Evidence for an Endogenous Ultradian Rhythm Governing Growth Hormone Secretion in the Rat

Abstract
Sequential blood samples were obtained from undisturbed freely-behaving male rats bearing chronic intracardiac venous cannulae. Blood was withdrawn every 15 min for periods of 4-24 h; plasma was separated, and saline-resuspended red cells were reinjected. Plasma GH was determined by radioimmunoassay. Pulsatile GH secretion was evident in each animal with most peak values greater than 200 ng/ml and most trough values less than ng/ml. The GH secretory episodes occurred at approximately 3 h intervals, and this rhythmic pattern of GH secretion persisted unchanged across all phases of a 12-h light-dark (L-D) cycle. Seven major episodes of GH secretion were observed during a single 24-h period. The mean period, or time interval between episodes, in 24 animals was 3.32 +/- 0.07 (SEM)h. The timing of the pulses with respect to the L-D cycle was similar in most animals, indicating that the rhythm may be entrained to the L-D cycle. The role of environmental lighting was further assessed in 14 animals exposed to constant light for 7 weeks. The results show that the basic rhythm was unchanged (mean period 3.18 +/- 0.06 h, peaks greater than 200 ng/ml, troughs less than 1 ng/ml), although entrainment to time of day was not evident. Subsequent exposure to the 12-h L-D cycle resulted in reversion to an entrained rhythm. These results suggest 1) that GH secretion in the rat is governed by an endogenous ultradian rhythm, with a periodicity of approximately 3.3 h, and 2) that the alternation of light and darkness probably serves as a Zeitgeber which sets the biological "clock" for GH secretion, but is not necessary for maintenance of the basic rhythm.