Differential regulation of multiple populations of granules in rat adrenal chromaffin cells by culture duration and cyclic AMP

Abstract

We employed carbon fiber amperometry to measure the amount of catecholamine released from individual granules (i.e. the quantal size, Q) of rat chromaffin cells. The distribution of Q1/3 of amperometric events could be reasonably described by the summation of at least three Gaussians, suggesting that rat chromaffin cells contained at least three distinct populations of granules, with a small, medium or large modal Q. After 3 days of culture, the mean cellular Q reduced by approximately 14%, which did not arise from a uniform percentage decrease in the Q of every granule. Instead, the rundown involved a > 11% decrease in the proportional release from large Q granules and a > 19% decrease in the modal Q-value of small Q granules. In contrast, when cells were cultured with dibutyryl-cAMP (dBcAMP) for 3 days, their mean cellular Q increased by approximately 38% (relative to time-matched controls). This increase in Q was not associated with any shift in the proportional release from the three populations of granules. Instead, cAMP increased the average amount of catecholamines released from all three populations of granules. Our data raise the possibility that distinct populations of granules in rat chromaffin cells can be regulated either differentially or uniformly.