Abstract
We investigated the influence of selected TP53 SNPs in exon 4 and intron 4 on cancer risk, clinicopathological features and expression of TP53 isoforms. The intron 4 SNPs were significantly over-represented in cohorts of mixed cancers compared to three ethnically matched controls, suggesting they confer increased cancer risk. Further analysis showed that heterozygosity at rs1042522(GC) and either of the two intronic SNPs rs9895829(TC) and rs2909430(AG) confer a 2.34-5.35-fold greater risk of developing cancer. These SNP combinations were found to be associated with shorter patient survival for glioblastoma and prostate cancer. Additionally, these SNPs were associated with tumor-promoting inflammation as evidenced by high levels of infiltrating immune cells and expression of the Δ133TP53 and TP53β transcripts. We propose that these SNP combinations allow increased expression of the Δ133p53 isoforms to promote the recruitment of immune cells that create an immunosuppressive environment leading to cancer progression.
Highlights
single nucleotide polymorphisms (SNP) combination was associated with survival outcome for prostate cancers (PCa) patients, while in GBMs both rs22(GC)+rs29(TC) and rs22(GC)+rs30(AG) SNP combinations were associated with patient survival
These results suggest that certain SNP combinations may influence cancer outcomes for individuals with GBM and PCa
These results suggest that the presence of the minor allele for either of the two intronic SNPs in combination with heterozygous rs22 SNP is associated with elevated levels of the ∆133TP53 family and the TP53β splice variant in these tumour types
Summary
Simple Summary: We investigated the influence of genetic variants, called single nucleotide polymorphisms (SNP) in the TP53 tumour suppressor gene, on cancer risk, clinical features and TP53 isoform levels. These SNPs were significantly over-represented in cohorts of mixed cancers versus controls, suggesting they confer increased cancer risk. We investigated the influence of selected TP53 SNPs in exon 4 and intron 4 on cancer risk, clinicopathological features and expression of TP53 isoforms. The intron 4 SNPs were significantly over-represented in cohorts of mixed cancers compared to three ethnically matched controls, suggesting they confer increased cancer risk.
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