Cholangiocarcinoma: Molecular targeting strategies for chemoprevention and therapy

Sirica, Alphonse E.

doi:10.1002/hep.20537

Cited by 291 publications

(246 citation statements)

References 102 publications

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“…Our data reveal that COX-2-derived PGE 2 transactivates EGFR through the EP 1 receptor in human cholangiocarcinoma cells and that this process involves the c-Src protein. Transactivation of EGFR subsequently induces Akt phosphorylation and enhances tumor cell proliferation and invasion.…”

mentioning

confidence: 67%

“…Furthermore, we show that activation of EGFR by EGF increases COX-2 expression, whereas blocking PGE 2 synthesis or the EP 1 receptor attenuates EGFinduced EGFR phosphorylation, suggesting that the COX-2/ PGE 2 /EP 1 receptor pathway also modulates activation of EGFR induced by its cognate ligand. Our findings reveal a novel interaction between COX-2-derived PGE 2 and EGFR signaling that synergistically promotes cancer cell growth and invasion.…”

mentioning

confidence: 83%

“…COX-2-derived PGE 2 Induces EGFR Phosphorylation in Cholangiocarcinoma Cells-Increased expression of COX-2 and EGFR in human cholangiocarcinoma cells suggests a possible interconnection between these two signaling pathways during cholangiocarcinogenesis. Given that COX-2-derived prostaglandins mediate effects primarily through specific plasma membrane receptors that are coupled with G-proteins and that certain GPCRs are known to activate EGFR (24 -26), we postulated that COX-2 may promote tumor growth through activation of EGFR.…”

Section: Expression Of Cox-2 and Egfr Is Increased In Humanmentioning

confidence: 99%

“…Recent evidence suggests that cyclooxygenase-2 (COX-2) 1 -derived prostaglandin E 2 (PGE 2 ), a potent lipid inflammatory mediator, is involved in cholangiocarcinogenesis (1,2). Overexpression of COX-2 is observed in human cholangiocarcinomas and precancerous bile duct lesions (5-7); elevated COX-2 expression is also observed in an animal model of cholangiocarcinoma (8,9).…”

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confidence: 99%

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Cyclooxygenase-2-derived Prostaglandin E2 Promotes Human Cholangiocarcinoma Cell Growth and Invasion through EP1 Receptor-mediated Activation of the Epidermal Growth Factor Receptor and Akt

Han

2005

Journal of Biological Chemistry

128

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Cyclooxygenase-2 (COX-2)-mediated prostaglandin synthesis has recently been implicated in human cholangiocarcinogenesis. This study was designed to examine the mechanisms by which COX-2-derived prostaglandin E 2 (PGE 2 ) regulates cholangiocarcinoma cell growth and invasion. Immunohistochemical analysis revealed elevated expression of COX-2 and the epidermal growth factor (EGF) receptor (EGFR) in human cholangiocarcinoma tissues. Overexpression of COX-2 in a human cholangiocarcinoma cell line (CCLP1) increased tumor cell growth and invasion in vitro and in severe combined immunodeficient mice. Overexpression of COX-2 or treatment with PGE 2 or the EP 1 receptor agonist ONO-DI-004 induced phosphorylation of EGFR and enhanced tumor cell proliferation and invasion, which were inhibited by the EP 1 receptor small interfering RNA or antagonist ONO-8711. Treatment of CCLP1 cells with PGE 2 or ONO-DI-004 enhanced binding of EGFR to the EP 1 receptor and c-Src. Furthermore, PGE 2 or ONO-DI-004 treatment also increased Akt phosphorylation, which was blocked by the EGFR tyrosine kinase inhibitors AG 1478 and PD 153035. These findings reveal that the EP 1 receptor transactivated EGFR, thus activating Akt. On the other hand, activation of EGFR by its cognate ligand (EGF) increased COX-2 expression and PGE 2 production, whereas blocking PGE 2 synthesis or the EP 1 receptor inhibited EGF-induced EGFR phosphorylation. This study reveals a novel cross-talk between the EP 1 receptor and EGFR signaling that synergistically promotes cancer cell growth and invasion.

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mentioning

confidence: 67%

mentioning

confidence: 83%

Section: Expression Of Cox-2 and Egfr Is Increased In Humanmentioning

confidence: 99%

mentioning

confidence: 99%

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Cyclooxygenase-2-derived Prostaglandin E2 Promotes Human Cholangiocarcinoma Cell Growth and Invasion through EP1 Receptor-mediated Activation of the Epidermal Growth Factor Receptor and Akt

Han

2005

Journal of Biological Chemistry

128

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“…The tumour is much less common than HCC, but its incidence and associated mortality has been increasing steadily over the past two to three decades, with most tumours arising in persons over 50 years, suggesting that carcinogenesis is a protracted and (possibly) multi-step process [129]. Injury to the biliary epithelium with chronic inflammation, together with impedance of bile flow, are common factors in high-risk conditions for CC, such as primary sclerosing cholangitis, hepatolithiasis (gall stones) and liver fluke infestation by Opistorchis viverrini and Clonorchis sinensis.…”

Section: Stem Cells and Liver Cancermentioning

confidence: 99%

Stem cells in liver regeneration, fibrosis and cancer: the good, the bad and the ugly

Alison

Islam

Lim

2008

The Journal of Pathology

201

149

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The worldwide shortage of donor livers to transplant end stage liver disease patients has prompted the search for alternative cell therapies for intractable liver diseases, such as acute liver failure, cirrhosis and hepatocellular carcinoma (HCC). Under normal circumstances the liver undergoes a low rate of hepatocyte 'wear and tear' renewal, but can mount a brisk regenerative response to the acute loss of two-thirds or more of the parenchymal mass. A body of evidence favours placement of a stem cell niche in the periportal regions, although the identity of such stem cells in rodents and man is far from clear. In animal models of liver disease, adopting strategies to provide a selective advantage for transplanted hepatocytes has proved highly effective in repopulating recipient livers, but the poor success of today's hepatocyte transplants can be attributed to the lack of a clinically applicable procedure to force a similar repopulation of the human liver. The activation of bipotential hepatic progenitor cells (HPCs) is clearly vital for survival in many cases of acute liver failure, and the signals that promote such reactions are being elucidated. Bone marrow cells (BMCs) make, at best, a trivial contribution to hepatocyte replacement after damage, but other BMCs contribute to the hepatic collagen-producing cell population, resulting in fibrotic disease; paradoxically, BMC transplantation may help alleviate established fibrotic disease. HCC may have its origins in either hepatocytes or HPCs, and HCCs, like other solid tumours appear to be sustained by a minority population of cancer stem cells.

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Models for Liver Cancer

Feo

Pascale

Calvisi

2007

The Cancer Handbook

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Primary liver tumours include hepatocellular carcinomas (HCCs), cholangiocarcinomas, and hepatoblastomas. HCC is the most frequent liver tumour, whose development is preceded, both in humans and rodents, by the appearance in the liver of foci of altered hepatocytes (FAHs) and dysplastic nodules. Bipotential hepatic progenitor cells (HPCs), which may differentiate into hepatocytes or cholangiocytes, are liver tumour precursors. Several rodent models have been developed to study the aetiology, evolution, and pathogenesis of preneoplastic and neoplastic liver lesions. They include the woodchuck hepatitis model, chemical models in which hepatocyte initiation by a carcinogen is followed by a growth stimulus inducing clonal expansion of initiated cells, diet‐linked models based on induction of methyl donor deficiency, and transgenic/knockout models, particularly useful to study in vivo role(s) of genes favouring or suppressing neoplastic cell growth. Furthermore, in vitro growing liver tumour cell lines have been used to study the role of single genes or signal transduction pathways, the effect of inhibitor compounds and genome engineering on tumour growth, and gene expression profiles. Transplants of in vitro growing cells are currently used for chemopreventive and therapeutic approaches to hepatocarcinogenesis. Animal models of liver cancer allowed investigation of the molecular alterations involved in early stages and in the progression phase of hepatocarcinogenesis, thus evidencing the interspecies commonalties of the basic mechanisms of hepatocarcinogenesis, and strongly contributing to understanding the molecular bases of the disease. Finally, animal models allowed investigation of genetic predisposition to liver cancer and contributed to map predisposition genes, understanding the genetic model, and some effector mechanisms of cancer modifier genes.

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Cholangiocarcinoma: Molecular targeting strategies for chemoprevention and therapy

Cited by 291 publications

References 102 publications

Cyclooxygenase-2-derived Prostaglandin E2 Promotes Human Cholangiocarcinoma Cell Growth and Invasion through EP1 Receptor-mediated Activation of the Epidermal Growth Factor Receptor and Akt

Cyclooxygenase-2-derived Prostaglandin E2 Promotes Human Cholangiocarcinoma Cell Growth and Invasion through EP1 Receptor-mediated Activation of the Epidermal Growth Factor Receptor and Akt

Stem cells in liver regeneration, fibrosis and cancer: the good, the bad and the ugly

Models for Liver Cancer

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