Open access · CC-BY
via OpenAlex
The Drosophila Forkhead transcription factor FOXO mediates the reduction in cell number associated with reduced insulin signaling
Martin A. Jünger, Felix Rintelen, Hugo Stocker, Jonathan D. Wasserman, Mátyás Végh, Thomas Radimerski, Michael E. Greenberg, Ernst Hafen
Journal of Biology · 2003 · ▲ 620 citations
Deregulated nutrient-sensing
Mitochondrial dysfunction
Altered intercellular communication
Drosophila
C. elegans
Human
Abstract
BACKGROUND: Forkhead transcription factors belonging to the FOXO subfamily are negatively regulated by protein kinase B (PKB) in response to signaling by insulin and insulin-like growth factor in Caenorhabditis elegans and mammals. In Drosophila, the insulin-signaling pathway regulates the size of cells, organs, and the entire body in response to nutrient availability, by controlling both cell size and cell number. In this study, we present a genetic characterization of dFOXO, the only Drosophila FOXO ortholog. RESULTS: Ectopic expression of dFOXO and human FOXO3a induced organ-size reduction and cell death in a manner dependent on phosphoinositide (PI) 3-kinase and nutrient levels. Surprisingly, flies homozygous for dFOXO null alleles are viable and of normal size. They are, however, more sensitive to oxidative stress. Furthermore, dFOXO function is required for growth inhibition associated with reduced insulin signaling. Loss of dFOXO suppresses the reduction in cell number but not the cell-size reduction elicited by mutations in the insulin-signaling pathway. By microarray analysis and subsequent genetic validation, we have identified d4E-BP, which encodes a translation inhibitor, as a relevant dFOXO target gene. CONCLUSION: Our results show that dFOXO is a crucial mediator of insulin signaling in Drosophila, mediating the reduction in cell number in insulin-signaling mutants. We propose that in response to cellular stresses, such as nutrient deprivation or increased levels of reactive oxygen species, dFOXO is activated and inhibits growth through the action of target genes such as d4E-BP.
◌ CITATION ONLY
Full text is not openly licensed for redistribution here. Read it at the source:
Provenance
- Source
- OpenAlex
- DOI
- 10.1186/1475-4924-2-20
- Canonical
- link ↗
- Fetched
- 2026-06-30 MST
Cite this
APA
Jünger, M.A., Rintelen, F., Stocker, H., Wasserman, J.D., Végh, M., Radimerski, T., Greenberg, M.E., & Hafen, E. (2003). The Drosophila Forkhead transcription factor FOXO mediates the reduction in cell number associated with reduced insulin signaling. <em>Journal of Biology</em>. https://doi.org/10.1186/1475-4924-2-20
Vancouver
Jünger MA, Rintelen F, Stocker H, Wasserman JD, Végh M, Radimerski T, et al. The Drosophila Forkhead transcription factor FOXO mediates the reduction in cell number associated with reduced insulin signaling. Journal of Biology. 2003. doi:10.1186/1475-4924-2-20.
BibTeX
@article{martin2003TheDro,
title = {The Drosophila Forkhead transcription factor FOXO mediates the reduction in cell number associated with reduced insulin signaling},
author = {Martin A. Jünger and Felix Rintelen and Hugo Stocker and Jonathan D. Wasserman and Mátyás Végh and Thomas Radimerski and Michael E. Greenberg and Ernst Hafen},
journal = {Journal of Biology},
year = {2003},
doi = {10.1186/1475-4924-2-20},
}
Research neighborhood
References, citing works, and semantically nearest findings. Click a node to open it.
Related findings
Aging Cell 2011
Open access · OA
dFOXO‐independent effects of reduced insulin‐like signaling in <i>Drosophila</i>
Cell Reports 2014
Open access · OA
Cell-Nonautonomous Effects of dFOXO/DAF-16 in Aging
The Journal of Cell Biology 2016
Open access · OA
4E-BP is a target of the GCN2–ATF4 pathway during <i>Drosophila</i> development and aging
Proceedings of the National Academy of Sciences 2008
Preprint · OA
<i>Drosophila</i> germ-line modulation of insulin signaling and lifespan
Aging Cell 2011
Open access · OA
Insulin receptor substrate <i>chico</i> acts with the transcription factor FOXO to extend Drosophila lifespan
Frontiers in Endocrinology 2023
Open access · CC-BY