Distinct types of glial cells populate the Drosophila antenna

BMC Developmental Biology

Volumn 5, Issue , 2005, Pages

  Sen, Anindya ^a,c   Shetty, Chetak ^a   Jhaveri, Dhanisha ^a,d   Rodrigues, Veronica ^a,b  

^a TATA INSTITUTE OF FUNDAMENTAL RESEARCH   (India)

^b TATA INSTITUTE OF FUNDAMENTAL RESEARCH   (India)

^c Och Spine at New York Presbyterian Hospitals   (United States)

^d UNIVERSITY OF QUEENSLAND   (Australia)

Author keywords

[No Author keywords available]

Indexed keywords

EPIDERMAL GROWTH FACTOR RECEPTOR; GREEN FLUORESCENT PROTEIN; GUANOSINE TRIPHOSPHATASE;

ANIMAL CELL; ANTENNA; ARTICLE; BRAIN; CELL LINE; CELL LINEAGE; CELL MIGRATION; CELL POPULATION; CELL TYPE; DROSOPHILA; GLIA CELL; NERVE CELL; NERVE FIBER; NONHUMAN; OLFACTORY RECEPTOR; PROTEIN FUNCTION; REGULATORY MECHANISM; ANIMAL; CELL MOTION; CYTOLOGY; GLIA; OLFACTORY SYSTEM; PHYSIOLOGY; SIGNAL TRANSDUCTION;

ANIMALIA; LEPIDOPTERA; MANDUCA; MANDUCA SEXTA;

ANIMALS; BRAIN; CELL MOVEMENT; DROSOPHILA; NEUROGLIA; OLFACTORY PATHWAYS; OLFACTORY RECEPTOR NEURONS; RECEPTOR, EPIDERMAL GROWTH FACTOR; SIGNAL TRANSDUCTION;

EID: 28844503826     PISSN: 1471213X     EISSN: 1471213X     Source Type: Journal    
DOI: 10.1186/1471-213X-5-25     Document Type: Article

References (37)

1. Korsching SI: Odor maps in the brain: spatial aspects of odor representation in sensory surface and olfactory bulb. Cell Mol Life Sci 2001, 58:520-530.
2. Wang F, Nemes A, Mendelsohn M, Axel R: Odorant receptors govern the formation of a precise topographic map. Cell 1998, 93:47-60.
3. Mombaerts P: How smell develops? Nature Neuroscience 2001, 4:192-1198.
4. Oland LA, Tolbert LP: Key interactions between neurons and glial cells during neural development in insects. Annu Rev Entomol 2003, 48:89-110.
5. Jefferis GSXE, Luo L: The Development of the Olfactory System. In Comprehensive Molecular Insect Science Volume 1. Edited by: Gilbert LI, Iatrou K, Gill SS. Elsevier Pergamon; 2005:421-463.
6. Jhaveri D, Saharan S, Sen A, Rodrigues V: Positioning glomeruli in the olfactory lobe of Drosophila by Robo signaling. Development 2004, 131:1903-1912.
7. Hummel T, Vasconceles ML, Clemens JC, Fishilevich Y, Vosshall LB, Zipursky SL: Axonal targeting of olfactory receptor neurons in Drosophila is controlled by Dscam. Neuron 2003, 37:221-231.
8. Chotard C, Salecker I: Neurons and glia: team players in axon guidance. Trends in Neurosci 2004, 27:6551-6561.
9. Oland LA, Tolbert LP: Glial patterns during early development of antennal lobes of Manduca sexta:acomparison between normal lobes and lobes deprived of antennal axons. J Comp Neurol 1987, 255:196-207.
10. Jhaveri D, Sen A, Rodrigues V: Mechanisms underlying olfactory neuronal connectivity in Drosophila-the Atonal lineage organizes the periphery while sensory neurons and glia pattern the olfactory lobe. Dev Biol 2000, 226:73-87.
11. Baumann PM, Oland LA, Tolbert LP: Glial cells stabilize axonal protoglomeruli in the developing olfactory lobe of the moth Manduca sexta. J Comp Neurol 1996, 373:118-28.
12. Oland LA, Tolbert LP, Mossman KL: Radiation-induced reduction of the glial population during development disrupts the formation of olfactory glomeruli in an insect. J Neurosci 1988, 8:353-67.
13. Gibson NJ, Rössler W, Nighorn AJ, Oland LA, Hildebrand JG, Tolbert LP: Neuron-glia communication via nitric oxide is essential in establishing antennal lobe structure in Manduca sexta. Dev Biol 2001, 240:326-339.
14. Jhaveri D, Rodrigues V: Sensory neurons of the Atonal lineage pioneer the formation of glomeruli within the adult Drosophila olfactory lobe. Development 2002, 129:1251-1260.
15. Rössler W, Oland LA, Higgins MR, Hildebrand JG, Tolbert LP: Development of a glia-rich axon-sorting zone in the olfactory pathway of the moth Manduca sexta. J Neurosci 1999, 19:9865-9877.
16. Tucker ES, Tolbert LP: Reciprocal interactions between olfactory receptor axons and olfactory nerve glia cultured from the developing moth Manduca sexta. Dev Biol 2003, 260:9-30.
17. Tucker ES, Oland LA, Tolbert LP: In vitro analyses of interactions between olfactory receptor growth cones and glial cells that mediate axon sorting and glomerulus formation. J Comp Neurol 2004, 472:478-495.
18. Ito K, Urban J, Technau GM: Distribution, classification, and development of Drosophila glial cells in the late embryonic and early larval ventral nerve cord. Roux Arch Dev Biol 1995, 204:284-307.
19. Stocker RF, Heimbeck G, Gendre N, de Belle JS: Neuroblast ablation in Drosophila P[GAL4] lines reveals origins of olfactory interneurons. J Neurobiol 1997, 132:443-456.
20. Sen A, Reddy GV, Rodrigues V: Combinatorial expression of Prospero, Seven-up and Elav, identify progenitor cell types during sense-organ differentiation in the Drosophila antenna. Dev Biol 2003, 254:79-92.
21. Gupta BP, Flores GV, Banerjee U, Rodrigues V: Patterning an epidermal field, Drosophila lozenge, a member of the AML-1/ Runt family of transcription factors, specifies olfactory sense organ type in a dose-dependent manner. Dev Biol 1998, 203:400-411.
22. Goulding SE, zur Lage P, Jarman AP: amos, a proneural gene for Drosophila olfactory sense organs that is regulated by lozenge. Neuron 2000, 25:69-78.
23. Sen A, Kuruvilla D, Pinto L, Sarin A, Rodrigues V: Programmed cell death and context dependent activation of the EGF pathway regulate gliogenesis in the Drosophila olfactory system. Mechanisms of Development 2004, 121:65-78.
24. Lee T, Luo L: Mosaic analysis with a repressible cell marker for studies of gene function in neuronal morphogenesis. Neuron 1999, 22:451-461.
25. Ang LH, Kim J, Stepensky V, Hing H: Dock and Pak regulate olfactory axon pathfinding in Drosophila. Development 2003, 130:1307-1316.
26. Jefferies GSXE, Vyas R, Berdnik D, Ramaekers A, Stocker RF, Tanaka NK, Luo L: Developmental origin of wiring specificity in the olfactory system of Drosophila. Development 2003, 131:117-130.
27. Aigouy B, Van de Bor V, Boeglin M, Giangrande A: Time-lapse and cell ablation reveal the role of cell interactions in fly glia migration and proliferation. Development 2004, 131:5127-38.
28. Shilo BZ: Signaling by the Drosophila epidermal growth factor receptor during development. Experimental cell Research 2003, 284:140-149.
29. Bergmann A, Tugentmann M, Shilo BZ, Steller H: Regulation of cell number by MAPK-dependent control of apoptosis: a mechanism for trophic survival signaling. Dev Cell 2002, 2:159-170.
30. Hidalgo A: Interactive nervous system development: control of cell survival in Drosophila. Biochem Soc Trans 2002, 31:50-55.
31. Sepp KJ, Auld VJ: RhoA and Rac1 GTPases mediate the dynamic rearrangement of actin in peripheral glia. Development 2003, 130:1825-35.
32. Vosshall LB, Wong AM, Axel R: An olfactory sensory map in the fly brain. Cell 2000, 102:147-159.
33. Bhalerao S, Sen A, Stocker R, Rodrigues V: Olfactory neurons expressing identified receptor genes project to subsets of glomeruli within the antennal lobe of Drosophila melanogaster. J Neurobiol 2003, 54:577-592.
34. Higgins MR, Gibson NJ, Eckholdt PA, Nighorn A, Copenhaver PF, Nardi J, Tolbert LP: Different isoforms of fasciclin II are expressed by a subset of developing olfactory receptor neurons and by olfactory-nerve glial cells during formation of glomeruli in the moth Manduca sexta. Dev Biol 2002, 244:134-154.
35. Rangarajan R, Gong Q, Gaul U: Migration and function of glia in the developing Drosophila eye. Development 1999, 126:3285-3292.
36. Condron B: Spatially distinct FGF-mediated signaling directs glial morphogenesis. Development 1999, 126:4635-4641.
37. Perrimon N, Perkins LA: There must be 50 ways to rule the signal: the case of the Drosophila EGF receptor. Cell 1997, 89:13-16.