Activation of a calcium-dependent photoprotein by chemical signalling through gap junctions.

In the hydrozoan coelenterate Obelia geniculata, epithelial cell action potentials trigger light emission from photocyte effector cells containing obelin, an endogenous calcium-activated photoprotein. As this luminescence is blocked by the removal of extracellular calcium it seemed likely that calcium entry via voltage-gated channels in the photocyte membrane would account for the light emission. However, no inward calcium current was detected in whole cell recordings from dissociated photocytes and depolarization of isolated photocytes produced no luminescence. In contrast, a voltage-dependent calcium current was recorded from non-luminescent support cells, and activation of this current triggered luminescence in an adjacent photocyte. Surprisingly, light emission was abolished when the gap junctions between the photocyte and support cell were blocked. We conclude that calcium entry into support cells leads to light emission from neighbouring photocytes via chemical signalling through intercellular gap junctions.