a switch occurs rendering GABA unable to provide excitation. At these subsequent stages, NKCC1 becomes both inactive and less abundant in motoneurons while KCC2 remains functional and hyperpolarizes ECl. In conclusion, in contrast to other systems, the co-transporters are concomitantly expressed early in development of the mouse spinal cord. Moreover, whereas NKCC1 follows a classical functional extinction, KCC2 is highly expressed throughout both early and late embryonic life.