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Figure 1. Rat pancreatic acinar cells seen at the light (Inset) and electron microscope level. The polarity of isolated acinar cells with clearly identifiable apical (A) and basolateral (BL) regions is seen in the differential interference contrast image. The nucleus (N) is present toward the basolateral region, and the zymogen granules (ZGs), ranging in size from 0.1 to 1 µm, are concentrated at the apical end of the cells. (Bar = 5 µm.)
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Figure 2. Topology of the apical cell surface of isolated pancreatic acini observed by atomic force microscopy. Scattered pits at the apical plasma membrane surface with papillae-like projections are seen. One pit (Inset) with four depressions is shown. A number of large pore-like structures are also identified.
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Figure 3. Dynamics of depressions following stimulation of secretion. (a) Several depressions within a pit are shown. The scan line across three depressions in the top panel is represented graphically in the middle panel and defines the diameter and relative depth of the depressions; the middle depression is represented by red arrowheads. The bottom panel represents % total cellular amylase release in the presence and absence of the secretagogue Mas7. (b) Notice an increase in the depression diameter and relative depth, correlating with an increase in total cellular amylase release at 5 min after stimulation of secretion. (c) At 30 min after stimulation of secretion, there is a decrease in diameter and depth of the depressions and no further increase in amylase release over the 5-min time point. No significant changes in amylase secretion or depression diameter were observed in control acini, in either the presence or the absence of the nonstimulatory mastoparan analogue Mas17, throughout the times examined. High-resolution images of pits and their depressions were obtained before and after stimulation with Mas7, for up to 30 min.
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Figure 4. Changes were observed only in the depressions following stimulation of secretion. An analysis of the dimensions a-d (n = 28), schematically represented at the top and graphically presented below, demonstrates a significant increase (P Student t test) in the depression diameter at 5 min and a return toward prestimulatory levels after 30 min. No changes (100%) in a-c are seen throughout the times examined. Pit and depression diameters were estimated using section analysis software from Digital Instruments. Each single pit or depression was measured twice, once in the scan direction and once at 90° to the first.
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Figure 5. Schematic diagram depicting depressions as secretory vesicle docking and fusion sites at the apical plasma membrane of the pancreatic acinar cell. The depressions within pits are shown as permanent structures on the plasma membrane (a). Following stimulation of secretion, there is an increase in the depth and diameter of depressions, which then fuse with the ZG membrane, resulting in the release of vesicle contents (b). Following secretion, there is a gradual return to the resting state (c).
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