Summary
The endocrine pancreas from four hypergastrinemic patients with recurrent peptic ulceration has been studied by light and electron microscopy. Greatly increased numbers of ducts and centroacinar cells have been observed associated with a striking increase in the number of islets and endocrine cells scattered in the acinar tissue (nesidioblastosis). The islet cells scattered throughout the exocrine parenchyma are of all the known islet cell types, with a prevalence of B and especially A cells. Many islets, probably formed de novo, are of a considerable size, have irregular contours and are in close apposition to centroacinar cells and ducts. The degree of nesidioblastosis and islet hyperplasia does not seem to be related to the plasma gastrin levels.
Cytological changes have also been found in the islet cells of the hypergastrinemic patients compared with controls. These changes mainly affect the B cells and consist of a striking decrease in the number of mature secretory granules associated with a fairly extended ergastoplasm and Golgi apparatus and with a relevant increase in the number of immature granules. In two of the four patients examined, who had more severe hypergastrinemia, cytological signs of enhanced secretion are also recognized in A cells. The features indicating hypersecretion of B and A cells seem to be related to the plasma gastrin levels.
The above findings indicate that chronic endogenous hypergastrinemia promotes proliferation and differentiation of islet cells and stimulates the secretory function of B cells and, to a lesser extent, of A cells, thus providing evidence for a trophic and secretagogue action of gastrin on the endocrine pancreas.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Bani Sacchi T, Bartolini G, Biliotti G (1979) Aspetti morfologici dell’iperplasia insulare nell’uomo. Arch It Anat Embriol 84:183–191
Bani Sacchi T, Romagnoli P, Biliotti G (1983) The effects of chronic hypergastrinemia on human pancreas. J Submicrosc Cytol 15:1073–1087
Bloodworth JMB, Elliot DW (1963) The histochemistry of pancreatic islet cell lesions. J Am Med Ass 183:1011–1015
Creutzfeldt W (1982) Gastrointestinal hormones and islet function. In: Federlin KF, Scholtholt J (eds) The importance of islets of Langerhans for modern endocrinology. Raven Press, New York, p 55
Creutzfeldt W, Arnold R, Creutzfeldt C, Track NS (1975) Pathomorphologic, biochemical and diagnostic aspects of gastrinomas (Zollinger-Ellison syndrome). Human Pathol 6:47–76
Dupre J, Curtis JD, Unger RH, Waddel RW, Beck J (1969) Effects of secretin, pancreozymin or gastrin on the response of the endocrine pancreas to administration of glucose or arginine in man. J Clin Invest 48:745–757
Fiocca R, Sessa F, Tenti P, Usellini L, Capeila C, O’Hare MMT, Solcia E (1983) Pancreatic polypeptide (PP) cells in the PP-rich lobe of the human pancreas are identified ultrastructurally and immunocytochemically as F cells. Histochemistry 77:511–523
Gabe M (1953) Sur quelques applications de la coloration par la fuchsine-paraldehyde. Bull Microsc Appl 3:153–162
Gomori G (1939) Studies on the cells of pancreatic islets. Anat Rec 74:439–460
Hayes JR, Ardill J, Buchanan KD (1975) Gastrin and insulin release. Diabetologia 11:89–92
Iversen J (1971) Secretion of glucagon from the isolated perfused canine pancreas. J Clin Invest 50:2123–2136
Kaneto A, Mizuno Y, Tasaka Y, Kosaka K (1970) Stimulation of glucagon secretion by tetragastrin. Endocrinology 86:1175–1180
Larsson LI (1977) Two distinct types od islet abnormalities associated with endocrine pancreatic tumours. Virchows Arch [Pathol Anat] 376:209–219
Larsson LI, Ljungberg O, Sundler F, Hakanson R, Svensson SO, Rehfeld J, Stadil F, Holt J (1973) Antro-pyloric gastrinoma associated with nesidioblastosis and proliferation of islets. Virchows Arch [Pathol Anat] 360:305–314
Luft JH (1961) Improvement in epoxy resin embedding methods. J Biophys Biochem Cytol [Suppl] 9:409–414
Millonig G (1961) The advantage of a phosphate buffer for OsO4 solutions in fixation. J Appl Phys 32:1936–1937
Oberhelman HA (1972) Excisional therapy for ulcerogenic tumors of the duodenum. Arch Surg 104:447–452
Ohgawara H, Mizuno Y, Tasaka Y, Kosaka K (1969) Effect of the C-terminal tetrapeptide amide of gastrin on insulin secretion in man. J Clin Endocrinol Metab 29:1261–1262
Rehfeld JF (1971) Effect of gastrin and its C-terminal tetrapeptide on insulin secretion in man. Acta Endocrinol 66:169–176
Rehfeld JF (1976) Disturbed islet-cell function related to endogenous gastrin release. Studies on insulin secretion and glucose tolerance in pernicious anemia. J Clin Invest 58:41–49
Rehfeld JF, Stadil F (1973) The effect of gastrin on basal and glucose-stimulated insulin secretion in man. J Clin Invest 52:1415–1426
Rehfeld JF, Lauritsen KB, Stadil F (1976) Insulin secretion in the Zollinger-Ellison syndrome. Scand J Gastroent [Suppl] 37:63–66
Track NS, Arnold R, Creutzfeldt W (1974) Endogenous gastrin and insulin release in man. Diabetologia [Abstr] 10:389
Author information
Authors and Affiliations
Additional information
This work was supported by a grant from the Ministero Pubblica Instruzione, Roma, Italy
Rights and permissions
About this article
Cite this article
Sacchi, T.B., Bani, D. & Biliotti, G. Nesidioblastosis and islet cell changes related to endogenous hypergastrinemia. Virchows Archiv B Cell Pathol 48, 261–276 (1985). https://doi.org/10.1007/BF02890134
Received:
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF02890134