Regulation of Hh signal transduction as Drosophila eye differentiation progresses

Nicholas E. Baker; Abhishek Bhattacharya; Lucy C. Firth

doi:10.1016/j.ydbio.2009.09.008

Regulation of Hh signal transduction as Drosophila eye differentiation progresses

Nicholas E. Baker, Abhishek Bhattacharya, Lucy C. Firth

Genetics

Research output: Contribution to journal › Article › peer-review

19 Scopus citations

Abstract

Differentiation of the Drosophila retina occurs as a morphogenetic furrow sweeps anteriorly across the eye imaginal disc, driven by Hedgehog secretion from photoreceptor precursors differentiating behind the furrow. A BTB protein, Roadkill, is expressed posterior to the furrow and targets the Hedgehog signal transduction component Cubitus interruptus for degradation by Cullin-3 and the proteosome. Clonal analysis and conditional mutant studies establish that roadkill transcription is activated by the EGF receptor and Ras pathway in most differentiating retinal cells, and by both EGF receptor/Ras and by Hedgehog signaling in cells that remain unspecified. These findings outline a circuit by which Hedgehog signal transduction is modified as Hedgehog signaling initiates retinal differentiation. A model is presented for regulation of the Cullin-3 and Cullin-1 pathways that modifies Hedgehog signaling as the morphogenetic furrow moves and the responses of retinal cells change.

Original language	English (US)
Pages (from-to)	356-366
Number of pages	11
Journal	Developmental Biology
Volume	335
Issue number	2
DOIs	https://doi.org/10.1016/j.ydbio.2009.09.008
State	Published - Nov 15 2009

Keywords

Cubitus Interruptus
Drosophila eye
EGF receptor
Hedgehog
Morphogenetic furrow
Signal transduction

ASJC Scopus subject areas

Molecular Biology
Developmental Biology
Cell Biology

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10.1016/j.ydbio.2009.09.008

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title = "Regulation of Hh signal transduction as Drosophila eye differentiation progresses",

abstract = "Differentiation of the Drosophila retina occurs as a morphogenetic furrow sweeps anteriorly across the eye imaginal disc, driven by Hedgehog secretion from photoreceptor precursors differentiating behind the furrow. A BTB protein, Roadkill, is expressed posterior to the furrow and targets the Hedgehog signal transduction component Cubitus interruptus for degradation by Cullin-3 and the proteosome. Clonal analysis and conditional mutant studies establish that roadkill transcription is activated by the EGF receptor and Ras pathway in most differentiating retinal cells, and by both EGF receptor/Ras and by Hedgehog signaling in cells that remain unspecified. These findings outline a circuit by which Hedgehog signal transduction is modified as Hedgehog signaling initiates retinal differentiation. A model is presented for regulation of the Cullin-3 and Cullin-1 pathways that modifies Hedgehog signaling as the morphogenetic furrow moves and the responses of retinal cells change.",

keywords = "Cubitus Interruptus, Drosophila eye, EGF receptor, Hedgehog, Morphogenetic furrow, Signal transduction",

author = "Baker, {Nicholas E.} and Abhishek Bhattacharya and Firth, {Lucy C.}",

note = "Funding Information: We thank K. Basler, R. Cagan, B. Hay, K. Moses, T. Schupbach, G. Struhl, J. Treisman, and the Drosophila Stock Center at Bloomington, Indiana for genetic strains. We thank R. Holgren and H. Bellen for antibodies. mAb40-1 was obtained from the Developmental Studies Hybridoma Bank developed under the auspices of the NICHD and maintained by The University of Iowa, Department of Biological Sciences, Iowa City, IA 52242. We thank L. Yang, D. Kalderon and J. Treisman for comments on the manuscript, and J. Treisman and J.-Y. Roignant for generously sharing unpublished reagents and data. Confocal microscopy was performed in the Analytical Imaging Facility at the Albert Einstein College of Medicine. We thank Sung-Yun Yu and Chunhui Fang for technical assistance and Lihui Yang for earlier work. This work was supported by grant from the National Institutes of Health ( GM47892 ). ",

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N2 - Differentiation of the Drosophila retina occurs as a morphogenetic furrow sweeps anteriorly across the eye imaginal disc, driven by Hedgehog secretion from photoreceptor precursors differentiating behind the furrow. A BTB protein, Roadkill, is expressed posterior to the furrow and targets the Hedgehog signal transduction component Cubitus interruptus for degradation by Cullin-3 and the proteosome. Clonal analysis and conditional mutant studies establish that roadkill transcription is activated by the EGF receptor and Ras pathway in most differentiating retinal cells, and by both EGF receptor/Ras and by Hedgehog signaling in cells that remain unspecified. These findings outline a circuit by which Hedgehog signal transduction is modified as Hedgehog signaling initiates retinal differentiation. A model is presented for regulation of the Cullin-3 and Cullin-1 pathways that modifies Hedgehog signaling as the morphogenetic furrow moves and the responses of retinal cells change.

AB - Differentiation of the Drosophila retina occurs as a morphogenetic furrow sweeps anteriorly across the eye imaginal disc, driven by Hedgehog secretion from photoreceptor precursors differentiating behind the furrow. A BTB protein, Roadkill, is expressed posterior to the furrow and targets the Hedgehog signal transduction component Cubitus interruptus for degradation by Cullin-3 and the proteosome. Clonal analysis and conditional mutant studies establish that roadkill transcription is activated by the EGF receptor and Ras pathway in most differentiating retinal cells, and by both EGF receptor/Ras and by Hedgehog signaling in cells that remain unspecified. These findings outline a circuit by which Hedgehog signal transduction is modified as Hedgehog signaling initiates retinal differentiation. A model is presented for regulation of the Cullin-3 and Cullin-1 pathways that modifies Hedgehog signaling as the morphogenetic furrow moves and the responses of retinal cells change.

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Regulation of Hh signal transduction as Drosophila eye differentiation progresses

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Keywords

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