Epithelial tube morphogenesis during Drosophila tracheal development requires Piopio, a luminal ZP protein

Nature Cell Biology

Volumn 5, Issue 10, 2003, Pages 895-901

  Jaźwińska, Anna ^a   Ribeiro, Carlos ^a   Affolter, Markus ^a  

^a UNIVERSITY OF BASEL   (Switzerland)

Author keywords

[No Author keywords available]

Indexed keywords

CELL PROTEIN;

ANGIOGENESIS; ANIMAL TISSUE; APICAL MEMBRANE; ARTICLE; CELL ELONGATION; CELL INTERACTION; CELL JUNCTION; CELL SURFACE; CONTROLLED STUDY; DROSOPHILA MELANOGASTER; EMBRYO; EPITHELIUM; EXTRACELLULAR MATRIX; KIDNEY DEVELOPMENT; LUNG DEVELOPMENT; MORPHOGENESIS; NONHUMAN; ORGANOGENESIS; PRIORITY JOURNAL; PROTEIN DOMAIN; PROTEIN PROTEIN INTERACTION; PROTEIN SECRETION; REGULATORY MECHANISM; TISSUE GROWTH; TRACHEA; ZONA PELLUCIDA;

ADHERENS JUNCTIONS; AMINO ACID SEQUENCE; ANIMALS; CARRIER PROTEINS; DROSOPHILA MELANOGASTER; DROSOPHILA PROTEINS; EPITHELIUM; EXTRACELLULAR MATRIX PROTEINS; IN SITU HYBRIDIZATION; MOLECULAR SEQUENCE DATA; MORPHOGENESIS; PROTEIN STRUCTURE, TERTIARY; TRACHEA;

ANIMALIA; DROSOPHILA MELANOGASTER; HEXAPODA; MELANOGASTER; TURNAGRA CAPENSIS;

EID: 0141505122     PISSN: 14657392     EISSN: None     Source Type: Journal    
DOI: 10.1038/ncb1049     Document Type: Article

References (30)

1. Metzger, R. J. & Krasnow, M. A. Genetic control of branching morphogenesis. Science 284, 1635-1639 (1999).
2. Affolter, M. et al. Tube or not tube. Remodeling epithelial tissues by branching morphogenesis. Dev. Cell 4, 11-18 (2003).
3. Uv, A., Cantera, R. & Samakovlis, C. Drosophila tracheal morphogenesis: intricate cellular solutions to basic plumping problems. Trends Cell Biol. 13, 301-309 (2003).
4. Buechner, M. Tubes and the single C. elegans excretory cell. Trends Cell Biol. 12, 479-484 (2002).
5. Hogan, B. L. & Kolodziej, P. A. Organogenesis: molecular mechanisms of tubulogenesis. Nature Rev. Genet. 3, 513-523 (2002).
6. O'Brien, L. E., Zegers, M. M. & Mostov, K. E. Building epithelial architecture: insights from three-dimensional culture models. Nature Rev. Mol. Cell Biol. 3, 531-537 (2002).
7. Lubarsky, B. & Krasnow, M. A. Tube morphogenesis. Making and shaping biological tubes. Cell 112, 19-28 (2003).
8. Myat, M. M. & Andrew, D. J. Epithelial tube morphology is determined by the polarized growth and delivery of apical membrane. Cell 111, 879-891 (2002).
9. Lecuit, T. & Pilot, F. Developmental control of cell morphogenesis: a focus on membrane growth. Nature Cell Biol. 5, 103-108 (2003).
10. Samakovlis, C. et al. Development of the Drosophila tracheal system occurs by a series of morphologically distinct but genetically coupled branching events. Development 122, 1395-1407 (1996).
11. Affolter, M. et al. The Drosophila SRF homolog is expressed in a subset of tracheal cells and maps within a genomic region required for tracheal development. Development 120, 743-753 (1994).
12. Wilkin, M. B. et al. Drosophila Dumpy is a gigantic extracellular protein required to maintain tension at epidermal-cuticle attachment sites. Curr. Biol. 10, 559-567 (2000).
13. Bork, P. & Sander, C. A large domain common to sperm receptors (Zp2 and Zp3) and TGF-β type III receptor. FEBS Lett. 300, 237-240 (1992).
14. Wassarman, P. M., Jovine, L. & Litscher, E. S. A profile of fertilization in mammals. Nature Cell Biol. 3, E59-E64 (2001).
15. Tepass, U., Theres, C. & Knust, E. crumbs encodes an EGF-like protein expressed on apical membranes of Drosophila epithelial cells and required for organization of epithelia. Cell 61, 787-799 (1990).
16. Oda, H. & Tsukita, S. Dynamic features of adherens junctions during Drosophila embryonic epithelial morphogenesis revealed by a Dα-catenin-GFP fusion protein. Dev. Genes Evol. 209, 218-225 (1999 ).
17. Ribeiro, C., Ebner, A. & Affolter, M. In vivo imaging reveals different cellular functions for FGF and Dpp signaling in tracheal branching morphogenesis. Dev. Cell 2, 677-683 (2002).
18. Jovine, L., Qi, H., Williams, Z., Litscher, E. & Wassarman, P. M. The ZP domain is a conserved module for polymerization of extracellular proteins. Nature Cell Biol. 4, 457-461 (2002).
19. Li, D. Y. et al. Defective angiogenesis in mice lacking endoglin. Science 284, 1534-1537 (1999).
20. McAllister, K. A. et al. Endoglin, a TGF-β binding protein of endothelial cells, is the gene for hereditary haemorrhagic telangiectasia type 1. Nature Genet. 8, 345-351 (1994).
21. Ruhrberg, C. et al. Spatially restricted patterning cues provided by heparin-binding VEGF-A control blood vessel branching morphogenesis. Genes Dev. 16, 2684-2698 (2002).
22. Gerhardt, H. et al, VEGF guides angiogenic sprouting utilizing endothelial tip cell filopodia. J. Cell Biol. 161, 1163-1177 (2003).
23. Prout, M., Damania, Z., Soong, J., Fristrom, D. & Fristrom, J. W. Autosomal mutations affecting adhesion between wing surfaces in Drosophila melanogaster. Genetics 146, 275-285 (1997).
24. Brand, A. & Perrimon, N. Targeted gene expression as a means of altering cell fates and generating dominant phenotypes. Development 118, 401-415 (1993).
25. Shiga, Y., Tanaka-Matakasu, M. & Hayashi, S. A nuclear GFP β-galacotosidase fusion protein as a marker for mophogenesis in living Drosophila. Dev. Growth Differ. 38, 99-106 (1996).
26. Verkhusha, V. V., Tsukita, S. & Oda, H. Actin dynamics in lamellipodia of migrating border cells in the Drosophila ovary revealed by a GFP-actin fusion protein. FEBS Lett. 445, 395-401 (1999).
27. Brand, A. GFP in Drosophila. Trends Genet. 11, 324-325 (1995).
28. Patel, N. H. Imaging neuronal subsets and other cell types in whole-mount Drosophila embryos and larvae using antibody probes. Methods Cell Biol. 44, 445-487 (1994).
29. Tautz, D. & Pfeifle, C. A non-radioactive in situ hybridization method for the localization of specific RNAs in Drosophila embryos reveals translational control of the segmentation gene hunchback. Chromosoma 98, 81-85 (1989).
30. Schultz, J., Milpetz, F., Bork, P. & Ponting, C. P. SMART, a simple modular architecture research tool: identification of signaling domains. Proc. Natl Acad. Sci. USA 95, 5857-5864 (1998).