Summary
The effects of vitamin A-deprivation on the tracheal epithelium were studied in 35-day old hamsters that had been raised since birth on a vitamin A-deficient diet. Colchicine and3HTdR were given 6 hours before death and the proliferative activities of basal cells and mucous cells were quantified separately by3HTdR labeling indices and mitotic rates.
Vitamin A-deprivation decreased replication of basal cells and mucous cells in tracheal epithelium which showed minimal morphologic change. The mitotic rates and labeling indices were reduced 3 to 4-fold in basal cells and 14-fold in mucous cells (analyzed as percent of total number of each cell type) compared with controls. Thus, replication of mucous cells was more inhibited by lack of vitamin A, than replication of basal cells. The disparatehypoplasia of basal cells and mucous cells in epithelium showing minimal change, resulted in a relative increase in the proportion of basal cells and a relative decrease in the proportion of mucous cells, which could be erroneously interpreted as “basal cell hyperplasia”. Proportions of preciliated and ciliated cells were also decreased compared to controls.
At foci of stratification and epidermoid metaplasia, cell replication rates were increased over controls and more than 70% of all mitotic activity was associated with “non-basal” cells. Genesis of these lesions The opinions and assertions contained herein are the private views of the authors and are not to be construed official or as reflecting the views of the Department of Defense The experiments reported herein were conducted according to the principles set forth in the “Guide for the Care and Use of Laboratory Animals” Institute of Laboratory Animal Resources, National Research Council, DHSW Publ. No. 78-23
This is contribution No. 1554 from the Cellular Pathobiology Laboratory of the Department of Pathology, University of Maryland School of Medicine was coincident with cell death and cell loss. The histogenesis of stratification and epidermoid metaplasia was characterized. Morphological evidence indicated that these lesions were closely related histogenetically and were composed, for the most part, of altered mucous cells which expressed dual phenotypes i.e. keratinization and mucus synthesis.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Anzano MA, Olson JA, Lamb AJ (1980) Morphologic alterations in the trachea and the salivary gland following the induction of rapid synchronous vitamin A deficiency in rats. Am J Pathol 98:717–732
Barrett LA, McDowell EM, Frank AL, Harris CC, Trump BF (1976) Long-term organ culture of human bronchial epithelium. Cancer Res 36:1003–1010
Becci PJ, McDowell EM, Trump BF (1978) The respiratory epithelium. IV. Histogenesis of epidermoid metaplasia and carcinoma in situ in the hamster. J Natl Cancer Inst 61:577–586
Boren HG, Paradise LJ (1978) Cytokinetics of lung. In: Harris CC (ed). Pathogenesis and therapy of lung cancer. Marcel Dekker, New York, pp 369–418
Boren HG, Pauley J, Wright EC, Kaufman DG, Smith JM, Harris CC (1974) Cell populations in the hamster tracheal epithelium in relation to vitamin A status. Int J Vit Nutr Res 44:382–390
Chopra DP (1982) Squamous metaplasia in organ culture of vitamin A-deficient hamster trachea: Cytokinetic and ultrastructural alterations. J Natl Cancer Inst 69:895–905
Chopra DP (1983) Cell dynamics in expiants derived from tracheas of hamsters fed normal and vitamin A-deficient diets. Cell Tissue Kinet 16:155–165
Condon WB (1942) Regeneration of tracheal and bronchial epithelium. J Thoracic Surg 11:333–345
Ganguly J, Jayaram M (1975) Possible systemic mode of action of vitamin A. In: Talwar GP (ed). Regulation of growth and differentiated function in eukaryote cells. Raven Press, New York, pp 287–293
Ganguly J, Sarada K, Murthy SK, Kumar TCA (1978) Some recent observations on the systemic mode of action of vitamin A. Curr Sci 47:292–295
Glaumann H, Ericsson JLE, Marzella L (1981) Mechanisms of intralysosomal degradation with special reference to autophagocytosis and heterophagocytosis of cell organelles. Int Rev Cytol 73:149–182
Gordon RE, Lane BP (1977) Cytokinetics of rat tracheal epithelium stimulated by mechanical trauma. Cell Tissue Kinet 10:171–181
Harris CC, Silverman T, Smith JM, Jackson F, Boren HG (1973) Proliferation of tracheal epithelial cells in normal and vitamin A deficient Syrian golden hamsters. J Natl Cancer Inst 51:1059–1062
Harris CC, Sporn MB, Kaufman DG, Smith JM, Jackson FE, Saffiotti U (1972) Histogenesis of squamous metaplasia in the hamster tracheal epithelium caused by vitamin A deficiency or benzo[a]pyrene-ferric oxide. J Natl Cancer Inst 48:743–761
Heckman CA, Marchok AC, Nettesheim P (1978) Respiratory tract epithelium in primary culture: Concurrent growth and differentiation during establishment. J Cell Sci 32:269–291
Keenan KP, Combs JW, McDowell EM (1982a) Regeneration of hamster tracheal epithelium after mechanical injury. I. Focal lesions: Quantitative morphologic study of cell proliferation. Virchows Arch [Cell Pathol] 41:193–214
Keenan KP, Combs JW, McDowell EM (1982b) Regeneration of hamster tracheal epithelium after mechanical injury. II. Multifocal lesions: Stathmokinetic and autoradiographic studies of cell proliferation. Virchows Arch [Cell Pathol] 41:215–229
Keenan KP, Combs JW, McDowell EM (1982c) Regeneration of hamster tracheal epithelium after mechanical injury. III. Large and small lesions: Comparative stathmokinetic and single pulse and continuous thymidine labeling autoradiographic studies. Virchows Arch [Cell Pathol] 41:231–252
Keenan KP, Wilson TS, McDowell EM (1983) Regeneration of hamster tracheal epithelium after mechanical injury. IV. Histochemical, immunocytochemical and ultrastructural studies. Virchows Arch [Cell Pathol] 43:213–240
Klein-Szanto AJP, Topping DC, Heckman CA, Nettesheim P (1980) Ultrastructural characteristics of carcinogen-induced dysplastic changes in tracheal epithelium. Am J Pathol 98:83–100
Kopriwa BM (1967) A semiautomatic instrument for the radioautographic coating technique. J Histochem Cytochem 14:923–928
Lane BP, Gordon RE (1979) Regeneration of vitamin A deficient rat tracheal epithelium after mild mechanical injury. Differentiation 14:87–93
McDowell EM, Becci PJ, Schürch W, Trump BF (1979) The respiratory epithelium. VII. Epidermoid metaplasia of hamster tracheal epithelium during regeneration following mechanical injury. J Natl Cancer Inst 62:995–1008
McDowell EM, Combs JW, Newkirk C (1983) A quantitative light and electron microscopic study of hamster tracheal epithelium with special attention to so-called “intermediate cells”. Exp Lung Res 4:205–226
McDowell EM, Keenan KP, Huang M (1984) Restoration of mucociliary tracheal epithelium following deprivation of vitamin A: A quantitative morphologic study. Virchows Arch [Cell Pathol] 45:221–240
Mitchell DP, Gusterson BA (1982) Simultaneous demonstration of keratin and mucin. J Histochem Cytochem 30:707–709
Neely JE, Combs JW (1976) Variation in the autoradiographic technique. I. Emulsion developer combinations assessed by photometric measurement of single silver grains. J Histochem Cytochem 24:1057–1064
Port CD, Baxter DW, Harris CC (1974) Surface morphology of tracheal epithelium in vitamin A deficiency and reversal. In: Karbe E, Park JF (eds). Experimental lung cancer carcinogenesis and bioassays. Springer, Berlin Heidelberg New York Tokyo, pp 257–264
Ruddell CL (1967) Epoxy media for 1–2 micron sectioning. Stain Technol 42:253–255
Schlegel R, Banks-Schlegel S, Pinkus GS (1980) Immunohistochemical localization of keratin in normal human tissues. Lab Invest 42:91–96
Sherman BS (1961) The effect of vitamin A on epithelial mitosis in vitro and in vivo. J Invest Dermatoi 37:469–480
Sorokin SP, Hoyt RF (1978) PAS-lead hematoxylin as a stain for small-granule endocrine cell populations in the lungs, other pharyngeal derivatives and the gut. Anat Rec 192:245–259
Sporn MB (1977) Retinoids and carcinogenesis. Nutrition Rev 35:65–69
Thiery JP (1967) Mise en evidence des polysaccharides sur coupes fines en microscopie electronique. J Microscopie 6:987–1041
Trump BF, McDowell EM, Glavin F, Barrett LA, Becci PJ, Schürch W, Kaiser HE, Harris CC (1978) The respiratory epithelium. III. Histogenesis of epidermoid metaplasia and carcinoma in situ in the human. J Natl Cancer Inst 61:563–575
Wilhelm DL (1953) Regeneration of tracheal epithelium. J Pathol Bact 65:543–550
Wilhelm DL (1954) Regeneration of the tracheal epithelium in the vitamin A-deficient rat. J Pathol Bact 67:361–365
Wolbach SB, Howe PR (1925) Tissues changes following deprivation of fat-soluble A vitamin. J Exp Med 42:753–777
Wolbach SB, Howe PR (1928) Vitamin A deficiency in the guinea pig. Arch Pathol 5:239–253
Wong YC, Buck RC (1971) An electron microscopic study of metaplasia of the rat trachéal epithelium in vitamin A deficiency. Lab Invest 24:55–66
Zile MH, Bunge EC, DeLuca HF (1977) Effect of vitamin A deficiency on intestinal cell proliferation in the rat. J Nutr 107:552–560
Zile MH, Bunge EC, DeLuca HF (1979) On the physiological basis of vitamin A-stimulated growth. J Nutr 109:1787–1796
Zile MH, Bunge EC, DeLuca HF (1981) DNA labeling of rat epithelial tissues in vitamin A deficiency. J Nutr 111:777–788
Author information
Authors and Affiliations
Additional information
The experiments reported herein were conducted according to the principles set forth in the “Guide for the Care and Use of Laboratory Animals” Institute of Laboratory Animal Resources, National Research Council, DHSW Publ. No. 78-23
This is contribution No. 1554 from the Cellular Pathobiology Laboratory of the Department of Pathology, University of Maryland School of Medicine
This work was supported in part by USPHS NIH Grant HL# 24722
Rights and permissions
About this article
Cite this article
McDowell, E.M., Keenan, K.P. & Huang, M. Effects of vitamin A-deprivation on hamster tracheal epithelium. Virchows Archiv B Cell Pathol 45, 197–219 (1984). https://doi.org/10.1007/BF02889865
Received:
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF02889865