posted on 2024-07-10, 13:01authored byKhatoun Al Moussawi, Kathryn Chung, Thomas M Carroll, Christian Osterburg, Artem Smirnov, Rebecca Lotz, Paul Miller, Zinaida Dedeić, Shan Zhong, Martin Oti, Evelyn N Kouwenhoven, Ruth Asher, Robert Goldin, Michael Tellier, Shona Murphy, Huiqing Zhou, Volker Dötsch, Xin Lu
Concurrent mutation of a RAS oncogene and the tumor suppressor p53 is common in tumorigenesis, and inflammation can promote RAS-driven tumorigenesis without the need to mutate p53. Here, we show, using a well-established mutant RAS and an inflammation-driven mouse skin tumor model, that loss of the p53 inhibitor iASPP facilitates tumorigenesis. Specifically, iASPP regulates expression of a subset of p63 and AP1 targets, including genes involved in skin differentiation and inflammation, suggesting that loss of iASPP in keratinocytes supports a tumor-promoting inflammatory microenvironment. Mechanistically, JNK-mediated phosphorylation regulates iASPP function and inhibits iASPP binding with AP1 components, such as JUND, via PXXP/SH3 domain-mediated interaction. Our results uncover a JNK-iASPP-AP1 regulatory axis that is crucial for tissue homeostasis. We show that iASPP is a tumor suppressor and an AP1 coregulator.
The sequencing data generated during this study is available at GEO under SuperSeries (GEO: GSE188448). A publicly accessible UCSC genome browser session to assist visualization of ChIP-seq results from this study is available at http://genome.ucsc.edu/s/CarrollTM/iASPP_keratinocyte_p63. Original western blots and microscopy images have been deposited to Mendeley (Mendeley Data: https://doi.org/10.17632/23yddhm5sn.1) and are publicly available as of the date of publication.
All original code has been deposited at Zenodo and is publicly available as of the date of publication (Zenodo: https://doi.org/10.5281/zenodo.7023228). Code to reproduce this analysis can be also found at GitHub: github.com/t-carroll/iASPP_keratinocyte_ChIPseq_RNAseq.
Any additional information required to reanalyse the data reported in this paper is available from the lead contact upon request.