The Spatiotemporal Limits of Developmental Erk Signaling

Heath E. Johnson; Yogesh Goyal; Nicole L. Pannucci; Trudi Schüpbach; Stanislav Y. Shvartsman; Jared E. Toettcher

doi:10.1016/j.devcel.2016.12.002

The Spatiotemporal Limits of Developmental Erk Signaling

Heath E. Johnson, Yogesh Goyal, Nicole L. Pannucci, Trudi Schüpbach, Stanislav Y. Shvartsman, Jared E. Toettcher^*

^*Corresponding author for this work

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

119 Scopus citations

Abstract

Animal development is characterized by signaling events that occur at precise locations and times within the embryo, but determining when and where such precision is needed for proper embryogenesis has been a long-standing challenge. Here we address this question for extracellular signal regulated kinase (Erk) signaling, a key developmental patterning cue. We describe an optogenetic system for activating Erk with high spatiotemporal precision in vivo. Implementing this system in Drosophila, we find that embryogenesis is remarkably robust to ectopic Erk signaling, except from 1 to 4 hr post-fertilization, when perturbing the spatial extent of Erk pathway activation leads to dramatic disruptions of patterning and morphogenesis. Later in development, the effects of ectopic signaling are buffered, at least in part, by combinatorial mechanisms. Our approach can be used to systematically probe the differential contributions of the Ras/Erk pathway and concurrent signals, leading to a more quantitative understanding of developmental signaling.

Original language	English (US)
Pages (from-to)	185-192
Number of pages	8
Journal	Developmental Cell
Volume	40
Issue number	2
DOIs	https://doi.org/10.1016/j.devcel.2016.12.002
State	Published - Jan 23 2017
Externally published	Yes

Keywords

Drosophila
MAP kinase
embryogenesis
optogenetics
signal transduction

ASJC Scopus subject areas

Molecular Biology
Biochemistry, Genetics and Molecular Biology(all)
Developmental Biology
Cell Biology

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10.1016/j.devcel.2016.12.002

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title = "The Spatiotemporal Limits of Developmental Erk Signaling",

abstract = "Animal development is characterized by signaling events that occur at precise locations and times within the embryo, but determining when and where such precision is needed for proper embryogenesis has been a long-standing challenge. Here we address this question for extracellular signal regulated kinase (Erk) signaling, a key developmental patterning cue. We describe an optogenetic system for activating Erk with high spatiotemporal precision in vivo. Implementing this system in Drosophila, we find that embryogenesis is remarkably robust to ectopic Erk signaling, except from 1 to 4 hr post-fertilization, when perturbing the spatial extent of Erk pathway activation leads to dramatic disruptions of patterning and morphogenesis. Later in development, the effects of ectopic signaling are buffered, at least in part, by combinatorial mechanisms. Our approach can be used to systematically probe the differential contributions of the Ras/Erk pathway and concurrent signals, leading to a more quantitative understanding of developmental signaling.",

keywords = "Drosophila, MAP kinase, embryogenesis, optogenetics, signal transduction",

author = "Johnson, {Heath E.} and Yogesh Goyal and Pannucci, {Nicole L.} and Trudi Sch{\"u}pbach and Shvartsman, {Stanislav Y.} and Toettcher, {Jared E.}",

note = "Funding Information: We thank members of the Toettcher and Shvartsman laboratories for comments and suggestions throughout this work, and Kei Yamaya for her help with fly husbandry. We also thank Celeste Berg (University of Washington) for the Capicua antibody and Amin Ghabrial (University of Pennsylvania) for valuable comments. H.E.J. was supported by NIH Ruth Kirschstein fellowship F32GM119297. This work was also supported by NIH grants R01GM077620 (T.S.), R01GM086537 (S.Y.S. and Y.G.), and DP2EB024247 (J.E.T.). We also thank Dr. Gary Laevsky and the Molecular Biology Microscopy Core, which is a Nikon Center of Excellence, for microscopy support. Publisher Copyright: {\textcopyright} 2017 Elsevier Inc.",

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doi = "10.1016/j.devcel.2016.12.002",

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AU - Johnson, Heath E.

AU - Goyal, Yogesh

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AU - Schüpbach, Trudi

AU - Shvartsman, Stanislav Y.

AU - Toettcher, Jared E.

N1 - Funding Information: We thank members of the Toettcher and Shvartsman laboratories for comments and suggestions throughout this work, and Kei Yamaya for her help with fly husbandry. We also thank Celeste Berg (University of Washington) for the Capicua antibody and Amin Ghabrial (University of Pennsylvania) for valuable comments. H.E.J. was supported by NIH Ruth Kirschstein fellowship F32GM119297. This work was also supported by NIH grants R01GM077620 (T.S.), R01GM086537 (S.Y.S. and Y.G.), and DP2EB024247 (J.E.T.). We also thank Dr. Gary Laevsky and the Molecular Biology Microscopy Core, which is a Nikon Center of Excellence, for microscopy support. Publisher Copyright: © 2017 Elsevier Inc.

PY - 2017/1/23

Y1 - 2017/1/23

N2 - Animal development is characterized by signaling events that occur at precise locations and times within the embryo, but determining when and where such precision is needed for proper embryogenesis has been a long-standing challenge. Here we address this question for extracellular signal regulated kinase (Erk) signaling, a key developmental patterning cue. We describe an optogenetic system for activating Erk with high spatiotemporal precision in vivo. Implementing this system in Drosophila, we find that embryogenesis is remarkably robust to ectopic Erk signaling, except from 1 to 4 hr post-fertilization, when perturbing the spatial extent of Erk pathway activation leads to dramatic disruptions of patterning and morphogenesis. Later in development, the effects of ectopic signaling are buffered, at least in part, by combinatorial mechanisms. Our approach can be used to systematically probe the differential contributions of the Ras/Erk pathway and concurrent signals, leading to a more quantitative understanding of developmental signaling.

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The Spatiotemporal Limits of Developmental Erk Signaling

Abstract

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