Two distinct mechanisms segregate Prospero in the longitudinal glia underlying the timing of interactions with axons

Neuron Glia Biology

Volumn 3, Issue 1, 2007, Pages 75-88

  Griffiths, Rachel C ^a,b   Benito Sipos, Jonathan ^a,c   Fenton, Janine C ^a   Torroja, Laura ^c   Hidalgo, Alicia ^a  

^a UNIVERSITY OF BIRMINGHAM   (United Kingdom)

^b UNIVERSITY OF CAMBRIDGE   (United Kingdom)

^c UNIVERSIDAD AUTÓNOMA DE MADRID   (Spain)

Author keywords

Axon guidance; Drosophila; Glia; Miranda; Neuron glia interaction; Notch; Numb; Proliferation; Prospero; Serrate

Indexed keywords

NOTCH RECEPTOR;

CELL LINEAGE; CELL MIGRATION; CELL PROLIFERATION; ECTODERM; GLIA; INSECT CELL; MITOSIS; MOLECULAR BIOLOGY; MOLECULAR INTERACTION; NERVE CELL DIFFERENTIATION; NERVE FIBER; NEUROCHEMISTRY; NONHUMAN; PRIORITY JOURNAL; PROTEIN EXPRESSION; PROTEIN FUNCTION; PROTEIN LOCALIZATION; REVIEW; SIGNAL TRANSDUCTION;

PROSPERO;

EID: 34548312477     PISSN: 1740925X     EISSN: 17410533     Source Type: Journal    
DOI: 10.1017/S1740925X07000610     Document Type: Review

References (47)

1. Badenhorst P. (2001) Tramtrack controls glial number and identity in the Drosophila embryonic CNS. Development 128, 4093-4101.
2. Bernardoni R., Kammerer M., Vonesch J-L. and Giangrande A. (1999) Gliogenesis depends on glide/gcm through asymmetric division of neuroglioblasts. Developmental Biology 216, 265-275.
3. Bernardos R.L., Lentz S.I., Wolfe M.S. and Raymond P.A. (2004) Notch-Delta signaling is required for spatial patterning and Müller glia differentiation in the zebrafish retina. Developmental Biology 278, 381-395.
4. Betschinger J. and Knoblich J.A. (2004) Dare to be different: asymmetric cell division in Drosophila, C. elegans and vertebrates. Current Biology 14, R674-R685.
5. Bhalerao S., Berdnik D., Török T. and Knoblich J.A. (2005) Localization-dependent and independent roles f numb contribute to cell-fate specification in Drosophila. Current Biology 15, 1583-1590.
6. Ceron J., Gonzalez C. and Tejedor F.J. (2001) Patterns of cell division and expression of asymmetric cell fate determinants in post-embryonic neuroblast lineages of drosophila. Developmental Biology 230, 125-138.
7. Chotard C. and Salecker I. (2004) Neurons and glia: team players in axon guidance. Trends in Neurosciences 27, 655-661.
8. Durand B. and Raff M. (2000) A cell-intrinsic timer that operates during oligodendrocyte development. BioEssays 22, 64-71.
9. Freeman M. and Doe C.Q. (2001) Asymmetric Prospero localisation is required to generate mixed neuronal/glial lineages in the Drosophila CNS. Development 128, 4103-4112.
10. Freeman M. and Doherty J. (2006) Glial cell biology in Drosophila and vertebrates. Trends in Neurosciences 29, 82-90.
11. Genoud S., Lappe-Siefke C., Goebbels S., Radtke F., Aguet M., Scherer S.S. et al. (2002) Notch1 control of oligodendrocyte differentiation in the spinal cord. Journal of Cell Biology 158, 709-718.
12. Gho M., Bellaiche Y. and Schwiesguth F. (1999) Revisiting the Drosophila microchaete lineage: a novel intrinsically asymmetric cell division generates a glial cell. Development 126, 3573-3584.
13. Givogri M.I., Costa R.M., Schonmann N., Silva A.J., Campagnoni A.T. and Bongarzone E.R. (2002) Central nervous system myelination in mice with deficient expression of Notch1 receptor. Journal of Neuroscience Research 67, 309-320.
14. Griffiths R. and Hidalgo A. (2004) Prospero maintains the mitotic potential of glial precursors enabling them to respond to neurons. EMBO J 23, 2440-2450.
15. Han Z. and Bodmer R. (2003) Myogenic cell fates are antagonized by Notch only in asymmetric lineages of the heart, with or without cell division. Development 130, 3039-3051.
16. Henrique D. and Scheiwsguth F. (2003) Cell polarity: the ups and downs of the Par6/aPKC complex. Current Opinion in Genetics and Development 13, 341-350.
17. Hidalgo A. and Booth G.E. (2000) Glia dictate pioneer axon trajectories in the Drosophila embryonic CNS. Development 127, 393-402.
18. Hidalgo A., Kinrade E.F.V. and Georgiou M. (2001) The Drosophila Neuregulin Vein maintains glial survival during axon guidance in the CNS. Developmental Cell 1, 679-690.
19. Hukriede N.A. and Fleming R.J. (1997) Beaded of Goldschmidt, an antimorphic allele of Serrate, encodes a protein lacking transmembrane and intracellular domains. Genetics 145, 359-374.
20. Jacobs J.R. (2000) The midline glia of Drosophila: a molecular genetic model for the developmental functions of glia. Progress in Neurobiology 62, 475-508.
21. Jacobs R., Hiromi Y., Patel N.H. and Goodman C.S. (1989) Lineage, migration and morphogenesis of longitudinal glia in the Drosophila CNS as revealed by a molecular lineage marker. Neuron 2, 1621-1635.
22. Jan Y-N. and Jan L.Y. (2001) Asymmetric cell division in the Drosophila nervous system. Nature Reviews Neuroscience 2, 772-779.
23. John G.R., Shankar S.L., Shafit-Zagardo B., Massimi A., Lee S.C., Raine C.S. et al. (2002) Multipkle sclerosis: re-expression of a developmental pathway that restricts oligodendrocyte maturation. Nature Medicine 8, 1115-1121.
24. Knoblich J., Sauer K., Jones L., Richardson H., Saint R. and Lehner C.F. (1994) Cyclin E controls S phase progression and its downregulation during Drosophila embryogenesis is required for the arrest of cell proliferation. Cell 77, 107-120.
25. Knoblich J.A. (2001) Asymmetric cell division during animal development. Nature Reviews Molecular Cell Biology 2, 11-20.
26. Kraut R., Chia W., Jan L.Y., Jan Y.N. and Knoblich J.A. (1996) Role of inscuteable in orienting asymmetric cell divisions in Drosophila. Nature 383, 50-55.
27. Lear B.C., Skeath J.B. and Patel N.H. (1999) neural cell fate in rca1 and cycA mutants: the roles of intrinsic and extrinsic factors in asymmetric divission in the Drosophila central nervous system. Mechanisms of Development 88, 207-219.
28. Manning L. and Doe C.Q. (1999) Prospero distinguishes sibling cell fate without asymmetric localization in the Drosophila adult external sense oran lineage. Development 126, 2063-2071.
29. Matsuzaki F. (2000) Asymmetric division of Drosophila neural stem cells: a basis for neural diversity. Current Opinion in Neurobiology 10, 38-44.
30. Miller R.H. (2002) Regulation of oligodendrocyte development in the vertebrate CNS. Progress in Neurobiology 67, 451-467.
31. Nelson W.J. (2003) Adaptation of core mechanisms to generate cell polarity. Nature 422, 766-774.
32. Park H-C. and Appel B. (2003) delta-Notch signaling regulates oligodendrocye specification. Development 130, 3747-3755.
33. Patel N.H. (1994) Imaging neuronal subsets and other cell types in whole-mount Drosophila embryos and larvae using antibody probes. In Goldstein, L.S.B. and Fyrberg, B.A. (eds) Drosophila melanogaster: Practical Uses in Cell and Molecular Biology. Academic Press, pp 446-485.
34. Raff M.C. (1996) Size control: the regulation of cell numbers in animal development. Cell 86, 173-175.
35. Raff M.C., Barres B.A., Burne J.F., Coles H.S., Ishizaki Y. and Jacobson M.D. (1993) Programmed cell death and the control of cell survival: Lessons from the nervous system. Science 262, 695-700.
36. Reddy G.V. and Rodrigues V. (1999) Sibling cell fate in the Drosophila adult external sense organ lineage is specified by Prospero function, which is regulated by Numb and Notch. Development 128, 2083-2092.
37. Richardson H., O'Keele L., Reed S. and Saint R. (1993) A Drosophila G1-specific cyclin E homolog exhibits different modes of expression during embryogenesis. Development 119, 673-690.
38. Roovers K. and Assoian R.K. (2000) Integrating the MAPKinase siganl into the G1 phase cell cycle machinery. BioEssays 22, 818-826.
39. Schmidt H., Rickert C., Bossing T., Vef O., Urban J. and Technau G.M. (1997) The embryonic Central Nervous System lineages of Drosophila melanogaster. II. Neuroblast lineages derived from the dorsal part of the neuroectoderm. Developmental Biology 189, 186-204.
40. Schweisguth F. (2004) Regulation of Notch signalling activity. Current Biology 14, R129-R138.
41. Thomas G.B. and van Meyel D.J. (2007) The glycosyltransferase Fringe promotes Delta-Notch signaling between neurons and glia and is required for subtype-sepcific glial gene expression. Development 134, 591-600.
42. Udolph G., Rath G. and Chia W. (2001) A requirement for Notch in the genesis of a subset of glial cells in the Drosophila embryonic central nervous system which arise through asymmetric divisions. Development 128, 1457-1466.
43. Umesono Y., Hiromi Y. and Hotta Y. (2002) Context-dependent utilization of Notch activity in Drosophila glial determination. Development 129, 2391-2399.
44. Van de Bor V. and Giangrande A. (2001) Notch signalling represses the glial fate in the fly PNS. Development 128, 1381-1390.
45. Van de Bor V., Walther R. and Giangrande A. (2000) Some fly sensory organs are gliogenic and require glide/gcm in a precursor that divides symmetrically and produces glial cells. Development 127, 3735-3743.
46. Wai P., Truong B. and Bhat K.M. (1999) Cell division genes promote asymmetric interaction between numb and Notch in the Drosophila CNS. Development 126, 2759-2770.
47. Wang J., Ghosh P., Charnay P., Burns D.K. and Nofsiger D. (1998) Notch receptor activation inhibits oligodendrocyte differentiation. Neuron 21, 63-75.