The rare nonsense mutation in p53 triggers alternative splicing to produce a protein capable of inducing apoptosis.

Evgeny M Makarov,Elena Yu Varfolomeeva,Michael V Filatov,Roman A Kovalev,Rimma A Pantina,Tatyana A Shtam,Sumitra Deb

doi:10.1371/journal.pone.0185126

Evgeny M Makarov, Elena Yu Varfolomeeva + Show 5 more

Open Access

https://doi.org/10.1371/journal.pone.0185126

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Journal: PloS one	Publication Date: Sep 29, 2017
Citations: 7	License type: CC BY 4.0

Affiliation: Brunel University London

Abstract

P53 protein is more frequently mutated in human tumours compared with the other proteins. While the majority of the p53 mutations, especially within its DNA-binding domain, lead to the loss of the wild-type function, there are accumulating data demonstrating that the p53 mutants gain tumour promoting activities; the latter triggers a revitalised interest in functional analysis of the p53 mutants. A systematic screening for p53 mutations in surgical materials from patients with glioma revealed a 378C>G mutation that creates a stop codon at the position of amino acid residue 126. The mutation eliminates the recognition site for the restriction endonuclease Sca I that allowed us to carry out RFLP analysis of DNA extracted from the clinical samples and suggests that this mutation is more frequent than is documented in the p53 databases. Both the ECV-304 and EJ cell lines, that probably originate from the bladder carcinoma T24 cell line, were confirmed to contain the homozygous 378C>G mutation but were shown to produce the p53 protein of expected full-length size detected by Western blotting. We provide evidence that the 378C>G mutation generates an alternative 3’ splice site (ss) which is more often used instead of the authentic upstream 3’ ss, driving the production of mRNA encoding the protein with the single amino acid deletion (p53ΔY126). Using endogenous expression, we demonstrated that the p53ΔY126 protein is nearly as active as the wild type protein in inducing the p21/Waf1 expression and apoptosis.

Highlights

The p53 protein is a major player of numerous pathways that regulate cellular responses to stress
This study investigates a rare C>G nucleotide substitution at position 378 of the p53 protein that creates a stop codon at the position of amino acid residue 126, and provides evidence that, in this mutant, premature termination of translation is avoided via a mechanism of alternative pre-mRNA splicing, generating the protein with the single amino acid deletion (p53ΔY126) that exhibits at least some functions of the wild-type protein
Through a joint programme with Polenov Institute of Neurosurgery, St Petersburg, Russia, we identified a C to G nucleotide substitution at position 378 of the p53 open reading (378C>G mutation) in one DNA sample extracted from surgical material of a patient with glioma

Summary

Introduction

The p53 protein is a major player of numerous pathways that regulate cellular responses to stress. Loss of p53 function through mutations, especially in the DNA binding domain which disrupts transcriptional regulation of target genes, was considered as the predominant contribution of p53 into oncogenesis [1]. This led to the hypothesis that restoration of wild-type p53 expression in tumour cells may eliminate malignant formations [7]. Another approach is a pharmacological reactivation of the mutant p53 which was successfully developed to restore the functionality of some of the p53 mutants using the small molecules, e.g., PRIMA-1 [11] and PK7088 [12]; the former is currently tested in the clinical trials [13]

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