Summary
Ultrastructural studies of secretory granules of rat antral G-cells and measurement of serum gastrin level were performed under the condition of fasting and administration of alkaline solution into the stomach. On electron micrographs, no qualitative difference was observed among those experimental groups. However, morphometrical analysis revealed significant quantitative differences. The population density of secretory granules of the rats treated once with alkali first increased and then decreased reaching that of the fasted group, while that of the repeatedly treated group remained nearly equal to the maximum value. The average sectioned surface area of secretory granules tended to decrease for 1.5h after the stimulation but the difference was not significant among those groups.
From the results obtained at present, responding to chemical stimulation such as pH changes in the antrum, it seems probable that not only exocytosis but also migration of secretory granules from supra- and/or para-nuclear portion to the basal portion of the cell occurs rapidly in G-cells and that both these processes are inhibited immediately by antral acidification. Moreover, the present results apparently indicate that under the condition of no antral acidification G-cells have a capacity of secreting gastrin for a fairly long time, such as 4–8 h, responding to adequate stimulus. These findings are strongly suggestive of the existence of a capacious pool of granules in the supra- and/or para-nuclear cytoplasm or of fairly speedy production of secretory granules in the Golgi area.
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The author wishes to express thanks to Prof. R. Furihata, Department of Surgery, and Prof. T. Nagata, Department of Anatomy, Shinshu University School of Medicine, for their constant interest and guidance, and to Dr. F. Iida, Department of Surgery, who has followed the course of this work throughout
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Sato, A. Quantitative electron microscopic studies on the kinetics of secretory granules in G-cells. Cell Tissue Res. 187, 45–59 (1978). https://doi.org/10.1007/BF00220617
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DOI: https://doi.org/10.1007/BF00220617