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01-06-2014

C and APUD Cells and Endocrine Tumours. Pearse’s Laboratory in the Years 1965–1969: A Personal Recollection

Author: Gianni Bussolati

Published in: Endocrine Pathology | Issue 2/2014

Abstract

This paper is a personal recollection of the studies, conducted in Prof. Pearse’s laboratory in London in the years 1965–1969, which led to the discovery of production of calcitonin by parafollicular C cells and medullary carcinomas of the thyroid. The author’s intention is to underline the combination of technical excellence, brilliant intuition, dedication and serendipity which led to a series of major discoveries and, historically, established the pivotal role to be played by immunohistochemistry in endocrine research and diagnosis. The formulation of Pearse’s APUD cell theory gave a formal credence to the existence of common endocrine mechanisms, molecular markers and structural features in dispersed cells, all belonging to a diffuse endocrine system. This represented a major breakthrough which primed, in the following years, the studies on polypeptide hormone-producing cells and tumours, thus paving the way to the endocrine histology and pathology as we know, and practice them today.

Tock EP and Pearse AG. Preservation of tissue mucins by freeze-drying and vapour fixation. I. Light microscopy. J R Microsc Soc. 85:519-37, 1965.PubMedCrossRef

Copp DH and Cheney B. Calcitonin—a hormone from the parathyroid which lowers the calcium-level of the blood. Nature. 193:381-2, 1962.PubMedCrossRef

Foster GV, Macintyre I and Pearse AG. Calcitonin production and the mitochondrion-rich cells of the dog thyroid. Nature. 203:1029-30, 1964.PubMedCrossRef

Tremblay G. and Pearse A.G.E. Histochemistry of oxidative enzyme systems in the human thyroid, with special reference to Askanazy cells. J. Pathol. Bacteriol. 80; 353-358, 1960.PubMedCrossRef

Coons AH and Kaplan MH. Localization of antigen in tissue cells; improvements in a method for the detection of antigen by means of fluorescent antibody. J Exp Med. 91:1-13, 1950.PubMedCentralPubMedCrossRef

Baber EC. Contribution to the minute anatomy of the thyroid gland of the dog. Proc. Roy. Soc. London. 24: 240, 1876.CrossRef

Nonidez JF. The origin of the “parafollicular” cell, a second epithelial component of the thyroid of the dog. Am. J. Anat. 49: 479, 1932.CrossRef

Carvalheira AF, Pearse AG. Comparative cytochemistry of C cell esterases in the mammalian thyroid-parathyroid complex. Histochemie. 8:175-82, 1967.PubMedCrossRef

Carvalheira AF, Pearse AG. The cytology and cytochemistry of the “C” cells in the thyroid gland of the pig. J R Microsc Soc. 86:203-9, 1967.PubMedCrossRef

10.

Welsch U., Flitney FW and Pearse AGE. The fine structural localization of acetylcholinesterase in rabbit thyroid C cells and the effect of uptake of 5-hydroxytryptophan or dihydroxyphenylalanine in their morphology. Proc. Symp. on Thyrocalcitonin and C cells. Heineman ed. London. 1967. p. 167-179.

11.

Godwin MC. Complex IV in the dog with special emphasis on the relation of the ultimobranchial body to interfollicular cells in the postnatal thyroid gland. Am. J. Anat. 60: 299, 1937.CrossRef

12.

Pearse AG, Carvalheira AF. Cytochemical evidence for an ultimobranchial origin of rodent thyroid C cells. Nature. 214:929-30, 1967.PubMedCrossRef

13.

Copp DH, Cockcroft DW and Kueh Y. Calcitonin from ultimobranchial glands of dogfish and chickens. Science. 158:924-5, 1967.PubMedCrossRef

14.

Falck B, Larson B, Rosengren E and Svenaeus K. On the presence of a second specific cell system in mammalian thyroid gland. Acta Physiol Scand. 62:491-2, 1964.PubMedCrossRef

15.

Azzali G. Prime osservazioni al microscopio elettronico sulle cellule parafollicolari della tiroide. Boll. Soc. It. Biol. Sper. 38: 1319, 1962.

16.

Lacy PE and Davies J. Demonstration of insulin in mammalian pancreas by the fluorescent antibody method. Stain Technol. 34:85-9, 1959.PubMed

17.

Bussolati G and Pearse AG. Immunofluorescent localization of calcitonin in the ‘C’ cells of pig and dog thyroid. J Endocrinol. 37: 205-9, 1967.PubMedCrossRef

18.

Hargis GK, Williams GA, Tenenhouse A and Arnaud CD. Thyrocalcitonin: cytological localization by immunofluorescence. Science. 152: 73-5, 1966.PubMedCrossRef

19.

Kracht J, Hachmeister U, Breustedt H-J, Bonicke J and Lenke M. Histopathological investigation on C cells. Proc. Symp. On Thyrocalcitonin and C cells. Heineman ed. London. 1967. p. 143-151.

20.

Heidenhain A. Untersuchungen uber den Bau der Labdrusen. Arch. Mikr. Anat. 6; 368-406, 1870.CrossRef

21.

Erspamer V. and Asero B. Identification of enteramine, the specific hormone of the enterochromaffin cell system, as 5-hydroxytriptamine. Nature, 169; 800, 1952.PubMedCrossRef

22.

Masson P. Carcinoids (argentaffin-cell tumors) and nerve hyperplasia of the appendicular mucosa. Am J Pathol. 4:181-212, 1928.PubMedCentralPubMed

23.

Feyrter F. Zur Frage der Endokrinie des argyrophilen Helle-Zellen-Organs im menschlichen Bronchialbaum. Dtsch med Wochenschr 83:958-963, 1958.PubMedCrossRef

24.

Pearse AGE. Common cytochemical properties of cells producing polypeptide hormones, with particular reference to calcitonin and the thyroid C cells. Vet. Rec. 79: 587-90, 1966PubMedCrossRef

25.

Eranko O and Raisanen L. Cytophotometric study on the chromaffin reaction, the iodate reaction and formalin-induced fluorescence as indicators of adrenaline and noradrenaline concentrations in the adrenal medulla. J Histochem Cytochem. 9:54-8, 1961.PubMedCrossRef

26.

Carlsson A, Falck B, Hillarp NA and Torp A. Histochemical localization at the cellular level of hypothalamic noradrenaline. Acta Physiol Scand. 54:385-6, 1962.PubMedCrossRef

27.

Larson B, Owman C and Sundler F. Monoaminergic mechanisms in parafollicular cells of the mouse thyroid gland. Endocrinology. 78:1109-14, 1966.PubMedCrossRef

28.

Pearse AG. 5-Hydroxytryptophan uptake by dog thyroid ‘C’ cells, and its possible significance in polypeptide hormone production. Nature. 211:598-600, 1966.PubMedCrossRef

29.

Håkanson R, Lilja B and Owman C. Properties of a new system of amine-storing cells in the gastric mucosa of the rat. Eur J Pharmacol. 1:188-99, 1967.PubMedCrossRef

30.

Carvalheira AF, Welsch U and Pearse AG. Cytochemical and ultrastructural observations on the argentaffin and argyrophil cells of the gastro-intestinal tract in mammals, and their place in the APUD series of polypeptide-secreting cells. Histochemie. 14:33-46, 1968.PubMedCrossRef

31.

Pearse AG. Common cytochemical and ultrastructural characteristics of cells producing polypeptide hormones (the APUD series) and their relevance to thyroid and ultimobranchial C cells and calcitonin. Proc R Soc Lond B Biol Sci. 170: 71-80, 1968.PubMedCrossRef

32.

Pearse AG. The cytochemistry and ultrastructure of polypeptide hormone-producing cells of the APUD series and the embryologic, physiologic and pathologic implications of the concept. J. Histochem Cytochem. 17:303-13, 1969.PubMedCrossRef

33.

Le Douarin N. and Teillet M-A. Recherche sur le determinisme de la migration des cellules issues de la crete neurale. C.R. Acad. Sci. Paris 277; 1929-32, 1973.

34.

Hazard JB, Hawk WA and Crile G Jr. Medullary (solid) carcinoma of the thyroid; a clinicopathologic entity. J Clin Endocrinol Metab. 19:152-61, 1959.PubMedCrossRef

35.

Williams ED, Brown CL and Doniach I. Pathological and clinical findings in a series of 67 cases of medullary carcinoma of the thyroid. J Clin Pathol. 19:103-13, 1966.PubMedCentralPubMedCrossRef

36.

Williams E.D. Histogenesis of medullary carcinoma of the thyroid. J. Clin. Pathol. 19;114-8, 1966.PubMedCentralPubMedCrossRef

37.

Cunliffe WJ, Black MM, Hall R, Hudgson P, Shuster S, Johnson IDA, et al. Calcitonin-secreting thyroid carcinoma. Lancet. 2:63, 1968.CrossRef

38.

Milhaud G, Tubiana M, Parmentier C, Coutris G. Epithélioma de la thyroide secrétant de la thyrocalcitonine. CR Acad Sci [D] (Paris).266:608, 1968.

39.

Tubiana M, Milhaud G, Coutris G. et al. Medullary carcinoma and thyrocalcitonin. Brit Med J.3:87, 1968.CrossRef

40.

Melvin KEW and Tashjian AH. Syndrome of excessive thyrocalcitonin produced by medullary carcinoma of thyroid. Proc Nat Acad Sci. 59;1216, 1968.PubMedCentralPubMedCrossRef

41.

Gonzalez-Licea A, Hartmann WH and Yardley JH. Medullary carcinoma of the thyroid. Ultrastructural evidence of its origin from the parafollicular cell and its possible relation to carcinoid tumors. Am J Clin Pathol. 49(4):512-20, 1968.PubMed

42.

Braunstein H, Stephens CL and Gibson RL. Secretory granules in medullary carcinoma of the thyroid. Electron microscopic demonstration. Arch Pathol. 85:306-13, 1968.PubMed

43.

Meyer JS. Fine structure of two amyloid-forming medullary carcinomas of thyroid. Cancer 21:406-25, 1968.PubMedCrossRef

44.

Meyer JS and Abdel-Bari W. Granules and thyrocalcitonin-like activity in medullary carcinoma of the thyroid gland. New Eng J Med. 278:523, 1968.PubMedCrossRef

45.

Bussolati G, Foster GV, Clark MB, Pearse AG. Immunofluorescent localisation of calcitonin in medullary C-cell thyroid carcinoma, using antibody to the pure porcine hormone. Virchows Arch B Cell Pathol. 2:234-8, 1969.PubMed

46.

Szijj I, Csapó Z, László FA and Kovács K. Medullary cancer of the thyroid gland associated with hypercorticism. Cancer. 24:167-73, 1969.PubMedCrossRef

47.

Pearse AG. The APUD cell concept and its implications in pathology. Pathol Annu. 9:27-41, 1974.PubMed

Title: C and APUD Cells and Endocrine Tumours. Pearse’s Laboratory in the Years 1965–1969: A Personal Recollection
Author: Gianni Bussolati
Publication date: 01-06-2014
Publisher: Springer US
Published in: Endocrine Pathology / Issue 2/2014
Print ISSN: 1046-3976
Electronic ISSN: 1559-0097
DOI: https://doi.org/10.1007/s12022-014-9311-1

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