Abstract

1. Using the patch-clamp technique, we have monitored the secretory activity of single rat melanotrophs. Changes in membrane capacitance (Cm) were measured to detect small discrete femtofarad steps. These are believed to be due to interactions between single secretory organelles (granules) and plasmalemma. 2. A new approach was introduced to measure the amplitude of discrete steps in Cm. Records of Cm were converted into time derivatives, where discrete steps appeared as transients. A transient due to a 2 fF discrete step in Cm was easily distinguished from random noise, since the probability of such a transient being due to random noise was less than 0.01. To distinguish apparent steps from noise the computer-based analysis employed a threshold of 3 times the standard deviation of the noise time derivative (dCm/dt). A phase diagram was created by plotting dCm/dt versus Cm, from which the magnitude and direction of transients were determined. Transients due to 2 fF steps (equivalent to a signal-to-noise ratio of 1) were detected with a reliability of 100%, whereas steps of 1 fF were detected with a reliability of more than 60%. The amplitude of false steps detected by the program was less than 1 fF, and the frequency of false detections of 0.075 S-1 was equal for exocytotic and endocytotic events. 3. Electron microscopy was used to measure secretory organelle size and an immunogold technique was used to label the electron micrographs with an anti-adrenocorticotrophin (ACTH) antibody. Secretory organelles in cultured and non-cultured cells were of similar diameter. All sizes of secretory granules appear to contain ACTH, since secretory organelles of similar diameter stained positively with the anti-ACTH antibodies. 4. Small discrete steps in Cm, recorded with the whole-cell configuration and loosely buffered cytosolic calcium, were similar to the estimated Cm of secretory organelles from morphological data. Thus, measured discrete steps in Cm reflect interactions between single organelle size and plasma membrane. Exocytotic and endocytotic steps were found to be of similar size. 5. To separate exocytosis from endocytosis in Cm records, we assumed that the rates of exocytosis and endocytosis were related to the respective frequencies of discrete steps in Cm. A relationship between the frequency of exocytotic, but not endocytotic events, and the rate of change in Cm was observed. Thus, under our experimental conditions, an increase in Cm could be explained by an increased rate of exocytosis in rat melanotrophs.

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