SIGNAL SHAPING BY VOLTAGE-GATED CURRENTS IN RETINAL GANGLION-CELLS

The role of voltage-gated currents in information processing by retinal ganglion cells was assessed by comparing the light-evoked current and voltage responses of identified ganglion cells with those produced by current injection. These experiments show that the light-evoked signal is clipped at the bipolar-to-ganglion cell synapse because the synaptic current evoked by illumination with bright light is greater than that which the cell can convert into a change in action potential frequency. Ganglion cell responses to injected current fell into 2 classes: those producing sustained spiking responses and those producing transient responses. Further, this division is correlated with the light response of the cells; those producing transient responses to exogenous current produced transient responses to light, while those with sustained responses to current injection produced sustained responses to light flashes. The voltage-gated currents present in the ganglion cell membrane contribute to information processing in the retina by clipping the light-evoked signal and by producing transience in the output of the retina.