Dataset: A sumoylation-dependent transcriptional subprogram is required for Myc-driven tumorigenesis
Myc is an oncogenic transcription factor frequently dysregulated in human cancer. To identify pathways supporting the Myc oncogenic...
Myc is an oncogenic transcription factor frequently dysregulated in human cancer. To identify pathways supporting the Myc oncogenic program, we employed a genome-wide RNAi screen for Myc-synthetic-lethal (MySL) genes and uncovered a role for the SUMO-activating-enzyme (SAE1/2). Loss of SAE1/2 enzymatic activity drives synthetic lethality with Myc. Mechanistically, SAE2 inhibition switches a transcriptional subprogram of Myc from activated to repressed. A subset of these SUMOylation-dependent Myc-switchers (SMS genes) governs mitotic spindle function and is required to support the Myc oncogenic program. comparison of 4 treatments: normal HMEC, High Myc in HMEC, SUMO depleted in HMEC, High Myc+Sumo Depleted in HMEC
- Species:
- human
- Samples:
- 12
- Source:
- E-GEOD-34055
- Updated:
- Dec.12, 2014
- Registered:
- Sep.16, 2014
| Sample | TREATMENT |
|---|---|
| GSM841045 | control |
| GSM841046 | Tamoxifen induced |
| GSM841047 | shRNA SAE2 |
| GSM841048 | Tamoxifen+shRNA |
| GSM841045 | control |
| GSM841046 | Tamoxifen induced |
| GSM841047 | shRNA SAE2 |
| GSM841048 | Tamoxifen+shRNA |
| GSM841045 | control |
| GSM841046 | Tamoxifen induced |
| GSM841047 | shRNA SAE2 |
| GSM841048 | Tamoxifen+shRNA |