Genomic characterization of hepatoid tumors: context matters.

Hepatoid tumors (HT) are rare neoplasms morphologically resembling hepatocellular carcinoma, which arise in several organs other than the liver. A comprehensive molecular profile of this group of neoplasms is still lacking. Genomic characterization of 19 HTs from different organs (three colon HTs, four esophagogastric HTs, four biliary HTs, six genitourinary HTs, two lung HTs) was performed using a multigene next-generation sequencing panel. NGS unraveled a composite molecular profile of HT. Their genetic alterations were clearly clustered by tumor site: (i) colorectal HT displayed microsatellite instability, high tumor mutational burden, mutations in ARID1A/B genes and NCOA4-RET gene fusion (2/3 cases); (ii) gastric HT had TP53 mutations (2/4); (iii) biliary HT displayed loss of CDKN2A (3/4) and loss of chromosome 18 (2/4); (iv) genital HT showed gain of chromosome 12 (3/6); (v) lung HT had STK11 somatic mutations (2/2). The only commonly mutated gene occurring in HT of different sites was TP53 (8/19 cases: colon 2, esophagogastric 2, biliary 2, genital 1, lungs 1). This study shows that most genetic alterations of HT were clustered by site, indicating that context matters. The novel potential targets for HT precision oncology are also clustered based on the anatomic origin. This study shed light on the biology of these rare cancers and may have important consequences for treatment decisions and clinical trial selection for HT patients.

CD117 Is a Specific Marker of Intraductal Papillary Mucinous Neoplasms (IPMN) of the Pancreas, Oncocytic Subtype.

The intraductal oncocytic papillary neoplasm (IOPN) of the pancreas has been recognized by WHO classification as a unique intraductal papillary mucinous neoplasm (IPMN) category. IOPN is composed of oxyphil cells, usually expressing MUC5AC, MUC6, and Hep Par-1, and harboring PRKACA/B fusion genes as their genetic hallmark. Although IOPNs are associated with an infiltrative adenocarcinoma in up to 30% of cases, the survival rate after surgical resection approaches 100%. This highlights the importance of the correct IOPN diagnosis, above all in cases with an associated invasive component. In this study, the immunohistochemical expression of CD117 was investigated in 111 IPMNs, including 17 oncocytic, 45 gastric, 20 pancreatico-biliary, and 29 intestinal IPMNs. We also tested the expression of MUC5AC, MUC6, and Hep Par-1 in the IOPN cohort. CD117 positivity was significantly more frequent in IOPNs compared to the other IPMN subtypes (p < 0.0001). Furthermore, within IOPN, a lower or absent CD117, MUC5AC, MUC6, and Hep Par-1 expression tended to be associated with the presence of an infiltrative component. Our findings shed light into the biology of these complex lesions, which are confirmed to be a distinctive IPMN subtype; notably, CD117 emerged as a potential, additional tool in the differential diagnosis of IPMNs.

Patterns of gene mutations in bile duct cancers: is it time to overcome the anatomical classification?

BACKGROUND: Two recent studies based on multi-omics data analysis identified distinct subtypes of bile-duct cancers (BDC) with important implications in terms of disease classification and patients' treatment. METHODS: Patients with mutations in KRAS, NRAS, TP53, and ARID1A genes were classified in KRAS/TP53 group while patients with mutations in IDH1-2, BAP1, and PBRM1 were classified in IDH1-2/BAP1/PBRM1 group. The aim of this study was to define long-term outcomes among patients stratified by patterns of genes mutated. RESULTS: Among 105 patients who underwent surgical resection for BDCs, 71 (68%) patients were classified in two groups based on patterns of genes mutated. While in IDH1-2/BAP1/PBRM1 group there were 58%, 22%, and 10% of patients with intrahepatic-cholangiocarcinoma (ICC), perihilar-cholangiocarcinoma (PHCC), and gallbladder cancer (GBC), in KRAS/TP53 group there were 42%, 78%, and 90% of patients with ICC, PHCC, and GBC (p = 0.003), respectively. Patients in IDH1-2/BAP1/PBRM1 group had a 5-year OS of 40% compared with 13% for KRAS/TP53 group (p = 0.032). In a multivariable model adjusted for margins, lymph-node status, microvascular invasion, and tumor grade, patients in KRAS/TP53 group had a 2.1-fold increased risk of death compared with patients in IDH1-2/BAP1/PBRM1 group (p = 0.028). CONCLUSIONS: Genetic data were able to overcome the clinical based staging system in predicting patients' prognosis.

Ampulla of Vater Carcinoma: Sequencing Analysis Identifies TP53 Status as a Novel Independent Prognostic Factor and Potentially Actionable ERBB, PI3K, and WNT Pathways Gene Mutations.

OBJECTIVE: To identify molecular prognostic factors and potentially actionable mutations in ampulla of Vater cancer (AVC). BACKGROUND: The largely variable outcomes of AVCs make clinical decisions difficult regarding the need of postsurgical therapy, which is based on morphological and immunohistochemical classification that do not adequately consider the varying degrees of heterogeneity present in many AVCs. No approved targeted therapies for AVC exist, but some show promising results requiring better molecular characterization to identify potential responders. METHODS: We assessed 80 AVCs for the prognostic value of mutations of kirsten rat sarcoma (KRAS), neuroblastoma RAS (NRAS), B rapidly accelerated fibrosarcoma (BRAF), TP53, and 4 membrane erythroblastosis oncogene B (ERBB) receptor tyrosine kinases (EGFR-ERBB1, HER2-ERBB2, HER3-ERBB3, HER4-ERBB4) amenable to pharmacological inhibition. Moreover, we evaluated mutations in 16 key components of rat sarcoma (RAS), phosphatidylinositol-4,5-bisphosphate 3-kinase (PI3K), protein 53 (P53), transforming growth factor beta (TGF-ß), and wingless/integrated (WNT) pathways, recently associated to AVC by whole-exome sequencing. RESULTS: TP53 and KRAS were mutated in 41% and 35% of cases, respectively, and emerged as independent prognostic factors together with tumor stage and regardless of the histotype (TP53: P = 0.0006; KRAS: P = 0.0018; stage IIB: P = 0.0117; stage III-IV: P = 0.0020). ERBB, WNT and PI3K pathway genes were mutated in 37.5% of cases. CONCLUSIONS: KRAS and TP53 mutations are negative predictors of survival in AVCs, regardless of histotype. Potentially actionable mutations in ERBB, WNT, and PI3K signaling pathway genes are present in 37.5% of all cases. These might be amenable to target therapy using available drugs like Everolimus in PI3K-mutated cases or compounds under active screening against ERBB and WNT signaling.

The pattern of hMENA isoforms is regulated by TGF-ß1 in pancreatic cancer and may predict patient outcome.

Pancreatic ductal adenocarcinoma (PDAC) is an aggressive disease in need of prognostic markers to address therapeutic choices. We have previously shown that alternative splicing of the actin regulator, hMENA, generates hMENA11a, and hMENAΔv6 isoforms with opposite roles in cell invasion. We examined the expression pattern of hMENA isoforms by immunohistochemistry, using anti-pan hMENA and specific anti-hMENA11a antibodies, in 285 PDACs, 15 PanINs, 10 pancreatitis, and normal pancreas. Pan hMENA immunostaining, absent in normal pancreas and low-grade PanINs, was weak in PanIN-3 and had higher levels in virtually all PDACs with 64% of cases showing strong staining. Conversely, the anti-invasive hMENA11a isoform only showed strong staining in 26% of PDAC. The absence of hMENA11a in a subset (34%) of pan-hMENA-positive tumors significantly correlated with poor outcome. The functional effects of hMENA isoforms were analyzed by loss and gain of function experiments in TGF-ß1-treated PDAC cell lines. hMENA11a knock-down in PDAC cell lines affected cell-cell adhesion but not invasion. TGF-ß1 cooperated with ß-catenin signaling to upregulate hMENA and hMENAΔv6 expression but not hMENA11a In the absence of hMENA11a, the hMENA/hMENAΔv6 up-regulation is crucial for SMAD2-mediated TGF-ß1 signaling and TGF-ß1-induced EMT. Since the hMENA isoform expression pattern correlates with patient outcome, the data suggest that hMENA splicing and related pathways are novel key players in pancreatic tumor microenvironment and may represent promising targets for the development of new prognostic and therapeutic tools in PDAC.