Intravascular injections of adrenocorticotropic hormone in hypophysectomized rats were approximately 3 times more effective in stimulating increases in plasma corticosteroid concentration when given at the offset rather than the onset of the daily photoperiod (12 h:12 h light-dark cycle). Reversal of the photoperiodic schedule produced a reversal in the corticosteroid response after 5 days. Similar temporal variations in androgen and T4 responses to LH and TSH were not obtained. Although plasma corticosteroid concentrations were maintained at normal intermediate levels in rats with adrenal autotransplants, daily variations were not demonstrable. These results indicate that the circadian rhythm of plasma corticosteroid concentration is regulated by way of neural pathways to the adrenal.
1. Morphological correlates of circadian changes in eye sensitivity to light measured electrophysiologically were sought in the cockroach, Leucophaea maderae. Cross sections of ommatidia removed at subjective midday and subjective midnight on 3 successive days from roaches held under constant darkness (DD) at 25 +/- 2 degrees C were examined using a transmission electron microscope for morphological differences related to sampling time. 2. The temporal difference in submicrovillar cisternae (SMC) area appeared to exhibit a circadian rhythm, however, the amplitude of this temporal difference measured under DD was less than that observed under LD 12:12 conditions. SMC areas characteristic at nighttime were achieved at subjective midnights but the area diminished only partially toward the daytime state on subjective middays. 3. Rhabdom area remained constant and the daily rhythm of screening pigment granules (SPG) arrangement about the rhabdom was not observed under conditions of constant darkness. 4. Results of this study indicate that a pacemaker(s) actively influences the change in the SMC toward the nighttime state, whereas, the change toward the daytime state results from a passive mechanism that possibly could be accelerated by light.
A daily rhythm of testicular photosensitivity entrained by the photoperiod of 10L:14D (1ight:dark) was detected in lizards at 30°C but not at 20°C. Testicular development in anoles at 30°C was stimulated by a 1-hour light interruption occurring 16.5 hours (Experiment I) or 20 (Experiment 11) after the onset of the daily photoperiod. Light interruptions occurring at other times of night tested were not stimulatory. Photoperiodism in this reptile appears to involve circadian mechanisms similar to those that have been described for members of other vertebrate classes. The expression of physiological events regulated by these mechanisms is temperature dependent.
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