Anirudh Prahallad scite author profile

This is an author version of the article published on:Questa è la versione dell'autore dell'articolo: Unresponsiveness of colon cancer to BRAF(V600E) inhibition through feedback activation of EGFR.Prahallad A, Sun C, Huang S, Di Nicolantonio F, Salazar R, Zecchin D, Beijersbergen RL, Bardelli A, Bernards R. Nature. 2012 Jan 26;483(7387):100-3. doi: 10.1038/nature10868. The final version is available at: La versione definitiva è disponibile alla URL:http://www.nature.com/nature/journal/v483/n7387/full/nature10868.html . We therefore set out to screen a short hairpin RNA (shRNA) library representing the full complement of 518 human kinases 12 (the "kinome") and 17 additional kinase-related genes (Table S1) for genes whose inhibition confers sensitivity to PLX4032 in BRAF V600E mutant CRC. WiDr cells were infected with the lentiviral kinome shRNA collection and cultured in the absence or presence of PLX4032 for 10 and 18 days, respectively. After this, the relative abundance of shRNA vectors was determined by next generation sequencing of the bar code identifiers present in each shRNA vector (Fig. 1C, see methods). We arbitrarily considered only shRNA vectors that had been sequenced at least 300 times and which were depleted at least five-fold by the drug treatment. Fig. 1D shows that only very few of the 3388 shRNA vectors in the library met this stringent selection criterion, among which were three independent shRNA vectors targeting the Epidermal Growth FactorReceptor (EGFR, see Table S2 for all selected shRNAs). This suggested that suppression of EGFR synergizes with BRAF inhibition in these CRC cells. To validate this finding, we infected WiDr cells with each of these three EGFR shRNA vectors (all of which reduced EGFR levels (Fig. 1F)) and cultured these cells with or without PLX4032 for two weeks. . We therefore began by investigating a potential role of CDC25C in the activation of EGFR. We suppressed CDC25C in WiDr cells by shRNA and monitored levels of p-EGFR.We found that two independent shCDC25C vectors caused an increase in p-EGFR (Fig. 2E).Moreover, treatment of WiDr cells with PLX4032 inhibited phosphorylation of CDC25C at Thr48 (Fig. 2F), which has been shown to be required for its phosphatase activity 15 .Together, these data are consistent with a model in which BRAF inhibition leads to inhibition of MEK and ERK kinases, which in turn leads to a reduced activation of CDC25C. Inhibition of CDC25C in turn causes an increase in p-EGFR due to decreased dephosphorylation (Fig. 2E). Our data do not exclude that the related CDC25A and B or other phosphatases are also involved in this feedback regulation of EGFR.The EGFR is expressed primarily in epithelial cancers 17. Since melanomas are derived from the neural crest, we reasoned that the favourable response of melanomas to vemurafenib might result from the paucity of EGF receptors on these tumours and hence the 6 absence of the feedback activation of EGFR by BRAF inhibition. We compared EGFR expression in a panel of BRAF V600E mutant melanoma, colo...

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Reversible and adaptive resistance to BRAF(V600E) inhibition in melanoma

Sun

Wang

Huang

et al. 2014

Nature

751

739

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MED12 Controls the Response to Multiple Cancer Drugs through Regulation of TGF-β Receptor Signaling

Huang

Hölzel

Knijnenburg

et al. 2012

Cell

386

345

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Inhibitors of the ALK and EGF receptor tyrosine kinases provoke dramatic but short-lived responses in lung cancers harboring EML4-ALK translocations or activating mutations of EGFR, respectively. We used a large-scale RNAi screen to identify MED12, a component of the transcriptional MEDIATOR complex that is mutated in cancers, as a determinant of response to ALK and EGFR inhibitors. MED12 is in part cytoplasmic where it negatively regulates TGF-βR2 through physical interaction. MED12 suppression therefore results in activation of TGF-βR signaling, which is both necessary and sufficient for drug resistance. TGF-β signaling causes MEK/ERK activation, and consequently MED12 suppression also confers resistance to MEK and BRAF inhibitors in other cancers. MED12 loss induces an EMT-like phenotype, which is associated with chemotherapy resistance in colon cancer patients and to gefitinib in lung cancer. Inhibition of TGF-βR signaling restores drug responsiveness in MED12(KD) cells, suggesting a strategy to treat drug-resistant tumors that have lost MED12.

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