Calcium sets the physiological value of the dominant time constant of saturated mouse rod photoresponse recovery

Background

The rate-limiting step that determines the dominant time constant (τ_D) of mammalian rod photoresponse recovery is the deactivation of the active phosphodiesterase (PDE6). Physiologically relevant Ca²⁺-dependent mechanisms that would affect the PDE inactivation have not been identified. However, recently it has been shown that τ_D is modulated by background light in mouse rods.

Methodology/Principal Findings

We used ex vivo ERG technique to record pharmacologically isolated photoreceptor responses (fast PIII component). We show a novel static effect of calcium on mouse rod phototransduction: Ca²⁺ shortens the dominant time constant (τ_D) of saturated photoresponse recovery, i.e., when extracellular free Ca²⁺ is decreased from 1 mM to ∼25 nM, the τ_D is reversibly increased ∼1.5–2-fold.

Conclusions

We conclude that the increase in τ_D during low Ca²⁺ treatment is not due to increased [cGMP], increased [Na⁺] or decreased [ATP] in rod outer segment (ROS). Also it cannot be due to protein translocation mechanisms. We suggest that a Ca²⁺-dependent mechanism controls the life time of active PDE.