Abstract
Recent studies in fetal lung using immunological and molecular probes have revealed type I and type II cell phenotypic markers in primordial lung epithelial cells prior to the morphogenesis of these cell types. We have recently developed monoclonal antibodies specific for adult type I cells. To evaluate further the temporal appearance of the type I cell phenotype during alveolar epithelial cell ontogeny, we analyzed fetal lung development using one of our monoclonal antibodies (mAb VIII B2). The epitope recognized by mAb VIII B2 first appears in the canalicular stage of fetal lung development, at approx. embryonic day 19 (E19), in occasional, faintly stained tubules. Staining with this type I cell probe becomes more intense and more widespread with increasing gestational age, during which time the pattern of staining changes. Initially, all cells of the distal epithelial tubules are uniformly labelled along their apical and basolateral surfaces. As morphological differentiation of the alveolar epithelium proceeds, type I cell immunoreactivity appears to become restricted to the apical surface of the primitive type I cells in a pattern approaching that seen in the mature lung. We concurrently analyzed developing fetal lung with an antiserum to surfactant apoprotein-A (α-SP-A). Consistent with the findings of others, labeling of SP-A was first detectable in scattered cuboidal cells at E18. Careful examination of the doublelabeled specimens suggested that some cells were reactive with both the VIII B2 and SP-A antibodies, particularly at E20. Confocal microscopic analysis of such sections from E20 lung confirmed this impression. Three populations of cells were detected: cells labeled only with α-SP-A, cells labeled only with mAb VIII B2, and a smaller subset of cells labeled by both. We conclude that: (1) binding of mAb VIII B2 may be a marker of late (possibly terminal) type I cell differentiation; (2) it is likely to recognize a different epitope from another published type I cell mAb (SF-1), since mAb VIII B2 epitope appears at a much later developmental age; and (3) cells may co-express both type II (SP-A) and type I (mAb VIII B2 epitope) cell differentation antigens.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Adamson YR, Bowden DH (1974) The type II cell as progenitor of epithelial regeneration. A cytodynamic study in mice after exposure to oxygen. Lab Invest 30:35–42
Adamson YR, Bowden DH (1975) Derivation of type I cells from type II cells in the developing rat lung. Lab Invest 32:738–745
Bertalanffy F (1964) Respiratory tissue: structure, histopathology, cytodynamics, part I. Review and basic cytomorphology. Int Rev Cytol 16:233–328
Brody JS, Williams MC (1992) Pulmonary alveolar epithelial cell differentiation. Annu Rev Physiol 54:351–357
Crapo JD, Barry BE, Gehr P, Bachofen M, Weibel ER (1982) Cell number and cell characteristics of the normal human lung. Am Rev Respir Dis 125:332–337
Danto SI, Zabski SM, Crandall ED (1992) Reactivity of alveolar epithelial cells in primary culture with type I cell monoclonal antibodies. Am J Respir Cell Mol Biol 6:296–306
Dobbs LG, Mason RJ (1979) Pulmonary alveolar type II cells isolated from rats. Release of phosphatidylcholine in response to β-adrenergic stimulation. J Clin Invest 63:378–387
Evans MJ, Cabral RL, Stephens RJ, Freeman G (1973) Renewal of alveolar epithelia in the rat following exposure to NO2. Am J Pathol 70:175–190
Fisher A, Furia L, Berman H (1980) Metabolism of rat granular pneumocytes isolated in primary culture. J Appl Physiol 49:743–750
Hebel R, Stromberg MW (1986) Anatomy and embryology of the laboratory rat. BioMed-Verlag, Worthsee, Germany
Jiang X, Tangada S, Peterson RDA, Funkhouser JD (1992) Expression of aminopeptidase N in fetal rat lung during development. Am J Physiol 263:460–465
Joyce-Brady MF, Brody JS (1990) Ontogeny of pulmonary alveolar epithelial markers of differentiation. Dev Biol 137:331–348
Kikkawa Y, Kaibara M, Motoyama EK, Orzalesi MM, Cook CD (1971) Morphologic development of fetal rabbit lung and its acceleration with cortisol. Am J Pathol 64:423–442
Kikkawa Y, Yoneda K, Smith F, Packard B, Suzuki K (1975) The type II epithelial cells of the lung, number, chemical composition and phopholipid synthesis. Lab Invest 32:295–302
Lwebuga-Mukasa JS (1991a) Identification of pneumocin, a developmentally regulated apical membrane glycoprotein in rat lung type II and Clara cells. Am J Respir Cell Mol Biol 4:489–496
Lwebuga-Mukasa JS (1991b) Isolation and partial characterization of pneumocin, a novel apical membrance surface glycoprotein marker of rat type II cells. Am J Respir Cell Mol Biol 4:479–488
Mason RJ, William MC, Greenleaf RD, Clements JA (1977) Isolation and properties of type II alveolar cells from rat lung. Am Rev Respir Dis 115:1015–1026
Mercurio AR, Rhodin JAG (1976) An electron microscopic study on the type I cell in the cat: differentiation. Am J Anat 146:255–272
O'Hare KH, Sheridan MN (1970) Electron microscopic observations on the morphogenesis of the albino rat lung, with special reference to pulmonary epithelial cells. Am J Anat 127:181–206
O'Hare KH, Townes PL (1970) Morphogenesis of albino rat lung: an autoradiographic analysis of the embryological origin of type I and II pulmonary epithelial cells. J Morphol 132:69–88
Phelps DS, Floros J (1991) Localization of pulmonary surfactant proteins using immunohistochemistry and tissue in situ hybridization. Exp Lung Res 17:985–995
Rishi AK, Joyce-Brady M, Fisher JM, Dobbs LG, Floros J, Williams MC (1992) Cloning and characterization of a novel rat lung mRNA. Mol Biol Cell 3:204a
Schellhase DE, Emrie PA, Fisher JH, Shannon JM (1989) Ontogeny of surfactant apoproteins in the rat. Ped Res 26:167–174
Shimizu H, Miyamura K, Kuroki Y (1991) Appearance of surfactant proteins, SP-A and SP-B, in developing rat lung and the effects of in vivo dexamethasone treatment. Biochim Biophys Acta 1081:53–60
Snyder JM, Magliato SA (1991) An ultrastructural, morphometric analysis of rabbit fetal lung type II cell differentiation in vitro. Anat Rec 229:73–85
Snyder JM, Mendelson CR (1987) Induction and characterization of the major surfactant apoprotein during rabbit fetal lung development. Biochim Biophys Acta 920:226–236
Ten Have-Opbroek AAW (1981) The development of the lung in mammals: an analysis of concepts and findings. Am J Anat 162:201–219
Wang NS, Taeusch HW, Thurlbeck WM, Avery ME (1973) A combined scanning and transmission electron microscopic study of alveolar epithelial development in the fetal rabbit lung. Am J Pathol 73:365–376
Weibel ER, Gehr P, Haies D, Gil J, Bachofen M (1976) The cell population of the normal lung. In: Bouhuys A (ed) Lung cells in disease. Elsevier/North-Holland, Amsterdam, pp 3–16
Whitsett JA, Weaver T, Hall W, Ross G, Dion C (1985) Synthesis of surfactant-associated glycoprotein A by rat type II epithelial cells. Primary translation products and post-translational modification. Biochim Biophys Acta 828:162–171
Williams MC (1977) Development of the alveolar structure of the fetal rat in late gestation. Fed Proc 36:2653–2659
Williams MC, Dobbs LG (1990) Expression of cell-specific markers for alveolar epithelium in fetal rat lung. Am J Respir Cell Mol Biol 2:533–542
Wohlford-Lenane CL, Durham PL, Snyder JM (1992) Localization of surfactant-associated protein C (SP-C) in fetal rabbit tissue by in situ hybridization. Am J Respir Cell Mol Biol 6:225–234
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Danto, S.I., Zabski, S.M. & Crandall, E.D. Late appearance of a type I alveolr epithelialar cell marker during fetal rat lung development. Histochemistry 102, 297–304 (1994). https://doi.org/10.1007/BF00269166
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF00269166