Abstract
APOBEC enzymes are responsible for a mutation signature (TCW>T/G) implicated in a wide variety of tumors. We explore the APOBEC mutational signature in bladder cancer and the relationship with specific mutations, molecular subtype, gene expression, and survival using sequencing data from The Cancer Genome Atlas (n = 395), Beijing Genomics Institute (n = 99), and Cancer Cell Line Encyclopedia. Tumors were split into “APOBEC-high” and “APOBEC-low” based on APOBEC enrichment. Patients with APOBEC-high tumors have better overall survival compared to those with APOBEC-low tumors (38.2 vs. 18.5 months, p = 0.005). APOBEC-high tumors are more likely to have mutations in DNA damage response genes (TP53, ATR, BRCA2) and chromatin regulatory genes (ARID1A, MLL, MLL3), while APOBEC-low tumors are more likely to have mutations in FGFR3 and KRAS. APOBEC3A and APOBEC3B expression correlates with mutation burden, regardless of bladder tumor molecular subtype. APOBEC mutagenesis is associated with increased expression of immune signatures, including interferon signaling, and expression of APOBEC3B is increased after stimulation of APOBEC-high bladder cancer cell lines with IFNγ. In summary, APOBEC-high tumors are more likely to have mutations in DNA damage response and chromatin regulatory genes, potentially providing more substrate for APOBEC enzymes, leading to a hypermutational phenotype and the subsequent enhanced immune response.
Highlights
Urothelial carcinoma has one of the highest mutation rates of any sequenced cancer to date along with lung cancer and melanoma [1]
To understand factors associated with apolipoprotein B mRNA editing catalytic polypeptide-like (APOBEC) mutagenesis, we first evaluated the association of APOBEC signature with mutation burden in the The Cancer Genome Atlas (TCGA) cohort
We demonstrate that tumors enriched for APOBEC mutagenesis (APOBEC-high tumors) have better survival and are more likely to have mutations in DNA damage repair genes and chromatin regulation genes, while tumors not featuring the APOBEC mutational pattern (APOBEC-low tumors) are significantly more likely to harbor mutations in FGFR3 and KRAS/HRAS/NRAS, which are mutually exclusive
Summary
Urothelial carcinoma has one of the highest mutation rates of any sequenced cancer to date along with lung cancer and melanoma [1]. High-throughput generation sequencing analyses such as The Cancer Genome Atlas (TCGA) and others have identified a mutational signature characterized by a TCW>T/C mutation thought to be attributable to the apolipoprotein B mRNA editing catalytic polypeptide-like (APOBEC) family of enzymes [1,2,3]. This mutational pattern is the predominant pattern in muscle-invasive bladder cancer (approximately 80% of bladder tumors in the TCGA have an APOBEC mutation signature) and is frequently found in breast, cervical, head and neck, and lung cancers [1, 3,4,5]. The APOBEC3 family, and APOBEC3A and APOBEC3B [6, 11,12,13,14], are the predominant APOBEC enzymes theorized to contribute to cancer mutagenesis
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