Litcius/Paper detail

P53-independent partial restoration of the p53 pathway in tumors with mutated p53 through ATF4 transcriptional modulation by ERK1/2 and CDK9

Xiaobing Tian, Nagib Ahsan, Amriti R. Lulla, Avital Lev, Philip H. Abbosh, David T. Dicker, Shengliang Zhang, Wafik S. El‐Deiry

2021Neoplasia28 citationsDOIOpen Access PDF

Abstract

A long-term goal in the cancer-field has been to develop strategies for treating p53-mutated tumors. A novel small-molecule, PG3-Oc, restores p53 pathway-signaling in tumor cells with mutant-p53, independently of p53/p73. PG3-Oc partially upregulates the p53-transcriptome (13.7% of public p53 target-gene dataset; 15.2% of in-house dataset) and p53-proteome (18%, HT29; 16%, HCT116-p53−/−). Bioinformatic analysis indicates critical p53-effectors of growth-arrest (p21), apoptosis (PUMA, DR5, Noxa), autophagy (DRAM1), and metastasis-suppression (NDRG1) are induced by PG3-Oc. ERK1/2- and CDK9-kinases are required to upregulate ATF4 by PG3-Oc which restores p53 transcriptomic-targets in cells without functional-p53. PG3-Oc represses MYC (ATF4-independent), and upregulates PUMA (ATF4-dependent) in mediating cell death. With largely nonoverlapping transcriptomes, induced-ATF4 restores p53 transcriptomic targets in drug-treated cells including functionally important mediators such as PUMA and DR5. Our results demonstrate novel p53-independent drug-induced molecular reprogramming involving ERK1/2, CDK9, and ATF4 to restore upregulation of p53 effector genes required for cell death and tumor suppression.

Topics & Concepts

PumaTranscriptomeDownregulation and upregulationApoptosisBiologyCancer researchCell biologyReprogrammingAutophagyProgrammed cell deathHippo signaling pathwayMdm2EffectorSignal transductionCellGeneGene expressionGeneticsCancer-related Molecular PathwaysEpigenetics and DNA MethylationCRISPR and Genetic Engineering