Hepatocellular carcinoma originates from hepatocytes and not from the progenitor/biliary compartment
Xueru Mu1,2, Regina Español-Suñer3, Ingmar Mederacke1, Silvia Affò1, Rita Manco3, Christine Sempoux4, Frédéric P. Lemaigre5, Arlind Adili6, Detian Yuan6, Achim Weber7, Kristian Unger8, Mathias Heikenwälder6, Isabelle A. Leclercq3, and Robert F. Schwabe1
1Department of Medicine, Columbia University, New York, New York, USA.
2Institute of Oncology, Provincial Hospital Affiliated with Shandong University, Shandong University, Jinan, China.
3Laboratory of Hepato-Gastroenterology, Institut de Recherche Expérimentale et Clinique, Université catholique de Louvain, Brussels, Belgium.
4Department of Pathology, St. Luc University Hospital and Université catholique de Louvain, Brussels, Belgium.
5Liver and Pancreas Development Unit, de Duve Institute, Université catholique de Louvain, Brussels, Belgium.
6Institute of Virology, Technische Universität München/Helmholtz Zentrum München, Munich, Germany.
7Institute of Surgical Pathology, University Hospital Zurich, Zurich, Switzerland.
8Research Unit of Radiation Cytogenetics, Helmholtz Zentrum München, German Research Center for Environmental Health, Neuherberg, Germany.
Address correspondence to: Robert F. Schwabe, 1150 St. Nicholas Ave., Russ Berrie Pavilion, Room 412C, New York, New York 10032, USA. Phone: 212.851.5462; E-mail: [email protected]. Or to: Isabelle Leclercq, Avenue Mounier 53, B1.52.01, tour Vesale +2, 1200 Brussels, Belgium. Phone: 32.2764.5273; E-mail: [email protected].
Authorship note: Xueru Mu and Regina Español-Suñer contributed equally to this work.
Abstract
In many organs, including the intestine and skin, cancers originate from cells of the stem or progenitor compartment. Despite its nomenclature, the cellular origin of hepatocellular carcinoma (HCC) remains elusive. In contrast to most organs, the liver lacks a defined stem cell population for organ maintenance. Previous studies suggest that both hepatocytes and facultative progenitor cells within the biliary compartment are capable of generating HCC. As HCCs with a progenitor signature carry a worse prognosis, understanding the origin of HCC is of clinical relevance. Here, we used complementary fate-tracing approaches to label the progenitor/biliary compartment and hepatocytes in murine hepatocarcinogenesis. In genotoxic and genetic models, HCCs arose exclusively from hepatocytes but never from the progenitor/biliary compartment. Cytokeratin 19–, A6- and α-fetoprotein–positive cells within tumors were hepatocyte derived. In summary, hepatocytes represent the cell of origin for HCC in mice, and a progenitor signature does not reflect progenitor origin, but dedifferentiation of hepatocyte-derived tumor cells.
Hepatocellular carcinoma (HCC) is the third leading cause of cancer mortality worldwide, with approximately 700,000 new cases diagnosed every year (1, 2). HCC typically develops in patients with chronic liver disease. Among these, viral hepatitis, nonalcoholic fatty liver disease, and alcoholic liver disease are the leading causes of HCC (2). Chronic liver injury, triggering permanent hepatocellular damage, hepatocyte regeneration, and inflammation, is thought to be the unifying principle that promotes carcinogenesis in these pathophysiologically distinct diseases. In the developing liver, bipotent hepatoblasts differentiate into hepatocytes and cholangiocytes and function as a main cellular source for both lineages (3). However, in the adult liver, cell turnover is minimal, and bipotent progenitors are typically absent (3). In contrast to many organs that have a hierarchical organization depending on well-defined stem cell populations, such as intestine and skin (4–6), the fully differentiated hepatocyte is endowed with an almost infinite capacity to regenerate (7). Accordingly, regeneration following most types of injury or after partial hepatectomy is achieved from the hepatocyte pool without major contribution of progenitor cells (3, 8). However, when liver injury is chronic and when the ability of mature hepatocytes to proliferate is blocked, a reserve cell compartment located within the biliary compartment — often termed oval cells or liver progenitor cells (LPCs) — expands in patients and in experimental injury models and may contribute to the formation of hepatocytes (3, 7, 9–13). However, several recent fate-tracing studies have challenged a major role for the LPC/biliary compartment in the formation of hepatocytes, showing either no or only very little contribution to the hepatocyte pool (8, 14–18). On the other hand, the LPC/biliary compartment is capable of generating functional hepatocytes in zebrafish (19), indicating that its contribution may be model-, disease-, or species-specific. Moreover, recent studies have suggested that hepatic stellate cells (HSCs) may function as multipotent progenitor cells that generate functional hepatocytes and cholangiocytes (20). Thus, 3 potential cellular sources — hepatocytes, the LPC/biliary compartment and HSCs — may, in theory, function as progenitor cells and the cellular source for newly generated hepatocytes.
In view of the key roles of stem and progenitor cells in the maintenance of many tissues, it is not surprising that these are also the cells of origin in cancer of the intestine (21, 22), skin (23, 24), and hematopoietic system (25). In contrast, the cellular origin of HCC remains elusive, with the above-discussed contributors to homeostasis and regeneration of the adult liver, namely hepatocytes, the LPC/biliary compartment, and HSCs, representing potential sources. Of note, the expansion of LPCs has consistently been noted after treatment with hepatic carcinogens (26, 27), which has led to the suggestion that HCC may be derived from the LPC/biliary compartment (26, 28, 29). Moreover, the expression of progenitor markers and accumulation of LPCs are commonly observed in rodent models as well as in human HCC (30, 31). Therefore, the reemergence of LPCs in the chronically injured liver may link regeneration to hepatocarcinogenesis. As HCC with a progenitor signature is clinically more aggressive, it has been suggested that the progenitor origin of HCC determines tumor biology and negatively affects outcome (31). Importantly, both LPCs and hepatocytes have the capacity to generate tumors in vivo when transduced with H-RAS and SV40LT (32). However, the relative contribution of these 2 cell types to cancer formation in the context of chronic hepatocellular injury in vivo remains unknown. The high degree of plasticity in the liver is further highlighted by recent studies showing that cholangiocarcinoma can be derived not only from cholangiocytes (33) but also from hepatocytes (34, 35). Given these findings in cholangiocarcinoma, it is conceivable that there are also multiple cellular sources for HCC. Using complementary strategies to label the LPC/biliary compartment, hepatocytes, and HSCs, we demonstrate that hepatocytes, but neither the LPC/biliary compartment nor HSCs, function as a cellular source for HCC. Moreover, LPCs found in HCC were derived from hepatocytes, suggesting that hepatocyte-derived HCC may dedifferentiate into an LPC-like immature phenotype. 作者: StephenW 时间: 2015-9-9 10:16