Summary
Light and electron microscopic observations were performed on pancreatic islets from genetically obese rats, (Zucker, “fatty”), from 5 to 52 weeks of age. At 5 weeks of age, islets were moderately hypertrophied. After that age, hypertrophy of islets became more prominent, until 24 weeks of age, with accompanying degranulation of B cells. The plasma insulin level also continued to increase during this period, but the glucose level was normal. Degranulated B cells contained a highly developed Golgi complex, numerous vesiculated, granular, endoplasmic reticulum and a small number of secretory granules, but no glycogen deposits. Emiocytosis and microtubule formation were very remarkable with these B cells. Frequently, mixed or intermediate cells, such as exocrine-endocrine or ductural-endocrine cell, were observed in pancreas with hypertrophied islets. At 52 weeks of age, both the plasma insulin and triglyceride levels decreased. In the pancreas, there were observed proliferation of fibrous tissue and well granulated B cells in hypertrophied islets. Hence, in fatty rats, pancreatic islets were in an active state during the period of development of obesity and hyperlipaemia (from 5 to 24 weeks of age). These correlates of obesity and hyperinsulinism disappeared at 52 weeks of age.
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Shino, A., Matsuo, T., Iwatsuka, H. et al. Structural changes of pancreatic islets in genetically obese rats. Diabetologia 9, 413–421 (1973). https://doi.org/10.1007/BF01239438
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DOI: https://doi.org/10.1007/BF01239438