Polarity-dependent distribution of angiomotin localizes hippo signaling in preimplantation embryos

Current Biology

Volumn 23, Issue 13, 2013, Pages 1181-1194

  Hirate, Yoshikazu ^a,b   Hirahara, Shino ^b   Inoue, Ken Ichi ^b   Suzuki, Atsushi ^c   Alarcon, Vernadeth B ^d   Akimoto, Kazunori ^c,h   Hirai, Takaaki ^e   Hara, Takeshi ^e   Adachi, Makoto ^f   Chida, Kazuhiro ^e   Ohno, Shigeo ^c   Marikawa, Yusuke ^d   Nakao, Kazuki ^b   Shimono, Akihiko ^g,i   Sasaki, Hiroshi ^a,b  

^a KUMAMOTO UNIVERSITY   (Japan)

^b RIKEN Center for Biosystems Dynamics Research   (Japan)

^c YOKOHAMA CITY UNIVERSITY   (Japan)

^d UNIVERSITY OF HAWAII   (United States)

^e UNIVERSITY OF TOKYO   (Japan)

^f KYOTO UNIVERSITY   (Japan)

^g NATIONAL UNIVERSITY OF SINGAPORE   (Singapore)

^h TOKYO UNIVERSITY OF SCIENCE   (Japan)

ⁱ Trans Genic   (Japan)

Author keywords

[No Author keywords available]

Indexed keywords

ACTIN BINDING PROTEIN; AMOT PROTEIN, MOUSE; HIPPO PROTEIN, MOUSE; LATS1 PROTEIN, MOUSE; LATS2 PROTEIN, MOUSE; PROTEIN SERINE THREONINE KINASE; SIGNAL PEPTIDE; TUMOR SUPPRESSOR PROTEIN;

ANIMAL; ARTICLE; BLASTOCYST; CELL ADHESION; CELL JUNCTION; CELL POLARITY; GENE EXPRESSION REGULATION; GENETICS; METABOLISM; MOUSE; PHOSPHORYLATION; POLYMERASE CHAIN REACTION; SIGNAL TRANSDUCTION;

ADHERENS JUNCTIONS; ANIMALS; BLASTOCYST; CELL ADHESION; CELL POLARITY; GENE EXPRESSION REGULATION, DEVELOPMENTAL; INTERCELLULAR SIGNALING PEPTIDES AND PROTEINS; MICE; MICROFILAMENT PROTEINS; PHOSPHORYLATION; POLYMERASE CHAIN REACTION; PROTEIN-SERINE-THREONINE KINASES; SIGNAL TRANSDUCTION; TUMOR SUPPRESSOR PROTEINS;

EID: 84879891468     PISSN: 09609822     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.cub.2013.05.014     Document Type: Article

References (54)

1. A.K. Tarkowski, and J. Wróblewska Development of blastomeres of mouse eggs isolated at the 4- and 8-cell stage J. Embryol. Exp. Morphol. 18 1967 155 180
2. M.H. Johnson, and C.A. Ziomek The foundation of two distinct cell lineages within the mouse morula Cell 24 1981 71 80 (Pubitemid 11157131)
3. Y. Yamanaka, A. Ralston, R.O. Stephenson, and J. Rossant Cell and molecular regulation of the mouse blastocyst Dev. Dyn. 235 2006 2301 2314 (Pubitemid 44325248)
4. H. Niwa, Y. Toyooka, D. Shimosato, D. Strumpf, K. Takahashi, R. Yagi, and J. Rossant Interaction between Oct3/4 and Cdx2 determines trophectoderm differentiation Cell 123 2005 917 929 (Pubitemid 41721036)
5. N. Nishioka, S. Yamamoto, H. Kiyonari, H. Sato, A. Sawada, M. Ota, K. Nakao, and H. Sasaki Tead4 is required for specification of trophectoderm in pre-implantation mouse embryos Mech. Dev. 125 2008 270 283
6. N. Nishioka, K. Inoue, K. Adachi, H. Kiyonari, M. Ota, A. Ralston, N. Yabuta, S. Hirahara, R.O. Stephenson, and N. Ogonuki The Hippo signaling pathway components Lats and Yap pattern Tead4 activity to distinguish mouse trophectoderm from inner cell mass Dev. Cell 16 2009 398 410
7. R. Yagi, M.J. Kohn, I. Karavanova, K.J. Kaneko, D. Vullhorst, M.L. DePamphilis, and A. Buonanno Transcription factor TEAD4 specifies the trophectoderm lineage at the beginning of mammalian development Development 134 2007 3827 3836 (Pubitemid 350187342)
8. Y. Hirate, K. Cockburn, J. Rossant, and H. Sasaki Tead4 is constitutively nuclear, while nuclear vs. cytoplasmic Yap distribution is regulated in preimplantation mouse embryos Proc. Natl. Acad. Sci. USA 109 2012 E3389 E3390 author reply E3391-E3392
9. A. Ralston, B.J. Cox, N. Nishioka, H. Sasaki, E. Chea, P. Rugg-Gunn, G. Guo, P. Robson, J.S. Draper, and J. Rossant Gata3 regulates trophoblast development downstream of Tead4 and in parallel to Cdx2 Development 137 2010 395 403
10. A. Suzuki, and S. Ohno The PAR-aPKC system: lessons in polarity J. Cell Sci. 119 2006 979 987
11. E. Assémat, E. Bazellières, E. Pallesi-Pocachard, A. Le Bivic, and D. Massey-Harroche Polarity complex proteins Biochim. Biophys. Acta 1778 2008 614 630 (Pubitemid 351317801)
12. D. St Johnston, and J. Ahringer Cell polarity in eggs and epithelia: parallels and diversity Cell 141 2010 757 774
13. V.B. Alarcon Cell polarity regulator PARD6B is essential for trophectoderm formation in the preimplantation mouse embryo Biol. Reprod. 83 2010 347 358
14. R.O. Stephenson, Y. Yamanaka, and J. Rossant Disorganized epithelial polarity and excess trophectoderm cell fate in preimplantation embryos lacking E-cadherin Development 137 2010 3383 3391
15. N.A. Grzeschik, L.M. Parsons, M.L. Allott, K.F. Harvey, and H.E. Richardson Lgl, aPKC, and Crumbs regulate the Salvador/Warts/Hippo pathway through two distinct mechanisms Curr. Biol. 20 2010 573 581
16. C. Ling, Y. Zheng, F. Yin, J. Yu, J. Huang, Y. Hong, S. Wu, and D. Pan The apical transmembrane protein Crumbs functions as a tumor suppressor that regulates Hippo signaling by binding to Expanded Proc. Natl. Acad. Sci. USA 107 2010 10532 10537
17. C.L. Chen, K.M. Gajewski, F. Hamaratoglu, W. Bossuyt, L. Sansores-Garcia, C. Tao, and G. Halder The apical-basal cell polarity determinant Crumbs regulates Hippo signaling in Drosophila Proc. Natl. Acad. Sci. USA 107 2010 15810 15815
18. B.S. Robinson, J. Huang, Y. Hong, and K.H. Moberg Crumbs regulates Salvador/Warts/Hippo signaling in Drosophila via the FERM-domain protein Expanded Curr. Biol. 20 2010 582 590
19. G. Halder, S. Dupont, and S. Piccolo Transduction of mechanical and cytoskeletal cues by YAP and TAZ Nat. Rev. Mol. Cell Biol. 13 2012 591 600
20. M.C. Schroeder, and G. Halder Regulation of the Hippo pathway by cell architecture and mechanical signals Semin. Cell Dev. Biol. 23 2012 803 811
21. F.X. Yu, and K.L. Guan The Hippo pathway: regulators and regulations Genes Dev. 27 2013 355 371
22. A. Bratt, W.J. Wilson, B. Troyanovsky, K. Aase, R. Kessler, E.G. Van Meir, and L. Holmgren Angiomotin belongs to a novel protein family with conserved coiled-coil and PDZ binding domains Gene 298 2002 69 77 (Pubitemid 35284264)
23. B. Zhao, L. Li, Q. Lu, L.H. Wang, C.Y. Liu, Q. Lei, and K.L. Guan Angiomotin is a novel Hippo pathway component that inhibits YAP oncoprotein Genes Dev. 25 2011 51 63
24. W. Wang, J. Huang, and J. Chen Angiomotin-like proteins associate with and negatively regulate YAP1 J. Biol. Chem. 286 2011 4364 4370
25. Y. Sugihara-Mizuno, M. Adachi, Y. Kobayashi, Y. Hamazaki, M. Nishimura, T. Imai, M. Furuse, and S. Tsukita Molecular characterization of angiomotin/JEAP family proteins: interaction with MUPP1/Patj and their endogenous properties Genes Cells 12 2007 473 486 (Pubitemid 46488583)
26. C.D. Wells, J.P. Fawcett, A. Traweger, Y. Yamanaka, M. Goudreault, K. Elder, S. Kulkarni, G. Gish, C. Virag, and C. Lim A Rich1/Amot complex regulates the Cdc42 GTPase and apical-polarity proteins in epithelial cells Cell 125 2006 535 548
27. S.W. Chan, C.J. Lim, Y.F. Chong, A.V. Pobbati, C. Huang, and W. Hong Hippo pathway-independent restriction of TAZ and YAP by angiomotin J. Biol. Chem. 286 2011 7018 7026
28. C. Yi, S. Troutman, D. Fera, A. Stemmer-Rachamimov, J.L. Avila, N. Christian, N.L. Persson, A. Shimono, D.W. Speicher, and R. Marmorstein A tight junction-associated Merlin-angiomotin complex mediates Merlin's regulation of mitogenic signaling and tumor suppressive functions Cancer Cell 19 2011 527 540
29. B. Zhao, X. Wei, W. Li, R.S. Udan, Q. Yang, J. Kim, J. Xie, T. Ikenoue, J. Yu, and L. Li Inactivation of YAP oncoprotein by the Hippo pathway is involved in cell contact inhibition and tissue growth control Genes Dev. 21 2007 2747 2761 (Pubitemid 350070721)
30. A. Suzuki, T. Yamanaka, T. Hirose, N. Manabe, K. Mizuno, M. Shimizu, K. Akimoto, Y. Izumi, T. Ohnishi, and S. Ohno Atypical protein kinase C is involved in the evolutionarily conserved par protein complex and plays a critical role in establishing epithelia-specific junctional structures J. Cell Biol. 152 2001 1183 1196 (Pubitemid 34280176)
31. M. Matsumoto, W. Ogawa, K. Akimoto, H. Inoue, K. Miyake, K. Furukawa, Y. Hayashi, H. Iguchi, Y. Matsuki, and R. Hiramatsu PKClambda in liver mediates insulin-induced SREBP-1c expression and determines both hepatic lipid content and overall insulin sensitivity J. Clin. Invest. 112 2003 935 944 (Pubitemid 38063751)
32. A. Suwińska, R. Czołowska, W. Ozdzeński, and A.K. Tarkowski Blastomeres of the mouse embryo lose totipotency after the fifth cleavage division: expression of Cdx2 and Oct4 and developmental potential of inner and outer blastomeres of 16- and 32-cell embryos Dev. Biol. 322 2008 133 144
33. M. Ernkvist, O. Birot, I. Sinha, N. Veitonmaki, S. Nyström, K. Aase, and L. Holmgren Differential roles of p80- and p130-angiomotin in the switch between migration and stabilization of endothelial cells Biochim. Biophys. Acta 1783 2008 429 437
34. A. Shimono, and R.R. Behringer Angiomotin regulates visceral endoderm movements during mouse embryogenesis Curr. Biol. 13 2003 613 617 (Pubitemid 36391942)
35. C. Wang, J. An, P. Zhang, C. Xu, K. Gao, D. Wu, D. Wang, H. Yu, J.O. Liu, and L. Yu The Nedd4-like ubiquitin E3 ligases target angiomotin/p130 to ubiquitin-dependent degradation Biochem. J. 444 2012 279 289
36. M. Paramasivam, A. Sarkeshik, J.R. Yates 3rd, M.J. Fernandes, and D. McCollum Angiomotin family proteins are novel activators of the LATS2 kinase tumor suppressor Mol. Biol. Cell 22 2011 3725 3733
37. M. Ernkvist, K. Aase, C. Ukomadu, J. Wohlschlegel, R. Blackman, N. Veitonmäki, A. Bratt, A. Dutta, and L. Holmgren p130-angiomotin associates to actin and controls endothelial cell shape FEBS J. 273 2006 2000 2011
38. A.B. Gladden, A.M. Hebert, E.E. Schneeberger, and A.I. McClatchey The NF2 tumor suppressor, Merlin, regulates epidermal development through the establishment of a junctional polarity complex Dev. Cell 19 2010 727 739
39. A. Nagafuchi, M. Takeichi, and S. Tsukita The 102 kd cadherin-associated protein: similarity to vinculin and posttranscriptional regulation of expression Cell 65 1991 849 857 (Pubitemid 121001316)
40. M. Ozawa, H. Baribault, and R. Kemler The cytoplasmic domain of the cell adhesion molecule uvomorulin associates with three independent proteins structurally related in different species EMBO J. 8 1989 1711 1717 (Pubitemid 19273986)
41. Q.Y. Lei, H. Zhang, B. Zhao, Z.Y. Zha, F. Bai, X.H. Pei, S. Zhao, Y. Xiong, and K.L. Guan TAZ promotes cell proliferation and epithelial-mesenchymal transition and is inhibited by the hippo pathway Mol. Cell. Biol. 28 2008 2426 2436 (Pubitemid 351429986)
42. K. Cockburn, S. Biechele, J. Garner, and J. Rossant The Hippo pathway member Nf2 is required for inner cell mass specification Curr. Biol. 2013 10.1016/j.cub.2013.05.044 Published online June 20, 2013
43. B.M. Gumbiner Regulation of cadherin-mediated adhesion in morphogenesis Nat. Rev. Mol. Cell Biol. 6 2005 622 634 (Pubitemid 41081266)
44. N. Yabuta, N. Okada, A. Ito, T. Hosomi, S. Nishihara, Y. Sasayama, A. Fujimori, D. Okuzaki, H. Zhao, and M. Ikawa Lats2 is an essential mitotic regulator required for the coordination of cell division J. Biol. Chem. 282 2007 19259 19271 (Pubitemid 47100176)
45. S. Visser, and X. Yang LATS tumor suppressor: a new governor of cellular homeostasis Cell Cycle 9 2010 3892 3903
46. X. Varelas, P. Samavarchi-Tehrani, M. Narimatsu, A. Weiss, K. Cockburn, B.G. Larsen, J. Rossant, and J.L. Wrana The Crumbs complex couples cell density sensing to Hippo-dependent control of the TGF-β-SMAD pathway Dev. Cell 19 2010 831 844
47. K. Wada, K. Itoga, T. Okano, S. Yonemura, and H. Sasaki Hippo pathway regulation by cell morphology and stress fibers Development 138 2011 3907 3914
48. B. Zhao, L. Li, L. Wang, C.Y. Wang, J. Yu, and K.L. Guan Cell detachment activates the Hippo pathway via cytoskeleton reorganization to induce anoikis Genes Dev. 26 2012 54 68
49. J.J. Eckert, A. McCallum, A. Mears, M.G. Rumsby, I.T. Cameron, and T.P. Fleming Relative contribution of cell contact pattern, specific PKC isoforms and gap junctional communication in tight junction assembly in the mouse early embryo Dev. Biol. 288 2005 234 247 (Pubitemid 41713166)
50. M. Zernicka-Goetz Development: do mouse embryos play dice? Curr. Biol. 23 2013 R15 R17
51. A.W. Bruce, and M. Zernicka-Goetz Developmental control of the early mammalian embryo: competition among heterogeneous cells that biases cell fate Curr. Opin. Genet. Dev. 20 2010 485 491
52. B. Hogan, R. Beddington, F. Constantini, and E. Lacy Manipulating the Mouse Embryo: Laboratory Manual Second Edition 1994 Cold Spring Harbor Laboratory Press Cold Spring Harbor
53. M. Ota, and H. Sasaki Mammalian Tead proteins regulate cell proliferation and contact inhibition as transcriptional mediators of Hippo signaling Development 135 2008 4059 4069
54. S. Yamamoto, O. Nishimura, K. Misaki, M. Nishita, Y. Minami, S. Yonemura, H. Tarui, and H. Sasaki Cthrc1 selectively activates the planar cell polarity pathway of Wnt signaling by stabilizing the Wnt-receptor complex Dev. Cell 15 2008 23 36 (Pubitemid 351895602) Technology