A systems-level interrogation identifies regulators of Drosophila blood cell number and survival.

A systems-level interrogation identifies regulators of Drosophila blood cell number and survival.

In multicellular organisms, cell number is typically determined by a balance of intracellular signals that positively and negatively regulate cell survival and proliferation. Dissecting these signaling networks facilitates the understanding of normal development and tumorigenesis. Here, we study sig...

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Main Authors: Richelle Sopko, You Bin Lin, Kalpana Makhijani, Brandy Alexander, Norbert Perrimon, Katja Brückner
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2015-03-01
Series:PLoS Genetics
Online Access:http://europepmc.org/articles/PMC4352040?pdf=render
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spelling doaj-ee9af22734534172917d96446c39c5442020-11-24T22:05:32ZengPublic Library of Science (PLoS)PLoS Genetics1553-73901553-74042015-03-01113e100505610.1371/journal.pgen.1005056A systems-level interrogation identifies regulators of Drosophila blood cell number and survival.Richelle SopkoYou Bin LinKalpana MakhijaniBrandy AlexanderNorbert PerrimonKatja BrücknerIn multicellular organisms, cell number is typically determined by a balance of intracellular signals that positively and negatively regulate cell survival and proliferation. Dissecting these signaling networks facilitates the understanding of normal development and tumorigenesis. Here, we study signaling by the Drosophila PDGF/VEGF Receptor (Pvr) in embryonic blood cells (hemocytes) and in the related cell line Kc as a model for the requirement of PDGF/VEGF receptors in vertebrate cell survival and proliferation. The system allows the investigation of downstream and parallel signaling networks, based on the ability of Pvr to activate Ras/Erk, Akt/TOR, and yet-uncharacterized signaling pathway/s, which redundantly mediate cell survival and contribute to proliferation. Using Kc cells, we performed a genome wide RNAi screen for regulators of cell number in a sensitized, Pvr deficient background. We identified the receptor tyrosine kinase (RTK) Insulin-like receptor (InR) as a major Pvr Enhancer, and the nuclear hormone receptors Ecdysone receptor (EcR) and ultraspiracle (usp), corresponding to mammalian Retinoid X Receptor (RXR), as Pvr Suppressors. In vivo analysis in the Drosophila embryo revealed a previously unrecognized role for EcR to promote apoptotic death of embryonic blood cells, which is balanced with pro-survival signaling by Pvr and InR. Phosphoproteomic analysis demonstrates distinct modes of cell number regulation by EcR and RTK signaling. We define common phosphorylation targets of Pvr and InR that include regulators of cell survival, and unique targets responsible for specialized receptor functions. Interestingly, our analysis reveals that the selection of phosphorylation targets by signaling receptors shows qualitative changes depending on the signaling status of the cell, which may have wide-reaching implications for other cell regulatory systems.http://europepmc.org/articles/PMC4352040?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Richelle Sopko
You Bin Lin
Kalpana Makhijani
Brandy Alexander
Norbert Perrimon
Katja Brückner
spellingShingle Richelle Sopko
You Bin Lin
Kalpana Makhijani
Brandy Alexander
Norbert Perrimon
Katja Brückner
A systems-level interrogation identifies regulators of Drosophila blood cell number and survival.
PLoS Genetics
author_facet Richelle Sopko
You Bin Lin
Kalpana Makhijani
Brandy Alexander
Norbert Perrimon
Katja Brückner
author_sort Richelle Sopko
title A systems-level interrogation identifies regulators of Drosophila blood cell number and survival.
title_short A systems-level interrogation identifies regulators of Drosophila blood cell number and survival.
title_full A systems-level interrogation identifies regulators of Drosophila blood cell number and survival.
title_fullStr A systems-level interrogation identifies regulators of Drosophila blood cell number and survival.
title_full_unstemmed A systems-level interrogation identifies regulators of Drosophila blood cell number and survival.
title_sort systems-level interrogation identifies regulators of drosophila blood cell number and survival.
publisher Public Library of Science (PLoS)
series PLoS Genetics
issn 1553-7390
1553-7404
publishDate 2015-03-01
description In multicellular organisms, cell number is typically determined by a balance of intracellular signals that positively and negatively regulate cell survival and proliferation. Dissecting these signaling networks facilitates the understanding of normal development and tumorigenesis. Here, we study signaling by the Drosophila PDGF/VEGF Receptor (Pvr) in embryonic blood cells (hemocytes) and in the related cell line Kc as a model for the requirement of PDGF/VEGF receptors in vertebrate cell survival and proliferation. The system allows the investigation of downstream and parallel signaling networks, based on the ability of Pvr to activate Ras/Erk, Akt/TOR, and yet-uncharacterized signaling pathway/s, which redundantly mediate cell survival and contribute to proliferation. Using Kc cells, we performed a genome wide RNAi screen for regulators of cell number in a sensitized, Pvr deficient background. We identified the receptor tyrosine kinase (RTK) Insulin-like receptor (InR) as a major Pvr Enhancer, and the nuclear hormone receptors Ecdysone receptor (EcR) and ultraspiracle (usp), corresponding to mammalian Retinoid X Receptor (RXR), as Pvr Suppressors. In vivo analysis in the Drosophila embryo revealed a previously unrecognized role for EcR to promote apoptotic death of embryonic blood cells, which is balanced with pro-survival signaling by Pvr and InR. Phosphoproteomic analysis demonstrates distinct modes of cell number regulation by EcR and RTK signaling. We define common phosphorylation targets of Pvr and InR that include regulators of cell survival, and unique targets responsible for specialized receptor functions. Interestingly, our analysis reveals that the selection of phosphorylation targets by signaling receptors shows qualitative changes depending on the signaling status of the cell, which may have wide-reaching implications for other cell regulatory systems.
url http://europepmc.org/articles/PMC4352040?pdf=render
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