Eiger/TNFα-mediated Dilp8 and ROS production coordinate intra-organ growth inDrosophila
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Drosophila p53 activation of Eiger/JNK signaling induces dILP8 for intra-organ growth coordination and ROS production for adjacent cell proliferation regulation.
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Abstract
ABSTRACT Coordinated intra- and inter-organ growth is essential during animal development to generate individuals of proper size and shape. The Drosophila wing has been a valuable model system to reveal the existence of a stress response mechanism mediated by Drosophila p53 (Dmp53) and involved in the coordination of tissue growth between adjacent cell populations upon targeted reduction of growth rates. Here we present evidence that a two-step molecular mechanism is being used by Dmp53 to reduce in a non-autonomous manner growth and proliferation in adjacent cell populations. First, Dmp53-mediated transcriptional induction of Drosophila TNFα ligand Eiger leads to cell autonomous activation of JNK. Second, two different signaling events downstream of the Eiger/JNK axis are induced in the growth depleted territory in order to independently regulate tissue size and cell number in adjacent cell populations. Whereas expression of the systemic hormone dILP8 coordinates intra-organ growth and final tissue size, induction of Reactive Oxygen Species downstream of Eiger/JNK and, as a consequence of apoptosis induction, acts non-cell-autonomously to regulate proliferation rates of adjacent epithelial cells. Our results unravel how local and systemic signals can act concertedly to coordinate growth and proliferation within an organ in order to generate well-proportioned organs and functionally integrated adults. Author Summary Coordination of growth between the different parts of a given developing organ is an absolute requirement for the generation of functionally integrated structures during animal development. Although this question has fascinated biologists for centuries, the responsible molecular mechanisms have remained so far unknown. In this work, we have used the developing wing primordium of Drosophila to identify the molecular mechanisms and signaling molecules mediating communication between adjacent cell populations upon targeted reduction in growth rates. We first present evidence that activation of Drosophila p53 in the growth-depleted territory induces expression of the fly TNF ligand Eiger which cell autonomously activates the JNK stress signaling pathway. While JNK-dependent expression of the systemic hormone dILP8 reduces growth and final size of the adjacent territories, production of Reactive Oxygen Species downstream of JNK and the apoptotic machinery act locally to regulate proliferation rates in adjacent epithelial cells. Our data reveal how signals acting locally or systemically can regulate cell proliferation and growth independently to accomplish coordination in tissue size and cell number among different parts of an organ in order to give rise to well-proportioned adult structures. HIGHLIGHTS ✓ Dmp53-dependent Eiger expression is required to coordinate intra-organ growth ✓ Eiger acts through its receptor Grindelwald and JNK signaling to reduce growth and proliferation rates in a non-cell-autonomous manner ✓ Eiger/JNK-dependent Dilp8 expression coordinates intra-organ growth but not proliferation ✓ Eiger/JNK activation triggers ROS production ✓ ROS act non-cell-autonomously to regulate proliferation of adjacent epithelial cells.
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