In vitro resetting of the circadian clock in the Aplysia eye. I. Importance of efferent activity in optic nerve.
نویسندگان
چکیده
A transition from constant light (LL) to constant darkness (DD) will reset the circadian rhythms of most organisms to a phase that normally occurs near dusk. We tested the circadian oscillator in the Aplysia eye for this property. The test was run in vitro under two conditions. Using the two eyes of a single animal, one eye was left attached to the cerebral ganglion by its intact optic nerve and the other was detached by cutting its nerve. The amount of LL preceding LL/DD was the independent variable; the phase of the two eyes was the measured variable. When LL less than 12 hr, neither the cut nor the attached eye was reset by LL/DD. When 12 less than or equal to LL less than or equal to 24 hr, the attached eye was reset but the detached eye was not. Thus, for these durations of LL, resetting by LL/DD was found to be dependent on the integrity of optic nerve. When LL was about 21 hr, the differential response of the two eyes caused them to be about 12 hr out of phase. When LL was between 27 and 75 hr, LL/DD reset both eyes but there was a low amplitude cyclic modulation of about +/- 3 hr in the phase to which they were reset by LL/DD. This modulation shows that LL did not stop the eye clock but rather that LL/DD reset its phase while it was free running in LL.
منابع مشابه
Regulation of the circadian clock in the Aplysia eye: mimicry of neural action by serotonin.
In Aplysia, activity of efferent fibers in the optic nerve can influence the circadian clock in the eye. In addition, serotonin (5-HT) is present in the eye and influences the function of the clock. Accordingly, we hypothesized that 5-HT is the transmitter of the optic efferents, and tested the prediction that exogenous 5-HT would mimic the action of the optic efferents on the clock. We also te...
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When constant light is 18, 21, or 24 hr, a constant light to constant darkness (LL/DD) transition in vitro results in a phase difference (delta psi) between an eye that is attached to the cerebral ganglion and its partner that is detached by cutting its optic nerve just prior to the LL/DD. This delta psi develops during the first 24 hr after LL/DD as the result of efferent activity in the optic...
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Each eye of Aplysia contains a population of electrically coupled pacemaker neurons whose synchronous activity can be recorded from the optic nerve as a compound action potential (CAP). The CAP frequency continues to show a circadian rhythm even when the eye is isolated from the animal and maintained in constant conditions, and thus it contains an autonomous circadian pacemaker, which may resid...
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ورودعنوان ژورنال:
- The Journal of neuroscience : the official journal of the Society for Neuroscience
دوره 1 8 شماره
صفحات -
تاریخ انتشار 1981