Please use this identifier to cite or link to this item: http://hdl.handle.net/2445/120388
Title: IGF2 is up-regulated by epigenetic mechanisms in Hepatocellular Carcinoma and is an actionable oncogene product in experimental models
Author: Martinez Quetglas, Iris
Pinyol, Roser
Dauch, Daniel
Torrecilla, Sara
Tovar, Victoria
Moeini, Agrin
Alsinet, Clara
Portela, Anna
Rodriguez Carunchio, Leonardo
Sole, Manel
Lujambio, Amaia
Villanueva, Augusto
Thung, Swan N.
Esteller, Manel
Zender, Lars
Llovet i Bayer, Josep Maria
Keywords: Càncer de fetge
Models animals en la investigació
Oncogens
Carcinogènesi
Epigenètica
Liver cancer
Animal models in research
Oncogenes
Carcinogenesis
Epigenetics
Issue Date: 1-Dec-2016
Publisher: Elsevier
Abstract: BACKGROUND & AIMS: Effective treatments are urgently needed for hepatocellular carcinoma (HCC), which is usually diagnosed at advanced stages. Signaling via the insulin-like growth factor (IGF) pathway is aberrantly activated in HCC by IGF2 overexpression. We aimed to elucidate the mechanism of IGF2 overexpression and its oncogenic activities and evaluate the anti-tumor effects of reducing IGF2 signaling. METHODS: We obtained 228 HCC samples from patients who underwent liver resection, 168 paired non-tumor adjacent cirrhotic liver samples, and 10 non-tumor liver tissues from patients undergoing resection for hepatic hemangioma. We analyzed gene expression, microRNA, and DNA methylation profiles for all samples, focusing on genes in the IGF signaling pathway. IGF2 was expressed in SNU449 and PLC5 HCC cells and knocked down with small hairpin RNAs in Hep3B and Huh7 cell lines. We analyzed these cells for proliferation, apoptosis, migration, and colony formation. We performed studies in mice engineered to express Myc and Akt1 in liver, which develop liver tumors, with or without hepatic expression of Igf2. Mice with xenograft tumors grown from HCC cells were given a monoclonal antibody against IGF1 and IGF2 (xentuzumab), along with sorafenib; tumor growth was measured and tissues were analyzed by immunohistochemistry and immunoblots. RESULTS: Levels of IGF2 messenger RNA and protein were increased > 20-fold in 15% of human HCC tissues compared with non-tumor liver tissues. Methylation at the fetal promoters of IGF2 was reduced in the HCC samples and cell lines that overexpressed IGF2, compared with those that did not overexpress this gene, and non-tumor tissues. Tumors that overexpressed IGF2 had gene expression patterns significantly associated with hepatic progenitor cell features, stellate cell activation, NOTCH signaling, and an aggressive phenotype (P < .0001). In mice engineered to express Myc and Akt1 in liver, co-expression of Igf2 accelerated formation of liver tumors, compared to mice with livers expressing only Myc and Akt1, and shortened survival times (P = .02). The antibody xentuzumab blocked phosphorylation of IGF1 receptor in HCC cell lines and reduced their proliferation and colony formation. In mice with xenograft tumors, injection of xentuzumab, with or without sorafenib, slowed tumor growth and increased survival times compared to vehicle or sorafenib alone. Xentuzumab inhibited phosphorylation of IGF1 receptor and AKT and reduced decreased tumor vascularization compared with vehicle. CONCLUSIONS: A large proportion of HCC samples were found to overexpress IGF2, via demethylation of its fetal promoter. Overexpression of IGF2 accelerates formation of liver tumors in mice with hepatic expression of MYC and AKT1, via activation of IGF1 receptor signaling. An antibody against IGF1 and IGF2 slows growth of xenograft tumors and increases survival of these mice.
Note: Versió postprint del document publicat a: https://doi.org/10.1053/j.gastro.2016.09.001
It is part of: Gastroenterology, 2016, vol. 151, num. 6, p. 1192-1205
URI: http://hdl.handle.net/2445/120388
Related resource: https://doi.org/10.1053/j.gastro.2016.09.001
ISSN: 0016-5085
Appears in Collections:Articles publicats en revistes (Medicina)
Publicacions de projectes de recerca finançats per la UE
Articles publicats en revistes (IDIBAPS: Institut d'investigacions Biomèdiques August Pi i Sunyer)

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