Abstract
Rapid sustained oscillations in basal plasma levels of insulin, glucose, and glucagon (9-12 min/cycle) have been identified in rhesus monkeys and in humans. To assess the possible regulatory role of nutritional state in the control of these plasma fluctuations, 12 chronically cannulated conscious rhesus monkeys were studied at varying intervals following ingestion of a mixed meal. Blood samples were withdrawn at 2-min intervals for periods of 10-30 min. In the postprandial period both absolute and relative amplitudes (half amplitude percent) of oscillations increased up to 16 h postfeeding to maximal amplitudes of +/- 32% for insulin, +/- 4% for glucose, and +/- 22% for glucagon. Periods were consistently in the 9- to 12-min range for insulin and glucose. Progressive deprivation to 88 h produced decreases in amplitudes and more irregularity in fluctuations but did not affect the underlying periodicity of these oscillations in plasma levels of insulin, glucose, and glucagon. Results are consistent with the existence of one or more inherent oscillators in the pancreas that act to synchronize the release of hormones from particular types of islet cells. The amplitude of these oscillations but not the frequencies is associated with changes in liver metabolism and nutritional state.
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