LAUSR

Routine molecular diagnostic tests have yet to be introduced to guide personalized cervical cancer treatment in contrast to other solid cancers. To assess cancer functional events (CFEs), the RAIDs consortium (Rational Molecular Assessment and Innovative Drug Selection, www.raids-fp7.eu) accrued consecutive tumour tissues, whole blood and sera from 419 cervical cancer patients in 18 centers from 7 European Union countries, between 2013-2016 (BioRAIDs: NCT02428842). Whole exome sequencing (WES) is presently available for the first 98 patients, for 20 CC cell lines (list available in supplementary data) and Reverse Phase Protein Array (RPPA) data for 154 patients with a common core set of 91 patients. By comparing the proportion of mutated tumours for each gene and after correction for multiple testing, we detected no significant difference in the frequency of significantly mutated genes (SMG) between the TCGA and RAIDs datasets. However, alterations in epigenetic regulator genes, which are of potential high clinical interest, are not discussed in the TCGA paper. Mutations, frameshift deletions, insertions or stop codons in MLL2 and MLL3 genes, are present in 17% and 19 % respectively (total: 30%) of the first 98 RAIDs tumours, as well as in all 20 cervical cancer cell lines analyzed. Similar to the TCGA results, frequent mutations in genes coding for acetyltransferases such as EP300/CREBBP (9%) were detected in RAIDs tumours and cell lines (15%/25%). With the exception of SHKBP1, all other novel and previously confirmed genes by TCGA were equally detected in the RAIDs dataset, such as PIK3CA (33%), FBXW7 (14%), NFE2L2 (7%), KRAS (4%), ERBB2 (4%), PTEN (5%), CASP8 (3%). Similarly to TCGA, RAIDs RPPA data defined 3 stable clusters. TCGA and RAIDs cluster 1 regrouped proteins frequently associated with EMT (epithelial mesenchymal transition). Significant features of RAIDs cluster 1 were high phospho-YAP (p= 3.11e-06) and phospho-Met (p=4.74e-03), high Met (p=2.42e-11), high Notch (p=4.14e-17), low E-cadherin (p=2.41e-06) as well as significant levels of the phosphorylated forms of EGFR, HER2-3 and AKT and high PD-L1 and B7-H4 expression. While TCGA cluster 2 had been associated with “Hormone” signaling, RAIDs cluster 2 was associated with “DNA damage” signaling. Antibody selection was not identical between TCGA and RAIDs and further comparisons are warranted. In RAIDs, pre-treatment activation of DNA repair proteins (Rad50, Phospho-Chk2, Phospho-DNA-PK, Phospho-FANCD2, Phospho-53BP1) together with low levels of Ki67 (proliferation) appeared predictive for a complete response to standard radio-chemotherapy. This needs validation on an independent population. RAIDs and TCGA cluster 3 were associated with p38 MAPK and PI3K signaling. The RAIDs consortium9s future objectives are to better define actionable CFE in relation to outcome and patient9s quality of life, allowing the focus on relevant CFEs for patients at high risk. Citation Format: Maud Kamal, Els Berns, Windy Luscap Rondof, Leanne De koning, Gemma Kenter, Attila Kerezst, Marina Popovic, Choumouss Kamoun, Balazs Balint, Suzy Scholl, RAIDs Consortium. RAIDs: Future prospects for innovative targeted treatments in cervical cancer [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2018; 2018 Apr 14-18; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2018;78(13 Suppl):Abstract nr 3686.