Antagonistic Growth Regulation by Dpp and Fat Drives Uniform Cell Proliferation
Copyright policy )Antagonistic Growth Regulation by Dpp and Fat Drives Uniform Cell Proliferation
We use the Dpp morphogen gradient in the Drosophila wing disc as a model to address the fundamental question of how a gradient of a growth factor can produce uniform growth. We first show that proper expression and subcellular localization of components in the Fat tumor-suppressor pathway, which have been argued to depend on Dpp activity differences, are not reliant on the Dpp gradient. We next analyzed cell proliferation in discs with uniformly high Dpp or uniformly low Fat signaling activity and found that these pathways regulate growth in a complementary manner. While the Dpp mediator Brinker inhibits growth in the primordium primarily in the lateral regions, Fat represses growth mostly in the medial region. Together, our results indicate that the activities of both signaling pathways are regulated in a parallel rather than sequential manner and that uniform proliferation is achieved by their complementary action on growth.
- ETH Zurich Switzerland
- University of Zurich Switzerland
- Institute of Molecular Life Sciences Hungary
Cell Polarity, Gene Expression Regulation, Developmental, Models, Biological, 10124 Institute of Molecular Life Sciences, 1309 Developmental Biology, 1307 Cell Biology, Drosophila melanogaster, SX00 SystemsX.ch, SX15 WingX, 1300 General Biochemistry, Genetics and Molecular Biology, 1312 Molecular Biology, 570 Life sciences; biology, Animals, Drosophila Proteins, Wings, Animal, Cell Adhesion Molecules, Developmental Biology, Body Patterning, Cell Proliferation, Signal Transduction
Cell Polarity, Gene Expression Regulation, Developmental, Models, Biological, 10124 Institute of Molecular Life Sciences, 1309 Developmental Biology, 1307 Cell Biology, Drosophila melanogaster, SX00 SystemsX.ch, SX15 WingX, 1300 General Biochemistry, Genetics and Molecular Biology, 1312 Molecular Biology, 570 Life sciences; biology, Animals, Drosophila Proteins, Wings, Animal, Cell Adhesion Molecules, Developmental Biology, Body Patterning, Cell Proliferation, Signal Transduction
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