Survey of the morphogenetic dynamics of the ventricular surface of the developing mouse neocortex

Developmental Dynamics

Volumn 236, Issue 11, 2007, Pages 3061-3070

  Nishizawa, Yuji ^a   Imafuku, Hiroshi ^a   Saito, Kanako ^a   Kanda, Rieko ^a   Kimura, Miyako ^a   Minobe, Sayaka ^a,b   Miyazaki, Fumiko ^a   Kawakatsu, Shoji ^a   Masaoka, Makoto ^a   Ogawa, Masaharu ^c,d   Miyata, Takaki ^a,c,d  

^a NAGOYA UNIVERSITY GRADUATE SCHOOL OF MEDICINE   (Japan)

^b MIE UNIVERSITY SCHOOL OF MEDICINE   (Japan)

^c RIKEN BRAIN SCIENCE INSTITUTE   (Japan)

^d JAPAN SCIENCE AND TECHNOLOGY AGENCY   (Japan)

Author keywords

Cell division; Cerebral cortex; Endfoot; Planar cell polarity; Progenitor cell

Indexed keywords

ANIMAL CELL; ARTICLE; BRAIN DEVELOPMENT; CELL CYCLE M PHASE; CELL PROLIFERATION; CONTROLLED STUDY; DAUGHTER CELL; EMBRYO; IMMUNOHISTOCHEMISTRY; MORPHOGENESIS; MOUSE; NEOCORTEX; NONHUMAN; PRIORITY JOURNAL; STEM CELL; TELENCEPHALON;

ANIMALS; CELL CYCLE; CELL DIFFERENTIATION; CEREBRAL VENTRICLES; FEMALE; MICE; MORPHOGENESIS; MYOSINS; NEOCORTEX; TELENCEPHALON; TUBULIN; VIMENTIN;

MUS;

EID: 36448970056     PISSN: 10588388     EISSN: 10970177     Source Type: Journal    
DOI: 10.1002/dvdy.21351     Document Type: Article

References (50)

1. Buchman JJ, Tsai L-H. 2007. Spindle regulation in neural precursors of flies and mammals. Nat Rev Neurosci 8:89-100.
2. Cai L, Hayes NY, Takahashi T, Caviness VS Jr, Nowakowski RS. 2002. Size distribution of retrovirally marked lineages matches prediction from population measurement of cell cycle behavior. J Neurosci Res 69:731-744.
3. Chenn A, McConnell SK. 1995. Cleavage orientation and the asymmetric inheritance of Notch 1 immunoreactivity in mammalian neurogenesis. Cell 82:631-641.
4. Das T, Payer B, Cayouette M, Harris WA. 2003. In vivo time-lapse imaging of cell divisions during neurogenesis in the developing zebrafish retina. Neuron 37:597-609.
5. Englund C, Fink A, Lau C, Pharm D, Daza RAM, Bulfone A, Kowalczyk T, Hevner R. 2005. Pax6, Tbr2, and Tbr1 are expressed sequentially by radial glia, intermediate progenitor cells, and postmitotic neurons in developing neocortex. J Neurosci 25:247-251.
6. Fujita S. 1963. The matrix cell and cytogenesis in the developing central nervous system. J Comp Neurol 120:37-42.
7. Gong Y, Mo C, Fraser SE. 2004. Planar cell polarity signaling controls cell division orientation during zebrafish gastrulation. Nature 430:689-693.
8. Götz M, Barde Y-A. 2005. Radial glial cells: defined and major intermediates between embryonic stem cells and CNS neurons. Neuron 46:369-372.
9. Gould SJ, Howard S, Papadaki L. 1990. The development of ependyma in the human fetal brain: an immunohistological and electron microscopic study. Dev Brain Res 55:255-267.
10. Guillemot F. 2005. Cellular and molecular control of neurogenesis in the mammalian telencephalon. Curr Opin Cell Biol 17:1-9.
11. Haubensak W, Attardo A, Denk W, Huttner WB. 2004. Neurons arise in the basal neuroepithelium of the early mammalian telencephalon: a major site of neurogenesis. Proc Natl Acad Sci U S A 101:3196-3201.
12. Hayder TF, Ang Jr E, Rakic P. 2003. Mitotic spindle rotation and mode of cell division in the developing telencephalon. Proc Natl Acad Sci U S A 100:2890-2895.
13. Hinds JW, Ruffett TL. 1971. Cell proliferation in the neural tube: an electron microscopic and Golgi analysis in the mouse cerebral vesicle. Z Zellforsch 115:226-264.
14. Huttner WB, Kosodo Y. 2005. Symmetric versus asymmetric cell division during neurogenesis in the developing vertebrate central nervous system. Curr Opin Cell Biol 17:648-657.
15. Kosodo Y, Roper K, Haubensak W, Marzesco A-M, Corbeil D, Huttner WB. 2004. Asymmetric distribution of the apical plasma membrane during neurogenic divisions of mammalian neuroepithelial cells. EMBO J 23:2314-2324.
16. Landrieu P, Goffinet A. 1979. Mitotic spindle fiber orientation in relation to cell migration in the neo-cortex of normal and reeler mouse. Neurosci Lett 13:69-72.
17. Lien W-H, Klezovitch O, Fernandez TE, Delrow J, Vasioukhin V. 2006. αE-catenin controls cerebral cortical size by regulating the hedgehog signaling pathway. Science 311:1609-1612.
18. Miyata T. 2007a. Asymmetric cell division during brain morphogenesis. In: Macieira-Coelho A, editor. Asymmetric division. Progress in Molecular and Subcellular Biology. New York: Springer. p 121-142.
19. Miyata T. 2007b. Morphology and mechanics of daughter cells "delaminating" from the ventricular zone of the developing neocortex. Cell Adhes Migration 1:99-101.
20. Miyata T, Ogawa M. 2007. Twisting of neocortical progenitor cells underlies a spring-like mechanism for daughter-cell migration. Curr Biol 17:146-151.
21. Miyata T, Kawaguchi A, Okano H, Ogawa M. 2001. Asymmetric inheritance of radial glial fibers by cortical neurons. Neuron 31:727-741.
22. Miyata T, Kawaguchi A, Saito K, Kawano M, Mute T, Ogawa M. 2004. Asymmetric production of surface-dividing and non-surface-dividing cortical progenitor cells. Development 131:3133-3145.
23. Mizuhara E, Nakatani T, Minaki Y, Sakamoto Y, Ono Y, Takai Y. 2005. MAGI1 recruits Dll1 to cadherin-based adherens junctions and stabilizes it on the cell surface. J Biol Chem 280:26499-26507.
24. Nagele RG, Lee H-Y. 1979. Ultrastructural changes in cells associated with interkinetic nuclear migration in the developing chick neuroepithelium. Exp Zool 210:89-106.
25. Noctor SC, Flint AC, Weissman TA, Dammerman RS, Kriegstein AR. 2001. Neurons derived from radial glial cells establish radial units in neocortex. Nature 409:714-720.
26. Noctor SC, Martinez-Cerdeno V, Ivic L, Kriegstein AR. 2004. Cortical neurons arise in symmetric and asymmetric division zones and migrate through specific phases. Nat Neurosci 7:136-144.
27. Nonaka S, Yoshiba S, Watanabe D, Ikeuchi S, Goto T, Marshall WF, Hamada H. 2005. De novo formation of left-right asymmetry by posterior tilt of nodal cilia. Plos Biol 3:e268.
28. Ochiai W, Minobe S, Ogawa M, Miyata T. 2007. Transformation of pin-like ventricular zone cells into cortical neurons. Neurosci Res 57:326-329.
29. Rakic P. 2003. Elusive radial glial cells: historical and evolutionary perspective. Glia 43:19-32.
30. Roessmann U, Velasco ME, Sindely SD, Gambetti P. 1980. Glial fibrillary acidic protein (GFAP) in ependymal cells during development. An immunocytochemical study. Brain Res 200:13-21.
31. Saito K, Kawaguchi A, Kashiwagi S, Yasugi S, Ogawa M, Miyata T. 2003. Morphological asymmetry in dividing retinal progenitor cells. Dev Growth Differ 45:219-229.
32. Sausedo RA, Smith JL, Schoenwolf GC. 1997. Role of nonrandomly oriented cell division in shaping and bending of the neural plate. J Comp Neurol 381:473-488.
33. Schoenwolf GC. 1982. On the morphogenesis of the early rudiments of the developing central nervous system. Scan Electron Microsc 1982:1371-1385.
34. Schoenwolf GC, Alvarez IS. 1989. Roles of neuroepithelial cell rearrangement and division in shaping of the avian neural plate. Development 106:427-439.
35. Shin K, Fogg VC, Margolis B. 2006. Tight junctions and cell polarity. Annu Rev Cell Dev Biol 22:207-235.
36. Sidman RL, Miale IL, Feder N. 1959. Cell proliferation and migration in the primitive ependymal zone; an autoradiographic study of histogenesis in the nervous system. Exp Neurol 1:322-333.
37. Smart IH. 1972. Proliferative characteristics of the ependymal layer during the early development of the spinal cord in the mouse. J Anat 111:365-380.
38. Smart IH. 1973. Proliferative characteristics of the ependymal layer during the early development of the mouse neocortex: a pilot study based on recording the number, location and plane of cleavage of mitotic figures. J Anat 116:67-91.
39. Spassky N, Merkle FT, Flames N, Tramontin AD, Garcia-Verdugo JM, Alvarez-Buylla A. 2005. Adult ependymal cells are postmitotic and are derived from radial glial cells during embryogenesis. J Neurosci 25:10-18.
40. Sun Y, Goderie SK, Temple S. 2005. Asymmetric distribution of EGF receptor during mitosis generates diverse CNS progenitor cells. Neuron 45:873-886.
41. Takahashi T, Nowakowski RS, Caviness VS Jr. 1995. The cell cycle of the pseudostratified ventricular epithelium of the embryonic murine cerebral wall. J Neurosci 15:6046-6057.
42. Takahashi T, Nowakowski RS, Caviness VS Jr. 1996. The leaving or Q fraction of the murine cerebral proliferative epithelium: a general model of neocortical neuronogenesis. J Neurosci 16:6183-6196.
43. Tamai H, Shinohara H, Miyata T, Saito K, Nishizawa Y, Nomura T, Osumi N. 2007. Pax6 transcription factor regulates interkinetic nuclear movement in cortical progenitor cells via centrosomal stabilization. Genes Cells 12:983-996.
44. Tamamaki N, Nakamura K, Okamoto K, Kaneko T. 2001. Radial glia is a progenitor of neocortical neurons in the developing cerebral cortex. Neurosci Res 41:51-60.
45. Teng J, Rai T, Tanaka Y, Takei Y, Nakata T, Harasawa M, Kulkarni AB, Hirokawa N. 2005. The KIF3 motor transports N-cadherin and organizes the developing neuroepithelium. Nat Cell Biol 7:474-482.
46. Tsai JW, Chen Y, Kriegstein AR, Vallee RB. 2005. LIS1 RNA interference blocks neural stem cell division, morphogenesis, and motility at multiple stages. J Cell Biol 170:935-945.
47. Tuckett F, Morriss-Kay GM. 1985. The kinetic behaviour of the cranial neural epithelium during neurulation in the rat. J Embryol Exp Morphol 85:111-119.
48. Wu SX, Goebbels S, Nakamura K, Nakamura K, Kometani K, Minato N, Kaneko T, Nave KA, Tamamaki N. 2005. Pyramidal neurons of upper cortical layers generated by NEX-positive progenitor cells in the subventricular zone. Proc Natl Acad Sci U S A 102:17172-17177.
49. Zhong W, Feder JN, Jiang MM, Jan LY, Jan YN. 1996. Asymmetric localization of mammalian numb homolog during mouse cortical neurogenesis. Neuron 17:43-53.
50. Zhou Y, Atkins JB, Rompani SB, Bancescu DL, Petersen PH, Tang H, Zou KM, Stewart SB, Zhong W. 2007. The mammalian Golgi regulates Numb signaling in asymmetric cell division by releasing ACBD3 during mitosis. Cell 129:163-178.