Summary
The development of the rat adrenal medulla was studied at the ultrastructural level with particular emphasis placed on early discrimination of different catecholamine-storing cells. The first granule-containing cells, phaeochromoblasts, were seen at day 15 of gestation migrating into the anlage of the cortex. These cells were characterized by a few small granules (80–120 nm in diameter) and a high nuclear to cytoplasmic ratio. Presumably due to differentiation into chromaffin cells, they were no longer present after the eighth postnatal day. Maturation of phaeochromoblasts was indicated by an increase in number and size of their storage granules and a decrease in the nuclear to cytoplasmic ratio. Noradrenaline and adrenaline cell types were first clearly discernible at day 21 of gestation. Another cell type, a giant cell, was also recognized at this stage. In the adult animal, noradrenaline, two morphologically different types of adrenaline, and small granule-containing cells were observed.
By applying acetylcholinesterase histochemistry, it was found that at day 17 of gestation a small population of granule-storing cells showed strong positive staining in the endoplasmic reticulum. In the adult animal this cell type was further characterized by small-storage granules. Other chromaffin cells began to show weak staining within the endoplasmic reticulum at day 19 of gestation. This staining appeared more frequently within adrenaline than noradrenaline cells. However, even in the adult animal many cells of both types were completely negative.
It is concluded that acetylcholinesterase histochemistry is a useful method for early discrimination of small granule-containing cells in the developing rat adrenal medulla.
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References
Abrahams SJ, Holtzman E (1973) Secretion and endocytosis in insulin — stimulated rat adrenal medulla cells. J Cell Biol 56:540–558
Benedeczky I, Somogyi P (1975) Ultrastructure of the adrenal medulla of normal and insulin treated hamsters. Cell Tissue Res 162:541–550
Cheoux G, Roffi S (1965) Dosage de l'adrénaline et de le noradrénaline dans les surrénales du foetus et du nouvau né de Rat. CR Acad Sci Paris 260:6702–6705
Coupland RE (1965a) The natural history of the chromaffin cell. Longmans, London
Coupland RE (1965b) Electron microscopic observations on the structure of the rat adrenal medulla. I. The ultrastructure and organization of chromaffin cells in the normal adrenal medulla. J Anat 99:231–254
Coupland RE (1965c) Electron microscopic observations on the structure of the rat adrenal medulla. II. Normal innervation. J Anat 99:255–272
Coupland RE (1975) Blood supply of the adrenal gland. In: Blaschko H, Sayers G, Smith AD (eds) Handbook of Physiology Section 7, Vol VI. American Physiological Society Ed, Washinton, pp 283–294
Coupland RE, Hopwood D (1966) Mechanism of a histochemical reaction differentiating between noradrénaline and adrenaline storing cells in the microscope. Nature 209:590–591
Coupland RE, Selby JE (1976) The blood supply of the mammalian adrenal medulla: a comparative study. J Anat 22:539–551
Coupland RE, Kent C, Kobayashi S (1977a) Small-granule chromaffin cells of rodent adrenal medulla; Effects of insulin hypoglycaemia and amine turnover after 3H-dopa. Acta Anat 99:336
Coupland RE, Kobayashi S, Thomlinson A (1977b) On the presence of small granule chromaffin cells in the rodent adrenal medulla. Proc Anat Soc Grt Brit and Ire 12
Daikoku S, Kinutani M, Sako M (1977) Development of the adrenal medullary cells in rats with reference to synaptogenesis. Cell Tissue Res 179:77–86
Diner O (1965) Observations sur le développement de la médullo-surrénale du rat: l'évolution de la partie non chromaffine. Arch Anat Microsc 54:671–718
Elfvin LG (1967) The development of the secretory granules in the rat adrenal medulla. Ultrastruct Res 17:45–62
El-Maghraby M, Lever JD (1980) Typification and differentiation of medullary cells in the developing rat adrenal. A histochemical and electron microscopic study. J Anat 131:103–120
Eränkö O (1958) Differential demonstration of acetylcholinesterase and non specific cholinesterase in the adrenal medulla of the rat. Nature (Lond) 182:183–184
Gorgas K, Böck P (1976) Morphology and histochemistry of the adrenal medulla. 1. Various types of catecholamine-storing cells in the mouse adrenal medulla. Histochem J 50:17–31
Grynszpan-Winograd O (1974) Adrenaline and noradrenaline cells in the adrenal medulla of the hamster; a morphological study of their innervation. J Neurocytol 3:341–361
Jessen KR, Chubb IW, Smith AD (1978) Intracellular localization of acetylcholinesterase in nerve terminals and capillaries of the rat superior cervical ganglion. J Neurocytol 7:145–154
Kajihara H, Akimoto T, Lijima S (1978) On the chromaffin cells in dog adrenal medulla; with special reference to the small granule chromaffin cells (SGC cells). Cell Tissue Res 191:1–14
Kasa P, Csillik B (1966) Electron microscopic localisation of cholinesterase by copper-lead thiocholine technique. J Neurochem 13:1345–1349
Kasa P, Csernovsky E (1967) Electron microscopic localization of acetylcholinesterase in the superior cervical ganglion of the rat. Acta Histochem 28:274–285
Kobayashi S, Coupland RE (1977) Two populations of microvesicles in the SCG (small granule chromaffin) cells of the mouse adrenal medulla. Arch Histol Jpn 40:251–259
Kobayashi S, Serizawa Y (1979) Stress induced degranulation accompanied by vesicle formation in the adrenal chromaffin cell of the mouse. Arch Histol Jpn 42:375–388
Kobayashi S, Serizawa Y, Fujita T, Coupland RE (1978) SGC (Small Granule Chromaffin) cells in the mouse adrenal medulla: light and electron microscopic identification using semi-thin and ultra-thin sections. Endocrinol Jpn 25:467–476
Koelle GB, Friedenwald JS (1949) A histochemical method for localizing cholinesterase activity. Proc Soc Exp Biol Med 70:617–622
Lever JD (1955) Electron microscopic observations on the normal and denervated adrenal medulla of the rat. Endocrinology 57:621–635
Lewis PR, Shute CCD (1969) An electron microscopic study of cholinesterase distribution in the rat adrenal medulla. J Microsc 89:181–193
Lundberg JM, Hamberger B, Schultzberg M, Hökfelt T, Granberg PO, Efendics S, Terenius L, Goldstein M, Luft R (1979) Enkephalin- and somatostatin-like immunoreactivities in human adrenal medulla and pheochromocytoma. Proc Natl Sci 76:4079–4083
Palkama A (1967) Demonstration of adrenal medullary catecholamines and cholinesterases at electron microscopic level in the same tissue section. Annals Med Exp Biol Fenn 45:295–306
Papka RE (1975) Localization of acetylcholinesterase in granule-containing cells of glomus-like bodies in pre- and postnatal rabbits by electron microscopy. Cell Tissue Res 162:185–194
Ratzenhofer M, Müller O (1967) Ultrastructure of adrenal medulla of the prenatal rat. J Embryol Exp Morphol 18:13–25
Reynolds ES (1963) The use of lead citrate at high pH as an electron-opaque stain in electron microscopy. J Cell Biol 17:208–212
Schultzberg M, Hökfelt T, Lundberg JM, Terenius L, Elfvin L-G, Elde R (1978) Enkephalin-like immunoreactivity in nerve terminals in sympathetic ganglia and adrenal medulla and in adrenal medullary gland cells. Acta Physiol Scand 103:475–477
Shepherd DM, West GB (1951) Noradrenaline and the suprarenal medulla. Br J Pharmacol 6:665–672
Singh I (1964) A modification of the Masson-Hamperl method for staining argentaffin cells. Anat Anz 115:81–82
Smitten NA (1965) Cytological and ultrastructural pattern of the secretory activity of adrenomedullary cells. Arch Anat Microsc 54:145–162
Somogyi P, Chubb IW, Smith AD (1975) A possible structural basis for the extracellular release of acetylcholinesterase. Proc R Soc Lond 191:271–283
Taxi S (1979) The chromaffin and chromaffin like cells in the autonomie nervous systems. Int Rev Cytol 57:283–343
Teitelman G, Baker H, Joh TH, Reis PJ (1979) Appearance of catecholamine synthesizing enzymes during development of the sympathetic nervous system. Possible effects of the environment. Proc Natl Acad Sci 76:509–513
Unsicker K (1973) Fine structure and innervation of the avian adrenal gland. Z Zellforsch 145:389–416
Unsicker K (1976) Chromaffin, small granule-containing and ganglion cells in the adrenal gland of reptiles. A comparative ultrastructural study. Cell Tissue Res 165:477–508
Unsicker K, Chamley JH (1977) Growth characteristics of postnatal rat adrenal medulla in culture. Cell Tissue Res 177:247–268
Unsicker K, Habura-Flüh, Zwang U (1978) Different types of small granule-containing cells and neurons in the guinea-pig adrenal medulla. Cell Tissue Res 189:109–130
Unsicker K, Limmeroth-Erwert B, Otten U, Lindmar R, Löffelholz K, Wolf U (1979) Short- and longterm effects of vinblastine on the rat adrenal medulla. Cell Tissue Res 196:291–287
Verhofstad AAS, Hökfelt T, Goldstein M, Steinbusch HWM, Joosten HWJ (1979) Appearance of tyrosinehydroxylase, aromatic amino-acid decarboxylase, dopamine ε-hydroxylase and phenyl-ethylamine N-methyltransferase during ontogenesis of the adrenal medulla. Cell Tissue Res 210:1–13
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Millar, T.J., Unsicker, K. Catecholamine-storing cells in the adrenal medulla of the pre- and postnatal rat. Cell Tissue Res. 217, 155–170 (1981). https://doi.org/10.1007/BF00233834
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DOI: https://doi.org/10.1007/BF00233834