A somitic Wnt16/Notch pathway specifies haematopoietic stem cells (original) (raw)
Gering, M. & Patient, R. Notch signalling and haematopoietic stem cell formation during embryogenesis. J. Cell. Physiol.222, 11–16 (2010) ArticleCAS Google Scholar
Staal, F. J. & Luis, T. C. Wnt signaling in hematopoiesis: crucial factors for self-renewal, proliferation, and cell fate decisions. J. Cell. Biochem.109, 844–849 (2010) CASPubMed Google Scholar
Angers, S. & Moon, R. T. Proximal events in Wnt signal transduction. Nature Rev. Mol. Cell Biol.10, 468–477 (2009) ArticleCAS Google Scholar
Takada, S. et al. Wnt-3a regulates somite and tailbud formation in the mouse embryo. Genes Dev.8, 174–189 (1994) ArticleCAS Google Scholar
Goessling, W. et al. Genetic interaction of PGE2 and Wnt signaling regulates developmental specification of stem cells and regeneration. Cell136, 1136–1147 (2009) ArticleCAS Google Scholar
McWhirter, J. R. et al. Oncogenic homeodomain transcription factor E2A-Pbx1 activates a novel WNT gene in pre-B acute lymphoblastoid leukemia. Proc. Natl Acad. Sci. USA96, 11464–11469 (1999) ArticleCASADS Google Scholar
Bertrand, J. Y. et al. Haematopoietic stem cells derive directly from aortic endothelium during development. Nature464, 108–111 (2010) ArticleCASADS Google Scholar
Kissa, K. & Herbomel, P. Blood stem cells emerge from aortic endothelium by a novel type of cell transition. Nature464, 112–115 (2010) ArticleCASADS Google Scholar
Boisset, J. C. et al. In vivo imaging of haematopoietic cells emerging from the mouse aortic endothelium. Nature464, 116–120 (2010) ArticleCASADS Google Scholar
Bertrand, J. Y. et al. Definitive hematopoiesis initiates through a committed erythromyeloid precursor in the zebrafish embryo. Development134, 4147–4156 (2007) ArticleCAS Google Scholar
Kissa, K. et al. Live imaging of emerging hematopoietic stem cells and early thymus colonization. Blood111, 1147–1156 (2008) ArticleCAS Google Scholar
Lin, H. F. et al. Analysis of thrombocyte development in CD41-GFP transgenic zebrafish. Blood106, 3803–3810 (2005) ArticleCAS Google Scholar
Yokota, T. et al. Tracing the first waves of lymphopoiesis in mice. Development133, 2041–2051 (2006) ArticleCAS Google Scholar
Clements, W. K., Ong, K. G. & Traver, D. Zebrafish wnt3 is expressed in developing neural tissue. Dev. Dyn.238, 1788–1795 (2009) ArticleCAS Google Scholar
Nygren, M. K. et al. β-catenin is involved in N-cadherin-dependent adhesion, but not in canonical Wnt signaling in E2A–PBX1-positive B acute lymphoblastic leukemia cells. Exp. Hematol.37, 225–233 (2009) ArticleCAS Google Scholar
Teh, M. T. et al. Role for WNT16B in human epidermal keratinocyte proliferation and differentiation. J. Cell Sci.120, 330–339 (2007) ArticleCAS Google Scholar
Cirone, P. et al. A role for planar cell polarity signaling in angiogenesis. Angiogenesis11, 347–360 (2008) Article Google Scholar
Julich, D. et al. beamter/deltaC and the role of Notch ligands in the zebrafish somite segmentation, hindbrain neurogenesis and hypochord differentiation. Dev. Biol.286, 391–404 (2005) Article Google Scholar
Holley, S. A., Julich, D., Rauch, G. J., Geisler, R. & Nusslein-Volhard, C. her1 and the notch pathway function within the oscillator mechanism that regulates zebrafish somitogenesis. Development129, 1175–1183 (2002) CASPubMed Google Scholar
Burns, C. E., Traver, D., Mayhall, E., Shepard, J. L. & Zon, L. I. Hematopoietic stem cell fate is established by the Notch-Runx pathway. Genes Dev.19, 2331–2342 (2005) ArticleCAS Google Scholar
Hadland, B. K. et al. A requirement for Notch1 distinguishes 2 phases of definitive hematopoiesis during development. Blood104, 3097–3105 (2004) ArticleCAS Google Scholar
Kumano, K. et al. Notch1 but not Notch2 is essential for generating hematopoietic stem cells from endothelial cells. Immunity18, 699–711 (2003) ArticleCAS Google Scholar
Robert-Moreno, A., Espinosa, L., de la Pompa, J. L. & Bigas, A. RBPjκ-dependent Notch function regulates Gata2 and is essential for the formation of intra-embryonic hematopoietic cells. Development132, 1117–1126 (2005) ArticleCAS Google Scholar
Robert-Moreno, A. et al. Impaired embryonic haematopoiesis yet normal arterial development in the absence of the Notch ligand Jagged1. EMBO J.27, 1886–1895 (2008) ArticleCAS Google Scholar
Scheer, N. & Campos-Ortega, J. A. Use of the Gal4-UAS technique for targeted gene expression in the zebrafish. Mech. Dev.80, 153–158 (1999) ArticleCAS Google Scholar
Scheer, N., Groth, A., Hans, S. & Campos-Ortega, J. A. An instructive function for Notch in promoting gliogenesis in the zebrafish retina. Development128, 1099–1107 (2001) CASPubMed Google Scholar
Ren, X., Gomez, G. A., Zhang, B. & Lin, S. Scl isoforms act downstream of etsrp to specify angioblasts and definitive hematopoietic stem cells. Blood115, 5338–5346 (2010) ArticleCAS Google Scholar
Kemp, C., Willems, E., Abdo, S., Lambiv, L. & Leyns, L. Expression of all Wnt genes and their secreted antagonists during mouse blastocyst and postimplantation development. Dev. Dyn.233, 1064–1075 (2005) ArticleCAS Google Scholar
Corrigan, P. M., Dobbin, E., Freeburn, R. W. & Wheadon, H. Patterns of Wnt/Fzd/LRP gene expression during embryonic hematopoiesis. Stem Cells Dev.18, 759–772 (2009) ArticleCAS Google Scholar
Westerfield, M. The Zebrafish Book. _A Guide for the Laboratory Use of Zebrafish (_Danio Rerio) (Univ. Oregon Press, 2004) Google Scholar
Parsons, M. J. et al. Notch-responsive cells initiate the secondary transition in larval zebrafish pancreas. Mech. Dev.126, 898–912 (2009) ArticleCAS Google Scholar
Turner, D. L. & Weintraub, H. Expression of achaete-scute homolog 3 in Xenopus embryos converts ectodermal cells to a neural fate. Genes Dev.8, 1434–1447 (1994) ArticleCAS Google Scholar
Clements, W. K. & Kimelman, D. LZIC regulates neuronal survival during zebrafish development. Dev. Biol.283, 322–334 (2005) ArticleCAS Google Scholar
Lele, Z., Bakkers, J. & Hammerschmidt, M. Morpholino phenocopies of the swirl, snailhouse, somitabun, minifin, silberblick, and pipetail mutations. Genesis30, 190–194 (2001) ArticleCAS Google Scholar
Nüsslein-Volhard, C. & Dahm, R. Zebrafish (Oxford Univ. Press, 2002) Google Scholar
Bertrand, J. Y., Kim, A. D., Teng, S. & Traver, D. CD41+ cmyb+ precursors colonize the zebrafish pronephros by a novel migration route to initiate adult hematopoiesis. Development135, 1853–1862 (2008) ArticleCAS Google Scholar