Abstract

Abstract The DNA damage response (DDR) pathway is frequently deregulated in cancer and it represent an attractive therapeutic opportunity. In acute myeloid leukemia (AML), different mechanisms of DDR deregulation have been identified, but a systematic investigation on DDR alterations is missing. To understand how the DDR pathways contribute to leukemogenesis, we studied the gene expression and mutational profiles of 274 DDR genes by analysing 539 AML cases profiled by whole genome (WGS) and RNA sequencing. WGS data were used to identify mutations in genes of the DDR and in a panel of genes known to be mutated in AML (n=73). Transcriptomic data were analysed through unsupervised clustering, differential expression and enrichment analysis. We detected 150 single nucleotide variants (SNVs) in 130 patients (24%, average 0.3 SNVs/case). Genes mutated in more than 1% of cases were ATM, BLM, BRCA2, POLG and POLQ. The most frequently altered pathway was the homologous recombination/Fanconi Anemia (HR) pathway (29%), followed by the genes that coordinates the DDR pathway (20%). We detected a trend toward mutual exclusivity between mutations in TP53 and mutations in genes of HR pathway or the genes that coordinates the DDR pathway (adj-p <0.02). To further investigate the interplay between TP53 mutations and the HR pathway, we analysed the expression profiles of HR genes in 539 patients. We identified two groups of patients having higher (HR-high) or lower (HR-low) expression levels of HR genes. A panel of 5 genes was able to discriminate patients between the two groups (BRCA1, RAD54B, RMI2, UBE2T and XRCC2; AUC=0.9). Enrichment analysis on differentially expressed genes and gene set enrichment analysis showed that the cell cycle pathway, together with the G2/M transition/mitotic phase, E2F targets and the fatty acid metabolism pathways were upregulated in HR-high patients, while the pRB, EZH2, RPS14 and HOXA9 pathways were downregulated. Moreover, we observed that AML expressing CBFB-MYH1, RUNX1-RUNXT1 or carrying RAD21 mutations had higher chances to express lower levels of HR genes (HR-low), while patients with STAG2, SRSF2, U2AF1, FLT3-ITD alterations had higher chances of having higher expression of HR genes (p<0.05). NPM1-mutated cases without FLT3-ITD clustered within the HR-low profile (adj-p<0.05), while TP53 mutated cases tended to cluster in the HR-high group, although statistical significance was not reached. In conclusion, our data showed the presence of alterations in the DDR pathway that might be the reflection of driver events in AML. Functional studies will elucidate the functional impact of these alterations. The results suggested the presence of a therapeutic window that might be exploited with DDR inhibitors in molecularly-defined subgroups of patients. Supported by the Torsten Haferlach-Leukämiediagnostik-Stiftung and AIRC IG 2019 (project 23810). Citation Format: Antonella Padella, Stephan Hutter, Wencke Walter, Constance Baer, Irene Azzali, Andrea Ghelli Luserna Di Rorà, Martina Ghetti, Lorenzo Ledda, Matteo Paganelli, Claudia Haferlach, Wolfgang Kern, Giorgia Simonetti, Giovanni Martinelli, Torsten Haferlach. Genomic and transcriptomic profiles of DNA damage response genes in acute myeloid leukemia [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2022; 2022 Apr 8-13. Philadelphia (PA): AACR; Cancer Res 2022;82(12_Suppl):Abstract nr 5788.

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