AI Article Synopsis
- Steroid hormones significantly influence gene activation and repression, impacting cell development and cancer progression.
- The research focused on mapping the transcriptional response to 20-hydroxyecdysone (ecdysone) in 41 cell lines, revealing distinct gene response patterns based on cell origins and transcription factor levels.
- Findings highlight that only a few genes respond universally, with the ecdysone receptor heterodimer playing a crucial role in this process, providing insights into gene regulation mechanisms linked to steroid hormones in Drosophila.
Article Abstract
Steroid hormones induce cascades of gene activation and repression with transformative effects on cell fate . Steroid transduction plays a major role in the development and physiology of nearly all metazoan species, and in the progression of the most common forms of cancer. Despite the paramount importance of steroids in developmental and translational biology, a complete map of transcriptional response has not been developed for any hormone . In the case of 20-hydroxyecdysone (ecdysone) in Drosophila melanogaster, these trajectories range from apoptosis to immortalization. We mapped the ecdysone transduction network in a cohort of 41 cell lines, the largest such atlas yet assembled. We found that the early transcriptional response mirrors the distinctiveness of physiological origins: genes respond in restricted patterns, conditional on the expression levels of dozens of transcription factors. Only a small cohort of genes is constitutively modulated independent of initial cell state. Ecdysone-responsive genes tend to organize into directional same-stranded units, with consecutive genes induced from the same strand. Here, we identify half of the ecdysone receptor heterodimer as the primary rate-limiting step in the response, and find that initial receptor isoform levels modulate the activated cohort of target transcription factors. This atlas of steroid response reveals organizing principles of gene regulation by a model type II nuclear receptor and lays the foundation for comprehensive and predictive understanding of the ecdysone transduction network in the fruit fly.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4777130 | PMC |
| http://dx.doi.org/10.1534/g3.115.023366 | DOI Listing |
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