Please use this identifier to cite or link to this item:http://hdl.handle.net/20.500.12105/7231
Title
Hepatocellular Carcinomas Originate Predominantly from Hepatocytes and Benign Lesions from Hepatic Progenitor Cells
Author(s)
Tummala, Krishna S | Brandt, Marta | Teijeiro, Ana | Graña Castro, Osvaldo CNIO | Schwabe, Robert F | Perna, Cristian | Djouder, Nabil CNIO
Date issued
2017-04-19
Citation
Cell Rep. 2017;19(3):584-600.
Language
Inglés
Document type
journal article
Abstract
Hepatocellular carcinoma (HCC) is an aggressive primary liver cancer. However, its origin remains a debated question. Using human data and various hepatocarcinogenesis mouse models, we show that, in early stages, transformed hepatocytes, independent of their proliferation status, activate hepatic progenitor cell (HPC) expansion. Genetic lineage tracing of HPCs and hepatocytes reveals that, in all models, HCC originates from hepatocytes. However, whereas in various models tumors do not emanate from HPCs, tracking of progenitors in a model mimicking human hepatocarcinogenesis indicates that HPCs can generate benign lesions (regenerative nodules and adenomas) and aggressive HCCs. Mechanistically, galectin-3 and α-ketoglutarate paracrine signals emanating from oncogene-expressing hepatocytes instruct HPCs toward HCCs. α-Ketoglutarate preserves an HPC undifferentiated state, and galectin-3 maintains HPC stemness, expansion, and aggressiveness. Pharmacological or genetic blockage of galectin-3 reduces HCC, and its expression in human HCC correlates with poor survival. Our findings may have clinical implications for liver regeneration and HCC therapy.
Subject
DNA damage | HCC | NAD(+) | Adenomas | Galectin-3 | Hepatic progenitor cells | Hepatocytes | Lineage tracking | Regenerative nodules | α-ketoglutarate
MESH
Animals | Carcinogenesis | Carcinoma, Hepatocellular | Cell Differentiation | Galectin 3 | Hepatocytes | Humans | Ketoglutaric Acids | Liver Neoplasms | Mice, Transgenic | Neoplasm Invasiveness | Stem Cells
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