Tube formation in Drosophila egg chambers

Tissue Engineering - Part A.

Volumn 14, Issue 9, 2008, Pages 1479-1488

  Berg, Celeste A ^a  

^a UNIVERSITY OF WASHINGTON   (United States)

Author keywords

[No Author keywords available]

Indexed keywords

CELL TYPES; GENETIC MECHANISMS; MATHEMATICAL MODELLING; TUBE FORMATION;

TUBES (COMPONENTS);

CELL ACTIVITY; CELL MIGRATION; CELL SHAPE; CELL SIZE; CONFERENCE PAPER; DEVELOPMENTAL STAGE; DROSOPHILA; EGG; EPITHELIUM; MATHEMATICAL MODEL; MORPHOGENESIS; NEURULATION; NONHUMAN; OOCYTE DEVELOPMENT; ORGANOGENESIS; OVARY FOLLICLE CELL; PRIORITY JOURNAL; RESPIRATORY SYSTEM; SIGNAL TRANSDUCTION; TUBULOGENESIS; VERTEBRATE; WILD TYPE;

VERTEBRATA;

EID: 51349138081     PISSN: 19373341     EISSN: 1937335X     Source Type: Journal    
DOI: 10.1089/ten.tea.2008.0124     Document Type: Conference Paper

References (70)

1. Langer, R., and Vacanti, J.P. Tissue engineering. Science 260, 920, 1993.
2. Hwang, N.S., Varghese, S., and Elisseeff, J. Controlled differentiation of stem cells. Adv Drug Deliv Rev 60, 199, 2008.
3. Park, H., Cannizzaro, C., Vunjak-Novakovic, G., Langer, R., Vacanti, C.A., and Farokhzad, O.C. Nanofabrication and microfabrication of functional materials for tissue engineering. Tissue Eng 13, 1867, 2007.
4. Humes, H.D., Buffington, D.A., MacKay, S.M., Funke, A.J., and Weitzel, W.F. Replacement of renal function in uremic animals with a tissue-engineered kidney. Nat Biotechnol 17, 451, 1999.
5. Minuth, W.W., Sorokin, L., and Schumacher, K. Generation of renal tubules at the interface of an artificial interstitium. Cell Physiol Biochem 14, 387, 2004.
6. Heber, S., Denk, L., Hu, K., and Minuth, W.W. Modulating the development of renal tubules growing in serum-free culture medium at an artificial interstitium. Tissue Eng 13, 281, 2007.
7. Eschenhagen, T., Didié, M., Heubach, J., Ravens, U., and Zimmermann, W. Cardiac tissue engineering. Transpl Immunol 9, 315, 2002.
8. Kubo, H., Shimizu, T., Yamato, M., Fujimoto, T., and Okano, T. Creation of myocardial tubes using cardiomyocyte sheets and an in vitro cell sheet-wrapping device. Biomaterials 28, 3508, 2007.
9. Franchini, J.L., Propst, J.T., Comer, G.R., and Yost, M.J. Novel tissue engineered tubular heart tissue for in vitro pharmaceutical toxicity testing. Microsc Microanal 13, 267, 2007.
10. Ott, H.C., Matthiesen, T.S., Goh, S., Black, L.D., Kren, S.M., Netoff, T.I., Taylor, D.A. Perfusion-decellularized matrix: using nature's platform to engineer a bioartificial heart. Nat Med 14, 213, 2008.
11. Parenteau, N.L., Rosenberg, L., and Hardin-Young, J. The engineering of tissues using progenitor cells. Curr Top Dev Biol 64, 101, 2004.
12. Becker, C., and Jakse, G. Stem cells for regeneration of urological structures. Eur Urol 51, 1217, 2007.
13. Kurosawa, H. Methods for inducing embryoid body formation: in vitro differentiation system of embryonic stem cells. J Biosci Bioeng 103, 389, 2007.
14. Lubarsky, B., and Krasnow, M.A. Tube morphogenesis: making and shaping biological tubes. Cell 112, 19, 2003.
15. Lowery, L., and Sive, H. Strategies of vertebrate neurulation and a re-evaluation of teleost neural tube formation. Mech Dev 121, 1189, 2004.
16. Sweeton, D., Parks, S., Costa, M., and Wieschaus, U. Gastrulation in Drosophila: the formation of the ventral furrow and posterior midgut invaginations. Development 112, 775, 1991.
17. Gilbert, S.F. Developmental Biology. Sunderland, MA: Sinauer Associates, Inc., 2006.
18. Warburton, D., Schwarz, M., Tefft, D., Flores-Delgado, G., Anderson, K.D., and Cardoso, W.V. The molecular basis of lung morphogenesis. Mech Dev 92, 55, 2000.
19. Ghabrial, A., Luschnig, S., Metzstein, M.M., and Krasnow, M.A. Branching morphogenesis of the Drosophila tracheal system. Annu Rev Cell Dev Biol 19, 623, 2003.
20. Hogan, B.L.M. Building organs from buds, branches and tubes. Differentiation 74, 323, 2006.
21. Hinton, H.E. Respiratory systems of insect egg shells. Annu Rev Entomol 14, 343, 1969.
22. Berg, C.A. The Drosophila shell game: patterning genes and morphological change. Trends Genet 21, 346, 2005.
23. Schüpbach, T. Germ line and soma cooperate during oogenesis to establish the dorsoventral pattern of egg shell and embryo in Drosophila melanogaster. Cell 49, 699, 1987.
24. Twombly, V., Blackman, B.K., Jin, H., Graff, J.M., Padgett, R.W., and Gelbart, W.M. The TGF-beta signaling pathway is essential for Drosophila oogenesis. Development 122, 1555, 1996.
25. Xie, T., and Spradling, A.C. Decapentaplegic is essential for the maintenance and division of germline stem cells in the Drosophila ovary. Cell 94, 251, 1998.
26. Duchek, P., and RØrth, P. Guidance of cell migration by EGF receptor signaling during Drosophila oogenesis. Science 291, 131, 2001.
27. McDonald, J.A., Pinheiro, E.M., Kadlec, L., Schüpbach, T., and Montell, D.J. Multiple EGFR ligands participate in guiding migrating border cells. Dev Biol 296, 94, 2006.
28. Gilboa, L., and Lehmann, R. Soma-germline interactions coordinate homeostasis and growth in the Drosophila gonad. Nature 443, 97, 2006.
29. Shilo, B.Z. Signaling by the Drosophila epidermal growth factor receptor pathway during development. Exp Cell Res 284, 140, 2003.
30. Affolter, M., and Basler, K. The Decapentaplegic morphogen gradient: from pattern formation to growth regulation. Nat Rev Genet 8, 663, 2007.
31. Spradling, A.C. Developmental genetics of oogenesis. In: Bate, M., and Martinez-Arias, A., eds. The Development of Drosophila melanogaster, Vol. 1, Cold Spring Harbor, NY: Cold Spring Harbor Laboratory Press, 1993, pp. 1-70.
32. Mahajan-Miklos, S., and Cooley, L. Intercellular cytoplasm transport during Drosophila oogenesis. Dev Biol 165, 336, 1994.
33. Ray, R.P., and Schüpbach, T. Intercellular signaling and the polarization of body axes during Drosophila oogenesis. Genes Dev 10, 1711, 1996.
34. Roth, S. The origin of dorsoventral polarity in Drosophila. Philos Trans R Soc Lond B Biol Sci 358, 1317, 2003.
35. LeMosy, E.K. Pattern formation: the eggshell holds the cue. Curr Biol 13, R508, 2003.
36. Waring, G.L. Morphogenesis of the eggshell in Drosophila. Int Rev Cytol 198, 67, 2000.
37. Dobens, L.L. and Raftery, L.A. Integration of epithelial patterning and morphogenesis in Drosophila ovarian follicle cells. Dev Dyn 218, 80, 2000.
38. Dorman, J.B., James, K.E., Fraser, S.E., Kiehart, D.P., and Berg C.A. bullwinkle is required for epithelial morphogenesis during Drosophila oogenesis. Dev Biol 267, 320, 2004.
39. Neuman-Silberberg, F.S., and Schüpbach, T. Dorsoventral axis formation in Drosophila depends on the correct dosage of the gene gurken. Development 120, 2457, 1994.
40. Deng, W.M., and Bownes, M. Two signalling pathways specify localized expression of the Broad-Complex in Drosophila eggshell patterning and morphogenesis. Development 124, 4639, 1997.
41. Dobens, L.L., Peterson, J.S., Treisman, J., Raftery, L.A. Drosophila bunched integrates opposing DPP and EGF signals to set the operculum boundary. Development 127, 745, 2000.
42. Peri, F., and Roth, S. Combined activities of Gurken and Decapentaplegic specify dorsal chorion structures of the Drosophila egg. Development 127, 841, 2000.
43. Shravage, B.V., Altmann, G., Technau, M., and Roth, S. The role of DPP and its inhibitors during eggshell patterning in Drosophila. Development 134, 2261, 2007.
44. Morimoto, A.M., Jordan, K.C., Tietze, K., Britton, J.S., O0Neill, E.M., and Ruohola-Baker, H. Pointed, an ETS domain transcription factor, negatively regulates the EGF receptor pathway in Drosophila oogenesis. Development 122, 3745, 1996.
45. Wasserman, J.D., and Freeman, M. An autoregulatory cascade of EGF receptor signaling patterns the Drosophila egg. Cell 95, 355, 1998.
46. Sapir, A., Schweitzer, R., and Shilo, B.Z. Sequential activation of the EGF receptor pathway during Drosophila oogenesis establishes the dorsoventral axis. Development 125, 191, 1998.
47. Peri, F., Bökel, C., and Roth, S. Local Gurken signaling and dynamic MAPK activation during Drosophila oogenesis. Mech Dev 81, 75, 1999.
48. Chen, Y. and Schüpbach, T. The role of brinker in eggshell patterning. Mech Dev 123, 395, 2006.
49. Yakoby, N., Lembong, J., Schüpbach, T., and Shvartsman, S.Y. Drosophila eggshell is patterned by sequential action of feedforward and feedback loops. Development 135, 343, 2008.
50. Ward, E.J., and Berg, C.A. Juxtaposition between two cell types is necessary for dorsal appendage tube formation. Mech Dev 122, 241, 2005.
51. Ward, E.J., Zhou, X., Riddiford, L.M., Berg, C.A., and Ruohola-Baker, H. Border of Notch activity establishes a boundary between the two dorsal appendage tube cell types. Dev Biol 297, 461, 2006.
52. Shvartsman, S.Y., Muratov, C.B., and Lauffenburger, D.A. Modeling and computational analysis of EGF receptor-mediated cell communication in Drosophila oogenesis. Development 129, 2577, 2002.
53. Goentoro, L.A., Reeves, G.T., Kowal, C.P., Martinelli, L., Schüpbach, T., and Shvartsman, S.Y. Quantifying the Gurken morphogen gradient in Drosophila oogenesis. Dev Cell 11, 263, 2006.
54. Zegers, M., O0Brien, L., Yu, W., Datta, A., and Mostov, K. Epithelial polarity and tubulogenesis in vitro. Trends Cell Biol 13, 169, 2003.
55. Nelson, W. Tube morphogenesis: closure, but many openings remain. Trends Cell Biol 13, 615, 2003.
56. Affolter, M., Bellusci, S., Itoh, N., Shilo, B., Thiery, J.P., and Werb, Z. Tube or not tube: remodeling epithelial tissues by branching morphogenesis. Dev Cell 4, 11, 2003.
57. Beitel, G.J., and Krasnow, M.A. Genetic control of epithelial tube size in the Drosophila tracheal system. Development 127, 3271, 2000.
58. Ghabrial, A.S., and Krasnow, M.A. Social interactions among epithelial cells during tracheal branching morphogenesis. Nature 441, 746, 2006.
59. Edwards, K.A., and Kiehart, D.P. Drosophila nonmuscle myosin II has multiple essential roles in imaginal disc and egg chamber morphogenesis. Development 122, 1499, 1996.
60. Nezis, I.P., Stravopodis, D.J., Papassideri, I., Robert-Nicoud, M., and Margaritis, L.H. Stage-specific apoptotic patterns during Drosophila oogenesis. Eur J Cell Biol 79, 610, 2000.
61. Nezis, I.P., Stravopodis, D.J., Papassideri, I., Robert-Nicoud, M., and Margaritis, L.H. Dynamics of apoptosis in the ovarian follicle cells during the late stages of Drosophila oogenesis. Cell Tissue Res 307, 401, 2002.
62. Odell, G.M., Oster, G., Alberch, P., and Burnside, B. The mechanical basis of morphogenesis. I. Epithelial folding and invagination. Dev Biol 85, 446, 1981.
63. Pilot, F., and Lecuit, T. Compartmentalized morphogenesis in epithelia: from cell to tissue shape. Dev Dyn 232, 685, 2005.
64. Snow, P.M., Bieber, A.J., and Goodman, C.S. Fasciclin III: a novel homophilic adhesion molecule in Drosophila. Cell 59, 313, 1989.
65. Rittenhouse, K.R., and Berg, C.A. Mutations in the Drosophila gene bullwinkle cause the formation of abnormal eggshell structures and bicaudal embryos. Development 121, 3023, 1995.
66. Tran, D.H., and Berg, C.A. bullwinkle and shark regulate dorsal-appendage morphogenesis in Drosophila oogenesis. Development 130, 6273, 2003.
67. Kerszberg, M., and Changeux, J. A simple molecular model of neurulation. BioEssays 20, 758, 1998.
68. Zajac, M., Jones, G.L., and Glazier, J.A. Model of convergent extension in animal morphogenesis. Phys Rev Lett 85, 2022, 2000.
69. Zajac, M., Jones, G.L., and Glazier, J.A. Simulating convergent extension by way of anisotropic differential adhesion. J Theor Biol 222, 247, 2003.
70. James, K.E., and Berg, C.A. Temporal comparison of Broad-Complex expression during eggshell-appendage patterning and morphogenesis in two Drosophila species with different eggshell-appendage numbers. Gene Expr Patterns 3, 629, 2003.