The morphological responses of the exocrine pancreas of the adult male rat to soybean trypsin inhibitor (STI) were studied by ultrastructural morphometry and electron probe X-ray microanalysis. STI administered orally in drinking water for 14 days resulted in a 72% increase in the wet weight of the pancreas. This enlargement was due, largely, to an increase in acinar cell mass. Volume increases in the acinar cell mass and extra-acinar cell compartment were 72 and 30% respectively. The estimated total number of acinar cells in the mean exocrine pancreas was 500 million in the control and 630 million in the experimental group, representing an increase of 27%. Acinar cell volume was 1,790 µm3 for the control and 2,457 µm3 for the STI group. The pronounced morphometric changes of the organelles in the STI group were: the mean nucleolar volume increased by 56%; the volume of zymogen granular mass per cell increased by 93%; the volume of the Golgi complex and the condensing vacuoles per cell increased by 52 and 100% respectively, whereas the membrane area of the Golgi complex and the condensing vacuoles increased by 98 and 47% respectively. Spectral analysis of seven elements (Na, Mg, P, S, Cl, K and Ca) showed significant changes for nuclei, zymogen granules and mitochondria following STI: nuclei showed Na, P, K increased; zymogen granules showed Na, P, S, K increased, Cl decreased; mitochondrial particles showed Mg, P, Cl, Ca increased, and the mitochondrial matrix showed S decreased. The persistent uptake of STI probably resulted in a continual release of a trophic hormone acting on pancreatic tissue components consequently causing hyperplasia and hypertrophy of the exocrine pancreas to accommodate a heightened demand for synthesis of exportable protein
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