Summary
Parathyroid hormone (PTH) and chromogranin A/secretory protein-I (SP-I) have been localized on immunoelectron microscopy in double-fixed tissues from adenomatous and secondary hyperplastic parathyroid glands. Storage organelles, identified on the basis of their consistent labelling, included two morphologically distinct varieties of granules/vesicles; the mature granules and the progranules. The former consisted of dense, mostly rounded, medium to large-sized bodies which were strongly labelled and predominant in the proximity of the cell membrane. The other variety of body included a spectrum of small pale vesicles/granules which were mainly located in the Golgi area. Because their morphology and their labelling pattern varied other bodies were assumed to be engaged in degradation or cleavage of the secretory proteins. These bodies comprised crinophagic structures, that is to say multivesicular bodies and large Golgi-related vesicles, as well as a number of atypical solid bodies. Whereas most of the granulated cells stored a mature or a maturing population of vesicles/granules, the process of maturation appeared to be either absent or incomplete in a number of cells from some glands. The major defects were frequently associated with an unusual labelling pattern of the Golgi area and selectively affected groups of cells from all the transitional oxyphil cell adenomas. The minor defects concerned individual cells of different types present in both categories of glands. The present data suggest that in hyperfunctioning glands, the type of hormone processing depends on the capacity of each cell in progranule maturation and that the maturation capacity may decrease dramatically in adenomatous or chronically hyperstimulated cells of the transitional oxyphil type.
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References
Altenähr E (1972) Ultrastructural pathology of parathyroid glands. Curr Top Pathol 56:1–54
Arps H, Dietel M, Lauritzen B, Elting J, Niendorf A, Cohn DV (1987) Co-localization of parathyroid hormone and secretory protein-I in bovine parathyroid glands: A double immunocytochemical study at the electron microscopical level. Bone Mineral 2:175–183
Capen CC (1971) Fine structural alterations of parathyroid glands in response to experimental and spontaneous changes of calcium in extracellular fluids. Am J Med 50:598–611
Cinti S, Colussi G, Minola E, Dickersin GR (1986) Parathyroid glands in primary hyperparathyroidism: An ultrastructural study of 50 cases. Hum Pathol 17:1036–1046
Cohn DV, Elting JJ (1983) Biosynthesis, processing and secretion of parathormone and secretory protein-I. Rec Prog Horm Res 39:181–209
Cohn DV, Elting JJ, Frick M, Elde R (1984) Selective localization of the parathyroid secretory protein-I/adrenal medulla chromogranin A protein family in a wide variety of endocrine cells of the rat. Endocrinology 114:1963–1974
Dietel M (1982) Funktionelle Morphologie und Pathologie der Nebenschilddrüsen. Gustav Fischer Verlag, Stuttgart, New York
Dockerty K, Hutton JC, Steiner DF (1984) Cathepsin B-related proteases in the insulin secretory granule. J Biol Chem 259:6041–6044
Futrell JM, Roth SI, Su SPC, Habener JF, Segre GV, Potts JT (1979) Immunocytochemical localization of parathyroid hormone in bovine parathyroid glands and human parathyroid adenomas. Am J Pathol 94:615–622
Habener JF, Amherdt M, Ravazzola M, Orci L (1979) Parathyroid hormone biosynthesis: Correlation of conversion of biosynthetic precursors with intracellular protein migration as determined by electron microscope autoradiography. J Cell Biol 80:715–731
Habener JF, Rosenblatt M, Potts JT (1984) Parathyroid hormone: Biochemical aspects of biosynthesis, secretion, action, and metabolism. Physiological Rev 64:985–1053
Hagn C, Schmid KW, Fischer-Colbrie R, Winkler H (1986) Chromogranin A, B and C in adrenal medulla and endocrine tissues. Lab Invest 55:405–411
Hamilton JW, Jilka RL, MacGregor RR (1983) Cleavage of parathyroid hormone to 1–34 and 35–84 fragments by cathepsin D-like activity in bovine parathyroid extracts. Endocrinology 113:285–292
Hanley DA, Ayer LM (1986) Calcium-dependent release of carboxyl-terminal fragments of parathyroid hormone by hyperplastic human parathyroid tissue in vitro. J Clin Endocr Metab 63:1075–1079
Hearn SA (1987) Electron microscopic localization of chromogranin A in osmium-fixed neuroendocrine cells with a protein A - gold technique. J Histochem Cytochem 35:795–801
Hehrmann R, Thiele J, Tidow G, Hesch RD (1980) Acute hyperparathyroidism. Clinical, laboratory and ultrastructural findings in a variant of primary hyperparathyroidism. Klin Wochenschr 58:501–510
Inoue Y, Setoguti T (1986) Immunocytochemical localization of parathormone in the mammalian parathyroid gland using the protein A - gold technique. Cell Tissue Res 243:3–7
Kelly RB (1985) Pathways of protein secretion in eukaryotes. Science 230:25–32
Konecki DS, Benedum UM, Gerdes HH, Huttnen WB (1987) The primary structure of human chromogranin A and pancreastatin. J Biol Chem 262:17026–17030
MacGregor RR, Hamilton JW, Shofstall RE, Cohn DV (1979) Isolation and characterization of porcine parathyroid cathepsin B. J Biol Chem 254:4423–4427
MacGregor RR, Jilka RL, Hamilton JW (1986a) Formation and secretion of fragments of parathormone. Identification of cleavage sites. J Biol Chem 261:1929–1934
MacGregor RR, McGregor DH, Lee SH, Hamilton JW (1986b) Structural analysis of parathormone fragments elaborated by cells cultured from a hyperplastic human parathyroid gland. Bone and Mineral 1:41–50
McGregor DH, Chu LLH, MacGregor RR, Cohn DV (1977) Disruption of the Golgi zone and inhibition of the conversion of proparathyroid hormone to parathyroid hormone in human parathyroid tissue by Tris (hydroxymethyl) aminomethane. Am J Pathol 87:553–568
Mellman I, Fuchs R, Helenius A (1986) Acidification of the endocytic and exocytic pathways. Ann Rev Biochem 55:663–700
Nilsson O (1977) Studies on the ultrastructure of the human parathyroid glands in various pathological conditions. Acta path microbiol scand Sect A, Suppl 263:5–88
Orci L, Ravazzola M, Amherdt M, Yanaihara C, Yanaihara N, Halban N, Renold AE, Perrelet A (1984) Insulin, not C-peptide (proinsulin), is present in crinophagic bodies of the pancreatic B-cell. J Cell Biol 98:222–228
Orci L, Ravazzola M, Storch MJ, Anderson RGW, Vassalli JD, Perrelet A (1987) Proteolytic maturation of insulin is a post-Golgi event which occurs in acidifying clathrin-coated secretory vesicles. Cell 49:865–868
Patzak A, Winkler H (1986) Exocytotic exposure and recycling of membrane antigens of chromaffin granules: Ultrastructural evaluation after immunolabeling. J Cell Biol 102:510–515
Ravazzola M, Orci L, Habener JF, Potts JT (1978) Parathyroid secretory protein: Immunocytochemical localization within cells that contain parathyroid hormone. Lancet 2:371–372
Roth SI, Capen CC (1974) Ultrastructural and functional correlations of the parathyroid gland. Intern Rev Expm Pathol 13:161–221
Rudberg C, Grimelius L, Johansson H, Ljunghall S, Odselius R, Pertoft H, Rastad J, Wide L, Akerström G (1986) Alteration in density, morphology and parathyroid hormone release of dispersed parathyroid cells from patients with hyperparathyroidism. Acta pathol microbiol immunol scand [A] 94:253–261
Schettler T, Aufm'Kolk B, Atkinson MJ, Radeke H, Enters C, Hesch RD (1984) Analysis of immunoreactive and biologically active human parathyroid hormone-peptides by high-performance-liquid-chromatography. Acta Endocrinologica 07:60–69
Setoguti T, Inoue Y, Shin M (1985) Effects of short-term treatment with calcium on the parathyroid gland of the rat, under particular consideration of the alteration of storage granules. Cell Tissue Res 240:9–17
Shannon WA, Roth SI (1974) An ultrastructural study of acid phosphatase activity in normal, adenomatous and hyperplastic (chief cell type) human parathyroid glands. Am J Pathol 77:493–506
Shoumura S, Ishizaki N, Emura S, Iwasaki Y, Yamahira T, Isono H (1988) Immunocytochemical localization of parathyroid hormone in rabbit parathyroid glands. Histol Histopathol 3:93–95
Smith RF, Farquhar MG (1966) Lysosomal function in the regulation of the secretory process in chief cells of the anterior pituitary gland. J Cell Biol 31:319–345
Thiele J (1980) Changes in the plasma membrane associated with endocrine activity. A thin section and freeze-fracture study on the human parathyroid chief cell. Virchows Arch [B] 34:219–237
Thiele J (1986) The human parathyroid chief cell - a model for a polypeptide hormone producing endocrine unit as revealed by various functional and pathological conditions. A thin section and freeze-fracture study. J Submicrosc Cytol 18:205–220
Varndell IM, Harris A, Tapia FJ, Yanaihara C, De Mey J, Bloom SR, Polak JM (1983) Intracellular topography of immunoreactive gastrin demonstrated using electron immunocytochemistry. Experientia 39:713–717
Varndell IM, Lloyd RV, Wilson BS, Polak JM (1985) Ultrastructural localization of chromogranin A: A potential marker for the electron microscopical recognition of endocrine cell secretory granules. Histochem J 17:981–992
Wilson BS, Phan SH, Lloyd RV (1986) Chromogranin from normal human adrenal glands: purification by monoclonal antibody affinity chromatography and partial N-terminal amino acid sequence. Regul Peptid 13:207–223
Zamboni L, De Martino C (1967) Buffered picric acid - formaldehyde: a new rapid fixative for electron microscopy. J Cell Biol 35:148–150
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Visiting research fellow from the Department of Histology and Embryology, IBM Academy of Medicine, Lodz, Poland
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Berger, G., Berger, F., Billard, F. et al. Storage and degradation of secretory proteins in adenomatous and secondary hyperplastic parathyroid cells. Vichows Archiv A Pathol Anat 415, 305–316 (1989). https://doi.org/10.1007/BF00718633
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DOI: https://doi.org/10.1007/BF00718633