Complete canthi removal reveals that forces from the amnioserosa alone are sufficient to drive dorsal closure in Drosophila

Molecular Biology of the Cell

Volumn 25, Issue 22, 2014, Pages 3552-3568

  Wells, Adrienne R ^a   Zou, Roger S ^a   Tulu, U Serdar ^a   Sokolow, Adam C ^a   Crawford, Janice M ^a   Edwards, Glenn S ^a   Kiehart, Daniel P ^a  

^a DUKE UNIVERSITY   (United States)

Author keywords

[No Author keywords available]

Indexed keywords

AMNIOSEROSA CELL; ANIMAL CELL; ARTICLE; CELL ELONGATION; CELL SHAPE; CONTROLLED STUDY; DROSOPHILA; EMBRYO; EPITHELIUM CELL; GEOMETRY; LASER MICRODISSECTION; MORPHOLOGY; NONHUMAN; QUANTITATIVE ANALYSIS; ANIMAL; ANIMAL EMBRYO; ANIMAL STRUCTURES; BIOMECHANICS; CYTOLOGY; DROSOPHILA MELANOGASTER; EMBRYO DEVELOPMENT; EMBRYOLOGY; EPIDERMIS; LASER CAPTURE MICRODISSECTION; MECHANOTRANSDUCTION; METABOLISM; MORPHOGENESIS; SEROSA; ULTRASTRUCTURE;

MYOSIN ADENOSINE TRIPHOSPHATASE;

ACTOMYOSIN; ANIMAL STRUCTURES; ANIMALS; BIOMECHANICAL PHENOMENA; DROSOPHILA MELANOGASTER; EMBRYO, NONMAMMALIAN; EMBRYONIC DEVELOPMENT; EPIDERMIS; EPITHELIAL CELLS; LASER CAPTURE MICRODISSECTION; MECHANOTRANSDUCTION, CELLULAR; MORPHOGENESIS; SEROUS MEMBRANE;

EID: 84908602124     PISSN: 10591524     EISSN: 19394586     Source Type: Journal    
DOI: 10.1091/mbc.E14-07-1190     Document Type: Article

References (44)

1. Almeida L, Bagnerini P, Habbal A, Noselli S, Serman F (2011). A mathematical model for dorsal closure. J Theor Biol 268, 105-119.
2. Belacortu Y, Paricio N (2011). Drosophila as a model of wound healing and tissue regeneration in vertebrates. Dev Dyn 240, 2379-2404.
3. Blanchard GB, Murugesu S, Adams RJ, Martinez-Arias A, Gorfinkiel N (2010). Cytoskeletal dynamics and supracellular organisation of cell shape fluctuations during dorsal closure. Development 137, 2743-2752.
4. Copp AJ, Greene ND (2013). Neural tube defects - disorders of neurulation and related embryonic processes. Wiley Interdiscip Rev Dev Biol 2, 213-227.
5. David DJ, Tishkina A, Harris TJ (2010). The PAR complex regulates pulsed actomyosin contractions during amnioserosa apical constriction in Drosophila. Development 137, 1645-1655.
6. David DJ, Wang Q, Feng JJ, Harris TJ (2013). Bazooka inhibits aPKC to limit antagonism of actomyosin networks during amnioserosa apical constriction. Development 140, 4719-4729.
7. Fernandez BG, Arias AM, Jacinto A (2007). Dpp signalling orchestrates dorsal closure by regulating cell shape changes both in the amnioserosa and in the epidermis. Mech Dev 124, 884-897.
8. Fischer SC, Blanchard GB, Duque J, Adams RJ, Arias AM, Guest SD, Gorfinkiel N (2014). Contractile and mechanical properties of epithelia with perturbed actomyosin dynamics. PLoS One 9, e95695.
9. Franke JD, Montague RA, Kiehart DP (2005). Nonmuscle myosin II generates forces that transmit tension and drive contraction in multiple tissues during dorsal closure. Curr Biol 15, 2208-2221.
10. Gorfinkiel N, Blanchard GB, Adams RJ, Martinez Arias A (2009). Mechanical control of global cell behaviour during dorsal closure in Drosophila. Development 136, 1889-1898.
11. Gorfinkiel N, Schamberg S, Blanchard GB (2011). Integrative approaches to morphogenesis: lessons from dorsal closure. Genesis 49, 522-533.
12. Harden N (2002). Signaling pathways directing the movement and fusion of epithelial sheets: lessons from dorsal closure in Drosophila. Differentiation 70, 181-203.
13. Harris TJ, Sawyer JK, Peifer M (2009). How the cytoskeleton helps build the embryonic body plan: models of morphogenesis from Drosophila. Curr Top Dev Biol 89, 55-85.
14. Hunter GL, Crawford JM, Genkins JZ, Kiehart DP (2014). Ion channels contribute to the regulation of cell sheet forces during Drosophila dorsal closure. Development 141, 325-334.
15. Hutson MS, Tokutake Y, Chang MS, Bloor JW, Venakides S, Kiehart DP, Edwards GS (2003). Forces for morphogenesis investigated with laser microsurgery and quantitative modeling. Science 300, 145-149.
16. Jacinto A, Wood W, Balayo T, Turmaine M, Martinez-Arias A, Martin P (2000). Dynamic actin-based epithelial adhesion and cell matching during Drosophila dorsal closure. Curr Biol 10, 1420-1426.
17. Jankovics F, Brunner D (2006). Transiently reorganized microtubules are essential for zippering during dorsal closure in Drosophila melanogaster. Dev Cell 11, 375-385.
18. Jayasinghe AK, Crews SM, Mashburn DN, Hutson MS (2013). Apical oscillations in amnioserosa cells: basolateral coupling and mechanical autonomy. Biophys J 105, 255-265.
19. Keller R, Davidson LA, Shook DR (2003). How we are shaped: the biomechanics of gastrulation. Differentiation 71, 171-205.
20. Kiehart DP, Galbraith CG, Edwards KA, Rickoll WL, Montague RA (2000). Multiple forces contribute to cell sheet morphogenesis for dorsal closure in Drosophila. J Cell Biol 149, 471-490.
21. Kiehart DP, Tokutake Y, Chang M-S, Hutson MS, Wiemann J, Peralta XG, Toyama Y, Wells AR, Rodriguez A, Edwards GS (2006). Ultraviolet laser microbeam for dissection of Drosophila embryos. In: Cell Biology: A Laboratory Handbook, 3rd ed., Vol. 3, ed. JE Celis, San Diego, CA: Elsevier Academic Press, 87-103.
22. Layton AT, Toyama Y, Yang GQ, Edwards GS, Kiehart DP, Venakides S (2009). Drosophila morphogenesis: tissue force laws and the modeling of dorsal closure. HFSP J 3, 441-460.
23. Lecuit T, Lenne PF, Munro E (2011). Force generation, transmission and integration during cell and tissue morphogenesis. Annu Rev Cell Dev Biol 27, 157-184.
24. Ma X, Lynch HE, Scully PC, Hutson MS (2009). Probing embryonic tissue mechanics with laser hole drilling. Phys Biol 6, 036004.
25. Martin AC, Goldstein B (2014). Apical constriction: themes and variations on a cellular mechanism driving morphogenesis. Development 141, 1987-1998.
26. Mason FM, Tworoger M, Martin AC (2013). Apical domain polarization localizes actin-myosin activity to drive ratchet-like apical constriction. Nat Cell Biol 15, 926-936.
27. Miller CJ, Davidson LA (2013). The interplay between cell signalling and mechanics in developmental processes. Nat Rev Genet 14, 733-744.
28. Narasimha M, Brown NH (2004). Novel functions for integrins in epithelial morphogenesis. Curr Biol 14, 381-385.
29. Narasimha M, Uv A, Krejci A, Brown NH, Bray SJ (2008). Grainy head promotes expression of septate junction proteins and influences epithelial morphogenesis. J Cell Sci 121, 747-752.
30. Oda H, Tsukita S (1999). Dynamic features of adherens junctions during Drosophila embryonic epithelial morphogenesis revealed by a Dacatenin-GFP fusion protein. Dev Genes Evol 209, 218-225.
31. Oda H, Tsukita S (2001). Real-time imaging of cell-cell adherens junctions reveals that Drosophila mesoderm invagination begins with two phases of apical constriction of cells. J Cell Sci 114, 493-501.
32. Peralta XG, Toyama Y, Hutson MS, Montague R, Venakides S, Kiehart DP, Edwards GS (2007). Upregulation of forces and morphogenic asymmetries in dorsal closure during Drosophila development. Biophys J 92, 2583-2596.
33. Peralta XG, Toyama Y, Kiehart DP, Edwards GS (2008). Emergent properties during dorsal closure in Drosophila morphogenesis. Phys Biol 5, 015004.
34. Razzell W, Wood W, Martin P (2014). Recapitulation of morphogenetic cell shape changes enables wound re-epithelialisation. Development 141, 1814-1820.
35. Roberts DB (1998). Drosophila: A Practical Approach, Oxford, UK: IRL Press at Oxford University Press.
36. Rodriguez-Diaz A, Toyama Y, Abravanel DL, Wiemann JM, Wells AR, Tulu US, Edwards GS, Kiehart DP (2008). Actomyosin purse strings: renewable resources that make morphogenesis robust and resilient. HFSP J 2, 220-237.
37. Roh-Johnson M, Shemer G, Higgins CD, McClellan JH, Werts AD, Tulu US, Gao L, Betzig E, Kiehart DP, Goldstein B (2012). Triggering a cell shape change by exploiting preexisting actomyosin contractions. Science 335, 1232-1235.
38. Saravanan S, Meghana C, Narasimha M (2013). Local, cell-nonautonomous feedback regulation of myosin dynamics patterns transitions in cell behavior: a role for tension and geometry? Mol Biol Cell 24, 2350-2361.
39. Seelan RS, Mukhopadhyay P, Warner DR, Webb CL, Pisano M, Greene RM (2013). Epigenetic regulation of Sox4 during palate development. Epigenomics 5, 131-146.
40. Sokolow A, Toyama Y, Kiehart DP, Edwards GS (2012). Cell ingression and apical shape oscillations during dorsal closure in Drosophila. Biophys J 102, 969-979.
41. Solon J, Kaya-Copur A, Colombelli J, Brunner D (2009). Pulsed forces timed by a ratchet-like mechanism drive directed tissue movement during dorsal closure. Cell 137, 1331-1342.
42. Spahn P, Reuter R (2013). A vertex model of Drosophila ventral furrow formation. PLoS One 8, e75051.
43. Toyama Y, Peralta XG, Wells AR, Kiehart DP, Edwards GS (2008). Apoptotic force and tissue dynamics during Drosophila embryogenesis. Science 321, 1683-1686.
44. Wang Q, Feng JJ, Pismen LM (2012). A cell-level biomechanical model of Drosophila dorsal closure. Biophys J 103, 2265-2274.