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Lung maturation

Published online by Cambridge University Press:  11 October 2007

Robert Hume ,
Christine Conner  and
Mhairi Gilmour
Robert Hume
Affiliation:
Departments of Child Health, Obstetrics and Gynaecology and Biochemical Medicine, University of Dundee Medical School, Ninewells Hospital, Dundee, DD1 9SY
Christine Conner
Affiliation:
Departments of Child Health, Obstetrics and Gynaecology and Biochemical Medicine, University of Dundee Medical School, Ninewells Hospital, Dundee, DD1 9SY
Mhairi Gilmour
Affiliation:
Departments of Child Health, Obstetrics and Gynaecology and Biochemical Medicine, University of Dundee Medical School, Ninewells Hospital, Dundee, DD1 9SY
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Abstract

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Type
Regulatory Factors in the Control of Development and Maturation
Information
Proceedings of the Nutrition Society , Volume 55 , Issue 1B , March 1996 , pp. 529 - 542
Copyright
Copyright © The Nutrition Society 1996

References

Accaregui, M. J., Snyder, J. M., Mitchell, M. D. & Mendelson, C. R. (1990). Prostaglandins regulate surfactant protein A (SP-A) gene expression in human fetal lung in vitro. Endocrinology 127, 11051113.Google Scholar
Albelda, S. M. & Buck, C. A. (1990). Integrins and other cell adhesion molecules. FASEB Journal 4, 28682880.Google Scholar
Ballard, P. L., Gonzales, L. W., Williams, M. C., Roberts, J. M. & Jacoobs, M. M. (1991). Differentiation of type II cells during explant culture of human fetal lung is accelerated by endogenous prostanoids and adenosine 3,5-monophosphate. Endocrinology 128, 29162924.CrossRefGoogle ScholarPubMed
Barker, D. J. (1992). The effect of nutrition of the fetus and neonate on cardiovascular disease in adult life. Proceedings of the Nutrition Society 51, 135144.CrossRefGoogle ScholarPubMed
Beech, D. J., Sibbons, P. D., Howard, C. V. & van Velzen, D. (1995). Absolute terminal bronchiolar duct number in lungs and SIDS and IUGR. Journal of Developmental Physiology 20, 199201.Google Scholar
Brauker, J. H., Trautman, M. S. & Bernfield, M. (1991). Syndecan, a cell surface proteoglycan, exhibits a molecular polymorphism during lung development. Developmental Biology 147, 285292.CrossRefGoogle ScholarPubMed
Connelly, I. H., Hammond, G. L., Harding, P. G. & Possmayer, F. (1991). Levels of surfactant-associated protein messenger ribonucleic acids in rabbit lung during perinatal development and after hormonal treatment. Endocrinology 129, 25832591.CrossRefGoogle ScholarPubMed
Cossar, D., Bell, J., Lang, M. & Hume, R. (1993). Development of human fetal lung in organ culture compared with in utero ontogeny. In Vitro Cellular and Developmental Biology 29A, 319324.CrossRefGoogle ScholarPubMed
Davenport, J. L., D'Ercole, A. J., Azizkhan, J. C. & Lund, P. K. (1987). Somatomedin-CC/insulin-like growth factor I (Sm-C/IGF-I) and insulin-like growth factor II (IGF-II) mRNAs during lung development in the rat. Experimental Lung Research 14, 607618.Google Scholar
Dekowski, S. A. & Snyder, J. M. (1992). Insulin regulation of messenger ribonucleic acid for the surfactant-associated proteins in human fetal lung in vitro. Endocrinology 131, 669676.Google ScholarPubMed
Endo, H. & Oka, T. (1991). An immunohistochemical study of bronchial cells producing surfactant protein A in the developing human fetal lung. Early Human Development 25, 149156.Google Scholar
Gatherer, D., Dijke, P. T., Baird, D. T. & Akhurst, R. J. (1990). Expression of TGF-β isoforms during first trimester human embryogenesis. Development 110, 445460.Google Scholar
Gaunt, S. J., Krumlauf, R. & Duboule, D. (1989). Mouse homeo-genes within a subfamily, Hox-1.4,-2. 6 and-5. 1, display similar anteroposterior domains of expression in the embryo, but show stage-and tissue-dependent differences in their regulation. Development 107, 131141.CrossRefGoogle ScholarPubMed
Gavin, B. J., McMahan, J. A. & McMahon, A. P. (1990). Expression of multiple novel Wnt-1/int-l-related genes during fetal and adult mouse development. Genes and Development 4, 23192332.CrossRefGoogle ScholarPubMed
Gluckman, P. D., Ballard, P. I., Kaplan, S. L., Liggins, G. C. & Grumbach, M. M. (1978). Prolactin in umbilical cord blood and the respiratory distress syndrome. Journal of Pediatrics 93, 10111014.CrossRefGoogle ScholarPubMed
Gospodarowicz, D. (1990). Fibroblast growth factor and its involvement in developmental processes. Current Topics in Developmental Biology 24, 5793.Google Scholar
Graham, A., Papolopulu, N. & Krumlauf, R. (1989). The murine and Drosophila homeobox gene complexes have common features of organization and expression. Cell 57, 367378.CrossRefGoogle ScholarPubMed
Gross, I. (1990). Regulation of fetal lung maturation. American Journal of Physiology 259, L337L344.Google ScholarPubMed
Hansbrough, J. R., Fine, S. M. & Gordon, J. I. (1993). A transgenic mouse model for studying the lineage relationships and differentiation program of type II pneumocytes at various stages of lung development. Journal of Biological Chemistry 268, 97629770.CrossRefGoogle ScholarPubMed
Harding, J. E. (1996). Consequences of experimental manipulation of perinatal nutrition. Journal of Developmental Physiology (In the Press).Google Scholar
Harding, R., Bocking, A. D. & Sigger, J. N. (1986). Upper airway resistances in fetal sheep: the influence of breathing activity. Journal of Applied Physiology 60, 160165.Google Scholar
Heine, U. I., Munoz, E. F., Flanders, K. C., Roberts, A. B. & Sporn, M. B. (1990). Colocalisation of TGF-beta 1 and collagen I and III, fibronectin and glycosaminoglycans during lung branching morphogenesis. Development 109, 2936.Google Scholar
Hirai, Y., Nose, A., Kobayashi, S. & Takeichi, M. (1989). Expression and role of E-and P-cadherin adhesion molecules in embryonic histogenesis. Development 105, 263270.Google Scholar
Hirning, U., Schmid, P., Schulz, W. A., Rettenberger, G. & Hameister, H. (1991). A comparative analysis of N-myc and c-myc expression and cellular proliferation in mouse organogenesis. Mechanisms of Development 33, 119126.Google Scholar
Hislop, A. & Reid, L. (1974). Development of the acinus in the human lung. Thorax 29, 9094.Google Scholar
Hislop, A. A., Wigglesworth, J. S. & Desai, R. (1986). Alveolar development in the human fetus and infant. Early Human Development 13, 111.CrossRefGoogle ScholarPubMed
Hooper, S. B., Han, V. K. M. & Harding, R. (1993). Changes in lung expansion after pulmonary DNA synthesis and IGF-II gene expression in fetal sheep. American Journal of Physiology 265, L403L409.Google Scholar
Hume, R., Bell, J., Gourlay, M., Giles, M., Hallas, A., Cossar, D. & Kelly, R. (1993). Prostaglandin production and metabolism in self-differentiating human fetal lung organ culture. Experimental Lung Research 19, 361376.Google Scholar
Hume, R., Cossar, D., Kelly, R., Giles, M., Hallas, A., Gourlay, M. & Bell, J. (1992). Prostaglandins PGE2 and PGF in human fetal lung: immunohistochemistry and release from organ culture. Experimental Lung Research 18, 259273.Google Scholar
Hume, R., Kelly, R., Cossar, D., Giles, M., Hallas, A., Gourlay, M. & Bell, J. (1991). Self-differentiation of human fetal lung in organ culture: the role of prostaglandins PGE2 and PGF. Experimental Cell Research 194, 111117.CrossRefGoogle Scholar
King, K. A., Hua, J., Torday, J. S., Drazen, J. M., Graham, S. A., Shipp, M. A. & Sunday, M. E. (1993). CD10/neutral endopeptidase 24. 11 regulates fetal lung growth and maturation in utero by potentiating endogenous bombesin-like peptides. Journal of Clinical Investigation 91, 19691973.Google Scholar
Klein, J. M. & Nielsen, H. C. (1993). Androgen regulation of epidermal growth factor receptor binding activity during fetal rabbit lung development. Journal of Clinical Investigation 91, 425431.CrossRefGoogle ScholarPubMed
Klempt, M., Hutchins, A.-M., Gluckman, P. D. & Skinner, S. J. M. (1992). IGF binding protein-2 gene expression and the location of IGF-1 and IGF-II in fetal rat lung. Development 115, 765772.Google Scholar
Leslie, C. C., McCormick-Shannon, K. K. & Mason, R. J. (1990). Heparin binding growth factors stimulate DNA synthesis in rat alveolar type II cells. American Journal of Respiratory Cell and Molecular Biology 2, 99106.Google Scholar
Levay-Young, B. K. & Navre, M. (1992). Growth and development regulation of wnt-2 (irp) gene in mesenchymal cells of fetal lung. American Journal of Physiology 262, L672L683.Google ScholarPubMed
Liggins, G. C. (1969). Premature delivery of foetal lambs infused with glucocorticoids. Endocrinology 45, 515523.CrossRefGoogle ScholarPubMed
Liley, H. G., White, R., Warr, R., Benson, B. J. & Ballard, P. L. (1989). Regulation of messenger. RNAs for the hydrophobic surfactant proteins in human lung. Journal of Clinical Investigation 83, 11911197.Google Scholar
McGowan, S. E. (1992). Influences of endogenous and exogenous TGF-beta on elastin in rat lung fibroblasts and aortic smooth muscle cells. American Journal of Physiology 263, L257L263.Google Scholar
Mendelson, C. R. & Boggaram, V. (1991). Hormonal control of the surfactant system in fetal lung. Annual Review of Physiology 53, 415440.CrossRefGoogle ScholarPubMed
Mendelson, C. R., Johnson, J. M., MacDonald, P. C. & Snyder, J. M. (1991). Multihormonal regulation of surfactant synthesis by human fetal lung in vitro. Journal of Clinical Endocrinology and Metabolism 53, 307317.Google Scholar
Moens, C. B., Auerbach, A. B., Conlon, R. A., Joyner, A. L. & Rossant, J. (1992). A targeted mutation reveals a role for N-myc in branching morphogenesis in the embryonic mouse lung. Genes and Development 6, 691704.Google Scholar
Moessinger, A. C., Collins, M. H. & Blanc, W. A. (1986). Oligohydramnios-induced lung hypoplasia: the influence of timing and duration in gestation. Pediatric Research 20, 951954.CrossRefGoogle ScholarPubMed
Nichols, K. V., Floras, J., Dynia, D. W., Veletza, S. V., Wilson, C. M. & Gross, I. (1990). Regulation of surfactant protein A mRNA by hormones and butyrate in cultured fetal rat lung. American Journal of Physiology 259, L488L495.Google ScholarPubMed
Odom, M. J., Snyder, J. M., Boggaram, V. & Mendelson, C. R. (1988). Glucocorticoid regulation of the major surfactant-associated protein (SP-A) and its RNA and of morphological development of human fetal lung in vitro. Endocrinology 123, 17121720.CrossRefGoogle ScholarPubMed
Odom, M. J., Snyder, J. M. & Mendelson, C. R. (1987). Adenosine 3′, 5′-monophosphate analogs and β-adrenergic agonists induce the synthesis of the major apoprotein in human tetal lung in vitro. Endocrinology 122, 11551163.CrossRefGoogle Scholar
Olver, R. E. (1994). Fluid secretion and absorption in the fetus. In Fluid and Solute Transport in the Airspaces of the Lungs. Lung Biology in Health and Disease, vol. 70, 281302 [Effros, R. M. & Chang, H. K., editors] New York: Marcel Dekker Inc..Google Scholar
O'Rahilly, R. (1988). The early prenatal development of the human respiratory system. In Pulmonary Development from Intrauterine to Extrauterine Life. Lung Biology in Health and Disease, vol. 27, 318 [Nelson, G. H., editors] New York: Marcel Dekker Inc..Google Scholar
Peters, K. G., Werner, S., Chen, G. & Williams, L. T. (1992). Two FGF receptor genes are differentially-expressed in epithelial and mesenchymal tissues during limb formation and organogenesis in the mouse. Development 114, 233243.Google Scholar
Rees, S., Ng, J., Dickson, K., Nicholas, T. & Harding, R. (1991). Growth retardation and the development of the respiratory system in fetal sheep. Early Human Development 26, 1327.CrossRefGoogle ScholarPubMed
Roman, J. & McDonald, J. A. (1992). Expression of fibronectin, the integrin α5, and α-smooth muscle actin in heart and lung development. American Journal of Respiratory Cell and Molecular Biology 6, 472480.CrossRefGoogle ScholarPubMed
Ryan, R. M., Morris, R. E., Rice, W. R., Ciraola, G. & Whitsett, J. A. (1989). Binding and uptake of pulmonary surfactant protein (SP-A) by pulmonary type II epithelial cells. Journal of Histochemistry and Cytochemistry 37, 429440.Google Scholar
Sawai, S., Shimono, A., Wakamatsu, Y., Palmes, C., Hanaoka, K. & Konoloh, H. (1993). Defects of embryonic organogenesis resulting from targeted disruption of the N-myc gene in the mouse. Development 117, 14451455.CrossRefGoogle ScholarPubMed
Schellenberg, J., Liggins, G. C., Manzia, M., Kitterman, J. A. & Lee, C. C. H. (1988). Synergistic hormonal effects on lung maturation in fetal sheep. Journal of Applied Physiology 65, 94100.Google Scholar
Schuger, L., Skubitz, A. P. N., O'Shea, K. S., Chang, J. F. & Varani, J. (1991). Identification of laminin domains involved in branching morphogenesis: Effects of anti-laminin monoclonal antibodies on mouse embryonic lung development. Developmental Biology 146, 531541.Google Scholar
Smith, B. T. (1979). Lung maturation in the fetal rat: acceleration by injection of fibroblast pneumocyte factor. Science 204, 10941095.Google Scholar
Snyder, J. M., Longmuir, K. J., Johnson, J. M. & Mendelson, C. R. (1988). Hormonal regulation of the synthesis of lamellar body phosphatidylglycerol and phosphatidylinositol in fetal lung tissue. Endocrinology 112, 10121018.Google Scholar
Strandjord, T. P., Clark, J. G., Hodson, W. A., Schmidt, R. A. & Madtes, D. K. (1993). Expression of transforming growth factor-alpha in mid-gestation human fetal lung. American Journal of Respiratory Cell and Molecular Biology 8, 266272.CrossRefGoogle ScholarPubMed
Sunday, M. E. H., Hua, J., Reyes, B., Masui, H. & Torday, J. S. (1993). Anti-bombesin monoclonal antibodies modulate fetal mouse lung growth and maturation in utero and in organ cultures. Anatomical Record 236, 2534.CrossRefGoogle ScholarPubMed
Symonds, M. E., Bird, J. A., Clarke, L., Gate, J. J. & Lomax, M. A. (1996). Nutrition, temperature and homeostasis during perinatal development. Journal of Developmental Physiology (In the Press).Google Scholar
Torday, J. S. (1990). Androgens delay human fetal lung maturation in vitro. Endocrinology 126, 32403244.Google Scholar
Torday, J. S., Nielsen, H. C., Fencl, M. & Avery, M. E. (1981). Sex differences in fetal lung maturation. American Review of Respiratory Disease 123, 205208.Google Scholar
Vartio, T., Laitinen, L., Narvanen, O., Cutolo, M. & Thornell, L. (1987). Differential expression of the ED sequence-containing form of cellular fibronectin in embryonic and adult human tissues. Journal of Cell Science 88, 419430.Google Scholar
Whitsett, J. A., Pilot, T., Clarke, J. C., Sawtell, N. & Glasser, S. W. (1987a). Induction of surfactant protein in fetal lung: Effects of cAMP and dexamethasone on SAP-35 RNA and synthesis. Journal of Biological Chemistry 262, 52565261.Google Scholar
Whitsett, J. A., Weaver, T. A., Lieberman, M. A., Clark, J. C. & Daugherty, C. (1987b). Differential effects of epidermal growth factor and transforming growth factor-β on synthesis of Mr = 35,000 surfactant-associated protein in fetal lung. Journal of Biological Chemistry 262, 79087913.Google Scholar
Wigglesworth, J. S. & Desai, R. (1981). Use of DNA estimation for growth assessment in normal and hypoplastic fetal lungs. Archives of Disease in Childhood 56, 601605.Google Scholar
Wohlford-Lenane, C. L., Durham, P. L. & Snyder, J. M. (1992). Localization of surfactant-associated protein C (SP-C) mRNA in fetal rabbit lung tissue by in situ hybridization. American Journal of Respiratory Cell and Molecular Biology 6, 225234.CrossRefGoogle ScholarPubMed
Wolgemuth, D. J., Behringer, R. R., Mostoller, M. P., Brinster, R. L. & Palmiter, R. D. (1989). Transgenic mice over-expressing the mouse homeobox containing gene Hox–1.4 exhibit abnormal gut development. Nature 337, 464467.Google Scholar
Wood, T. L., Streck, R. D. & Pintar, J. E. (1992). Expression of the IGFBP-2 gene in post-implantation rat embryos. Development 114, 5966.Google Scholar
Wu, T. C., Wan, Y. J., Chung, A. E. & Damajonov, I. (1983). Immunohistochemical localization of entactin and laminin in mouse embryos and fetuses. Developmental Biology 100, 496505.Google Scholar
Yasui, S., Nagai, A., Oohira, A., Iwashita, M. & Konno, K. (1993). Effects of anti-mouse EGF antiserum on prenatal lung development in fetal mice. Pediatric Pulrnonology 15, 251256.Google Scholar