Abstract 2388: Molecular heterogeneity and trunk driver mutations in hepatocellular carcinoma

Abstract

Abstract Background and aims: Molecular heterogeneity in hepatocellular carcinoma (HCC) is ill-defined since trunk drivers (early events; common to all cells), branch drivers (later events; present in a subset of cells) and passenger mutations (not relevant), have not been thoroughly described. Most FDA/EMA approved molecular drugs target trunk drivers. We explored heterogeneity by analyzing trunk vs branch mutations in different HCC regions within single and multinodular tumours. Methods: Intra-tumoral heterogeneity was assessed in 21 patients with single HCCs (size > 4cm; 2 regions/tumour: 42 samples) and inter-tumoral heterogeneity was studied in 17 patients with multinodular HCCs (2-3 nodules/patient; total: 39 samples). Gene expression profiling, SNP array and deep-sequencing (coverage ∼850x) assessing 6 oncodrivers (TERT promoter, TP53, CTNNB1, ARID1A, AXIN1-2 by TruSeqAmplicon, validated by sanger) were explored. Clonality differentiating metastatic (clonal) vs synchronic (non-clonal) tumours was defined by SNP profiles. Trunk mutations were defined as present in a) all regions of a given tumour, or b) in all nodules of metastatic-clonal tumours; all other were considered as branch. Results: Intra-tumoral heterogeneity assessed by sequencing identified at least 1 oncodriver in 19/21 patients with single tumours. Among those, trunk mutations accounted for 17/19 (90%), and branch for 2/19 cases. Overall 63 mutations were identified, 56 (90%) were identical in different tumoral regions (i.e. truncal; TERT promoter most prevalent). Inter-tumoral heterogeneity explored by SNP profiles defined metastases in 35% (6/17 multinodular cases) and synchronous tumors in 65% (11/17 cases). Genetic proximity confirmed clonality in all metastatic nodules. Regarding molecular subclasses, half of clonal tumours retained identical molecular fingerprint, but the other half switched to more aggressive subclass. All non-clonal tumours belonged to distinct molecular subclasses. Driver oncogenes were explored in 9 patients (5 metastasis and 4 synchronic). Metastatic tumours showed 13 mutations, among which 11 (85%) were truncal. Mutations in non-clonal synchronic tumours were distinct. Conclusions: Single large HCCs shared common trunk drivers at distinct regions (90%). Similarly, 40% of multinodular tumours were clonal (metastasis) and shared common trunk oncodrivers, while 60% were synchronic, with distinct genomic profile/oncodrivers. Further studies at single-cell sequencing level are recommended. Citation Format: Daniela Sia, Andrew Neelis Harrington, Sara Torrecilla, Zhongyang Zhang, Genis Camprecios, Agrin Moeini, Sara Toffanin, Maria Isabel Fiel, Ke Hao, Monica Higuera, Laia Cabellos, Helena Cornella, Milind Mahajan, Yujin Hoshida, Augusto Villanueva, Sander Florman, Myron Schwartz, Josep Maria Llovet. Molecular heterogeneity and trunk driver mutations in hepatocellular carcinoma. [abstract]. In: Proceedings of the 107th Annual Meeting of the American Association for Cancer Research; 2016 Apr 16-20; New Orleans, LA. Philadelphia (PA): AACR; Cancer Res 2016;76(14 Suppl):Abstract nr 2388.