A serrate-notch-canoe complex mediates essential interactions between glia and neuroepithelial cells during Drosophila optic lobe development
Pérez Gómez R, Slovakova J, Rives Quinto N, Krejčí A, Carmena A. 2013. A serrate-notch-canoe complex mediates essential interactions between glia and neuroepithelial cells during Drosophila optic lobe development. Journal of Cell Science. 126(21), 4873–4884.
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Journal Article
| Published
| English
Scopus indexed
Author
Pérez Gómez, Raquel;
Slovakova, JanaISTA;
Rives Quinto, Noemí;
Krejčí, Alena;
Carmena, Ana
Department
Abstract
It is firmly established that interactions between neurons and glia are fundamental across species for the correct establishment of a functional brain. Here, we found that the glia of the Drosophila larval brain display an essential non-autonomous role during the development of the optic lobe. The optic lobe develops from neuroepithelial cells that proliferate by dividing symmetrically until they switch to asymmetric/differentiative divisions that generate neuroblasts. The proneural gene lethal of scute (l9sc) is transiently activated by the epidermal growth factor receptor (EGFR)-Ras signal transduction pathway at the leading edge of a proneural wave that sweeps from medial to lateral neuroepithelium, promoting this switch. This process is tightly regulated by the tissue-autonomous function within the neuroepithelium of multiple signaling pathways, including EGFR-Ras and Notch. This study shows that the Notch ligand Serrate (Ser) is expressed in the glia and it forms a complex in vivo with Notch and Canoe, which colocalize at the adherens junctions of neuroepithelial cells. This complex is crucial for interactions between glia and neuroepithelial cells during optic lobe development. Ser is tissue-autonomously required in the glia where it activates Notch to regulate its proliferation, and non-autonomously in the neuroepithelium where Ser induces Notch signaling to avoid the premature activation of the EGFR-Ras pathway and hence of L9sc. Interestingly, different Notch activity reporters showed very different expression patterns in the glia and in the neuroepithelium, suggesting the existence of tissue-specific factors that promote the expression of particular Notch target genes or/and a reporter response dependent on different thresholds of Notch signaling.
Publishing Year
Date Published
2013-11-01
Journal Title
Journal of Cell Science
Publisher
Company of Biologists
Volume
126
Issue
21
Page
4873 - 4884
IST-REx-ID
Cite this
Pérez Gómez R, Slovakova J, Rives Quinto N, Krejčí A, Carmena A. A serrate-notch-canoe complex mediates essential interactions between glia and neuroepithelial cells during Drosophila optic lobe development. Journal of Cell Science. 2013;126(21):4873-4884. doi:10.1242/jcs.125617
Pérez Gómez, R., Slovakova, J., Rives Quinto, N., Krejčí, A., & Carmena, A. (2013). A serrate-notch-canoe complex mediates essential interactions between glia and neuroepithelial cells during Drosophila optic lobe development. Journal of Cell Science. Company of Biologists. https://doi.org/10.1242/jcs.125617
Pérez Gómez, Raquel, Jana Slovakova, Noemí Rives Quinto, Alena Krejčí, and Ana Carmena. “A Serrate-Notch-Canoe Complex Mediates Essential Interactions between Glia and Neuroepithelial Cells during Drosophila Optic Lobe Development.” Journal of Cell Science. Company of Biologists, 2013. https://doi.org/10.1242/jcs.125617.
R. Pérez Gómez, J. Slovakova, N. Rives Quinto, A. Krejčí, and A. Carmena, “A serrate-notch-canoe complex mediates essential interactions between glia and neuroepithelial cells during Drosophila optic lobe development,” Journal of Cell Science, vol. 126, no. 21. Company of Biologists, pp. 4873–4884, 2013.
Pérez Gómez R, Slovakova J, Rives Quinto N, Krejčí A, Carmena A. 2013. A serrate-notch-canoe complex mediates essential interactions between glia and neuroepithelial cells during Drosophila optic lobe development. Journal of Cell Science. 126(21), 4873–4884.
Pérez Gómez, Raquel, et al. “A Serrate-Notch-Canoe Complex Mediates Essential Interactions between Glia and Neuroepithelial Cells during Drosophila Optic Lobe Development.” Journal of Cell Science, vol. 126, no. 21, Company of Biologists, 2013, pp. 4873–84, doi:10.1242/jcs.125617.