While aging has been associated with changes in the period and amplitu
de of circadian rhythms, little is known about how aging influences th
e response of the circadian dock to environmental stimuli. In this pap
er, we report on recent studies designed to determine the effects of a
dvanced age on the response of the circadian clock to both photic and
nonphotic stimuli in old hamsters (e.g., over 16 mo of age). Among the
most pronounced age-related changes in the circadian rhythm of locomo
tor activity are: (a) alterations in the phase-angle of entrainment to
the light-dark cycle; (b) an increase in the magnitude of phase shift
s induced by pulses of light presented at specific circadian times; an
d (c) a loss of responsiveness to the phase shifting or entraining eff
ects of stimuli which induce an acute increase of activity. Depletion
of brain monoamine levels in young animals can induce changes in the r
esponsiveness of the circadian clock to environmental stimuli which ar
e similar to those which occur spontaneously in old animals, suggestin
g that aging alters monoaminergic inputs to the clock. Some of the age
-related changes in the response of the Flock to an activity-inducing
stimulus can be reversed by implanting old animals with fetal SCN tiss
ue. Determining the physiological basis for age related changes in the
responsiveness of the clock to both internal and external stimuli, an
d the mechanisms by which normal circadian function can be restored, s
hould lead to new insight into the functioning of the circadian clock
and may lead to new approaches for normalizing disturbed circadian rhy
thms.