The Paramecium circadian clock: synchrony of changes in motility, membrane potential, cyclic AMP and cyclic GMP

The behavior of a ciliate protozoan, Paramecium, is known to represent the electrical state of the cell membrane, and regulation of the membrane potential and ciliary motion are known to involve cAMP and cGMP. The present study shows the synchrony of circadian changes in motility, resting membrane potential and cyclic nucleotides in P. multimicronucleatum. Using an automated system for tracking isolated single microorganisms, the isolated Paramecium cells are confirmed to swim fast and straight during the day (and subjective day) and slowly, with frequent turning, at night (and subjective night). The resting membrane potential is more negative during the day than at night. cAMP and cGMP concentrations oscillate in a manner, such that both cAMP and cGMP are higher during the day (or subjective day) than at night (or subjective night). The ratio of cGMP to cAMP during the light and dark cycle (LD) fluctuates, paralleling the fluctuation of the resting membrane potential measured during the LD. These results suggest that the Paramecium will provide an excellent model to explore daily and circadian orchestration of second messengers mediating signals from ambient light/dark cycles and circadian pacemaker to ion channels and cilia, directly involved in daily and circadian cellular outputs of resting membrane potential and motility. Accepted: 23 January 1997