Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0019204 (hepatocellular carcinoma)
 71,386 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

An oncofetal protein (OFP), which is a potential marker for carcinogenesis and tumorigenesis, was evaluated with monoclonal antibodies shown to be specific for the antigen. Treatment of partially hepatectomized rats with a single non-necrogenic dose of diethylnitrosamine induced OFP in the liver. Its concentration, as measured by a dual immuno/bioassay, increased steadily over a 5-week period of observation before reaching a constant level. Immunohistochemical localization of OFP in liver sections from rats treated with N-nitroso-N-diethyl-nitrosamine showed that the factor was primarily localized to the cell cytoplasm in cells of most of the altered hepatic foci although some of this shedding antigen was also extracellular. Monoclonal antibody 17-1A specific for 17-1A antigen, an established surface marker for adenocarcinomas of the gastrointestinal tract, showed a similar distribution in liver from the carcinogen-treated rats, but localized to the cell membrane and cytoplasm. Scattered cells surrounding the altered hepatic foci were also positive for both monoclonal antibodies. Immunolocalization studies showed fetal rat liver and hepatoma were positive for OFP but adult normal or regenerating liver was negative. It was not detected in cells which morphologically could be classified as oval cells. As assessed by immuno/bioassay, the OFP released to the peripheral blood (plasma) of hepato-carcinogen-treated rats increased for 3 weeks, before undergoing a transitory decrease. Circulating antibodies specific for the factor were detected in the blood around 3-5 weeks post-treatment. Development of Western blots of the OFP with antiphosphotyrosine IgG indicates that the marker protein contains phosphotyrosine.
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PMID:A carcinogenesis- and tumorigenesis-associated rat fetal protein: an immuno-histochemical and immuno-biochemical study utilizing a new monoclonal antibody, MOFP. 259 Oct 6

Expression and distribution of 17-1A, a human colon-carcinoma-associated antigen as defined by a monoclonal antibody (17-1A mAb), were evaluated in liver tissues from normal subjects and patients with inflammatory and noninflammatory liver diseases. The antigen recognized by 17-1A mAb is a 41-kD protein that does not belong to the proteins of the cytoskeleton. Using a streptavidin-biotin-peroxidase method on frozen sections of liver tissue, it was located in the cytoplasm of bile duct epithelial cells in normal livers, whereas the hepatocytes were completely unreactive. When diseased liver tissue was examined, a strong 17-1A Ag expression was demonstrable in the epithelium of typical and atypical bile ductules in portal areas. In addition, periportal or periseptal hepatocytes revealed variable staining for 17-1A Ag directly related to acute and chronic inflammatory changes. 17-1A Ag expression in hepatocytes reached the highest frequency in acute hepatitis (5/5) and chronic active hepatitis (17/19). These results indicate that periportal hepatocytes are capable of acquiring antigen expression common to bile ductular cells in inflammatory liver diseases, further supporting the view that these ductules represent transformed hepatocytes. Furthermore, two distinct pictures were found in primary liver malignancies. Neoplastic bile duct epithelium did not maintain 17-1A Ag expression in cholangiocarcinoma, whereas neoplastic liver cells acquired cytoplasmic 17-1A Ag expression in clustered areas in hepatocellular carcinoma and the intensity of staining and antigen distribution were inversely related to the grade of tumor differentiation.
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PMID:Expression and distribution of a human colon-carcinoma-associated antigen in normal and diseased liver tissue. 821 41

Distinguishing hepatocellular carcinoma (HCC) from metastatic adenocarcinoma (MA) and cholangiocarcinoma (CC) can, at times, be difficult and sometimes requires immunohistochemical analysis. Recently, MOC31, an antibody directed against a cell surface glycoprotein, has been shown to be useful in separating HCC from both MA and CC; however, no study has compared MOC31 and other frequently used immunostains. We compare MOC31 with other commonly used immunostains for HCC, MA, and CC. Formalin-fixed, paraffin-embedded tissue sections from 57 previously characterized hepatic neoplasms (13 HCC, 14 CC, 3 combined HCC-CC, and 27 MA) were immunostained with antibodies directed against MOC31, cytokeratin (CK) 7, CK20, alpha-fetoprotein (AFP), polyclonal carcinoembryonic antigen, Ber-EP4, and Factor XIII-A. Two pathologists reviewed slides, and positivity was defined as more than 1% of cells staining with the appropriate pattern. Positive MOC31 immunostaining was seen in 0 of 13 HCC, 13 of 14 CC, 3 of 3 HCC-CC, and 27 of 27 MA; the staining was strong and diffuse. CK20 reactivity was observed in 0 of 13 HCC, 2 of 14 CC, 0 of 3 HCC-CC, and 12 of 27 MA; CK7 immunostained 4 of 13 HCC, 13 of 14 CC, 3 of 3 HCC-CC, and 15 of 27 MA; AFP was detected in 4 of 13 HCC and 2 of 3 HCC-CC, whereas all CC and MA were negative; polyclonal carcinoembryonic antigen showed immunoreactivity in 12 of 13 HCC and 3 of 3 HCC-CC in a canalicular pattern, whereas diffuse positivity was identified in 13 of 14 CC and 26 of 27 MA; Ber-EP4 immunostained 1 of 13 HCC, 14 of 14 CC, 2 of 3 HCC-CC, and 26 of 27 MA; and Factor XIII-A was negative in all HCC, CC, and MA. MOC31 expression distinguished HCC from adenocarcinoma in 56 of 57 cases. AFP was specific for HCC but was not sensitive. CK7 and CK20 have limited utility in distinguishing HCC from CC or MA, and Factor XIII-A is not useful. Ber-EP4 staining was similar to MOC31, but one HCC did stain with Ber-EP4. Polyclonal CEA yields similar numerical results as MOC31, but the focal nature of the staining and occasional difficulty in evaluating the pattern can make interpretation problematic. We conclude that MOC31 should be a component of the immunohistochemical panel to distinguish HCC from CC and MA.
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PMID:Immunohistochemical analysis of hepatocellular and adenocarcinoma in the liver: MOC31 compares favorably with other putative markers. 1091 37

Differentiating between primary tumors of the liver and metastatic lesions can, at times, be difficult. Various histochemical and immunohistochemical methods have been used in an effort to better delineate between hepatocellular carcinoma (HCC), especially the microglandular variant, primary cholangiocarcinoma, and metastatic adenocarcinoma; these ancillary studies can yield less than satisfactory results. Recently, anti-MOC31, a monoclonal antibody directed against a cell surface glycoprotein, has been shown to be helpful in distinguishing between adenocarcinoma and mesothelioma. This study addresses whether this antibody might be helpful in distinguishing between HCC, primary cholangiocarcinoma, and metastatic adenocarcinoma in the liver. Formalin-fixed, paraffin-embedded tissue sections from 15 HCC (including 10 microglandular variants), 14 primary cholangiocarcinomas, and 33 metastatic adenocarcinomas (7 colon, 1 lung, 8 breast, 4 GE jct/gastric, 9 pancreas, 2 small intestine, 1 renal, 1 ovary) were immunostained with anti-MOC 31 (1:40, Dako) after protease digestion and biotin block using a modified ABC technique. Positive staining was limited to membrane based reactivity; controls stained appropriately. Immunoreactivity for MOC31 was observed in 14 of 14 cholangiocarcinomas and 33 of 33 metastatic tumors. Staining was diffuse, intense, and readily interpretable, with rare exceptions. All 15 cases of HCC were negative. We conclude that cholangiocarcinoma and metastatic adenocarcinoma from a variety of sites express MOC31; HCC is uniformly negative for this marker. Anti-MOC31 may prove useful in the evaluation of liver neoplasms where primary hepatocellular and adenocarcinoma enter the differential diagnosis; it is not useful in separating primary cholangiocarcinoma from metastatic adenocarcinoma.
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PMID:MOC31 immunoreactivity in primary and metastatic carcinoma of the liver. Report of findings and review of other utilized markers. 1093 59

The distinction of hepatocellular carcinoma (HCC) from metastatic adenocarcinoma (MA) and cholangiocarcinoma (CC) in some cases requires the use of immunohistochemistry. CD10 has recently been suggested as a useful stain for HCC. We directly compared CD10 with other immunohistochemical markers, Hepatocyte, pCEA, and MOC31, that have previously shown to be useful for the distinction between tumors in the liver to help define the current panel of stains that most readily distinguishes HCC from CC and MA. One hundred previously well-characterized tumors in the liver were evaluated and included 25 HCC, 15 CC, and 60 MAs (15 each from breast, esophageal/gastric, pancreatic, and colorectal origin). Tumors were immunostained with the commercially available antibodies Hepatocyte, pCEA, MOC31, and CD10. CD10 stained 13 of 25 HCC and was rarely positive in MA and CC (3/75). Hepatocyte stained 24 of 25 HCC and was negative in all 75 MA and CC. pCEA stained 24 of 25 HCC and 71 of 75 MA and CC with the proper pattern of immunoreactivity, but the pattern of staining was difficult to interpret in several cases. MOC31 stained 1 of 25 HCC and 65 of 75 MA and CC. Hepatocyte was the most sensitive and specific single marker for HCC. CD10 is not a useful addition or substitution to the panel of Hepatocyte, MOC31, and pCEA. The combination of Hepatocyte, MOC31, and pCEA correctly classified 99 of 100 tumors in this study and is our proposed panel of immunostains for the initial workup of malignant tumors in the liver.
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PMID:A comparison of CD10 to pCEA, MOC-31, and hepatocyte for the distinction of malignant tumors in the liver. 1248 Oct 8

The differential diagnoses of hepatocellular carcinoma (HCC), renal cell carcinoma (RCC), and adrenocortical carcinoma (ACC) are sometimes difficult due to their overlapping histologic features. Immunohistochemistry is a helpful adjunct in supporting the histologic diagnosis. In this study, the authors used the tissue array technique to systemically analyze the efficacy of different immunohistochemical panels in discerning these neoplasms. Immunohistochemical stains were performed on a total of 895 tumors (including 170 HCCs, 176 RCCs, and 40 ACCs) using monoclonal antibodies against hepatocyte antigen (HPA), CD10, RCC marker, vimentin, alpha-inhibin, keratins (KL-1, CAM 5.2, 7, and 20), epithelial membrane antigen, and polyclonal antibodies against carcinoembryonic antigen (pCEA) and alpha-fetoprotein, and antibodies Melan-A (A103), MOC31, and BG8. HPA immunostain alone detected 85.9% of HCCs, and the addition of canalicular pattern of pCEA and CD10 immunostains raised the sensitivity to 94.7%. RCC marker was positive in 54.5% of RCCs but was negative in all non-RCC tumors. Using positive CD10 and negative HPA and pCEA together with RCC marker increased the sensitivity to 74.4%. Immunoreactivity for alpha-inhibin and A103 could be detected in 67.5% and 55% of ACCs, respectively. When the two antibodies were combined, 82.5% of ACCs were labeled. Proper selection of immunohistochemical stains aid in the differential diagnosis of the three neoplasms. Using the tissue array technique, the authors also showed an effective model for comprehensive antibody testing.
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PMID:Differential immunoprofiles of hepatocellular carcinoma, renal cell carcinoma, and adrenocortical carcinoma: a systemic immunohistochemical survey using tissue array technique. 1628 Jun 64

The histological differentiation of Hepatocellular carcinoma (HCC) from cholangiocarcinoma (CC) and metastatic adenocarcinoma (MA) of the liver is difficult in some cases and immunohistochemistry (IHC) is necessary for the diagnosis. HepPar-1 is a recently available antibody which seems to be very specific and sensitive for the diagnosis of HCC. MOC31 is an antibody directed against a cell surface glycoprotein and has been shown to be helpful in distinguishing between HCC and CC or MA as a negative marker in HCC. In this study we tried to apply these two markers for the diagnosis of HCC cases as a simple, useful and reliable panel. We selected 101 liver tumors which had proven diagnosis by several antibodies and cilinicopathologic correlation. The tumors with confirmed histologic diagnosis including 35 HCC, 58 MA, 7 CC and 1 combined HCC-CC.. HepPar-1 was positive in 30 of 35 cases of HCC; none of the other tumors were reactive for HepPar1 except for a case of metastatic gall bladder adenocarcinoma which showed areas of hepatoid differentiation in the H&E slides. MOC31 was positive in 5 of the HCC cases and stained 60 of 65 cases of MA. There were 4 cases of HCC with clear cell morphology, in most of which, IHC pattern was not diagnostic and further investigation was needed. As a conclusion the combination of positive Hepar1 and negative MOC31 is highly suggestive for HCC except for the clear cell variant. These two reliable markers are recommended for the initial step of differential diagnosis between HCC and MA and for the confirmation of the histologic diagnosis.
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PMID:Histologic differentiation of hepatocellular carcinoma from adenocarcinoma by a simple panel: evaluation of the pitfalls. 1788 19

The heterogeneous nature of hepatocellular carcinoma (HCC) and the lack of appropriate biomarkers have hampered patient prognosis and treatment stratification. Using a gene expression profiling approach, we recently identified a novel prognostic HCC subtype that resembles hepatic progenitor cells with the activation of stem cell markers and Wnt-beta-catenin signaling, based on EpCAM (epithelial cell adhesion molecule, a hepatic stem cell marker) expression. In this study, we investigated whether the activation of the Wnt-beta-catenin pathway regulates EpCAM expression. We found that nuclear accumulation of beta-catenin induced, whereas the degradation of beta-catenin or inhibition of Tcf/beta-catenin complex formation reduced EpCAM gene expression in cultured normal human hepatocytes and HCC cell lines. We identified two Tcf binding elements in the EpCAM promoter that specifically bound to Tcf-4 in an electrophoretic mobility shift assay. EpCAM promoter luciferase activity was down-regulated by the degradation of beta-catenin or inhibition of Tcf/beta-catenin complex formation. Furthermore, we found that EpCAM-positive HCC is much more sensitive to Tcf/beta-catenin binding inhibitors than EpCAM-negative HCC in vitro. Taken together, our data indicate that EpCAM is a Wnt-beta-catenin signaling target gene and may be used to facilitate HCC prognosis by enabling effective stratification of patients with predicted pharmacologic responses to Wnt-beta-catenin signaling antagonists.
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PMID:Activation of hepatic stem cell marker EpCAM by Wnt-beta-catenin signaling in hepatocellular carcinoma. 1800 28

The heterogeneous nature of hepatocellular carcinoma (HCC) and the lack of appropriate biomarkers have hampered patient prognosis and treatment stratification. Recently, we have identified that a hepatic stem cell marker, epithelial cell adhesion molecule (EpCAM), may serve as an early biomarker of HCC because its expression is highly elevated in premalignant hepatic tissues and in a subset of HCC. In this study, we aimed to identify novel HCC subtypes that resemble certain stages of liver lineages by searching for EpCAM-coexpressed genes. A unique signature of EpCAM-positive HCCs was identified by cDNA microarray analysis of 40 HCC cases and validated by oligonucleotide microarray analysis of 238 independent HCC cases, which was further confirmed by immunohistochemical analysis of an additional 101 HCC cases. EpCAM-positive HCC displayed a distinct molecular signature with features of hepatic progenitor cells including the presence of known stem/progenitor markers such as cytokeratin 19, c-Kit, EpCAM, and activated Wnt-beta-catenin signaling, whereas EpCAM-negative HCC displayed genes with features of mature hepatocytes. Moreover, EpCAM-positive and EpCAM-negative HCC could be further subclassified into four groups with prognostic implication by determining the level of alpha-fetoprotein (AFP). These four subtypes displayed distinct gene expression patterns with features resembling certain stages of hepatic lineages. Taken together, we proposed an easy classification system defined by EpCAM and AFP to reveal HCC subtypes similar to hepatic cell maturation lineages, which may enable prognostic stratification and assessment of HCC patients with adjuvant therapy and provide new insights into the potential cellular origin of HCC and its activated molecular pathways.
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PMID:EpCAM and alpha-fetoprotein expression defines novel prognostic subtypes of hepatocellular carcinoma. 1831 9

Cancer stem cells reportedly participate in the tumorigenesis of some neoplasms. Scirrhous hepatocellular carcinoma is a variant of hepatocellular carcinoma with abundant fibrous stroma. Herein, we clinicopathologically examined scirrhous (29 cases) and conventional (50 cases) hepatocellular carcinoma with reference to cancer stem cells. Scirrhous hepatocellular carcinoma was classifiable into 3 types based on small neoplastic cells at the periphery of tumor cell nests. Of 29 cases of scirrhous hepatocellular carcinoma, 21 contained small neoplastic cells. Immunohistochemically, those cells were positive for cytokeratin 7 and ATP-binding cassette transporter G2. In 11 cases, those small tumor cells were also positive for cytokeratin 19, neural cell adhesion molecule, and epithelial cell adhesion molecule (type 1), whereas 10 cases did not show such additional expression (type 2). The remaining 8 tumors did not contain small tumor cells with stem cell features (type 3). In the central parts of tumor nests, carcinoma cells got hepatocellular markers and lost expression of neural cell adhesion molecule, and epithelial cell adhesion molecule, suggesting hepatocellular maturation. Transforming growth factor beta1, a fibrogenic cytokine, was also detected in those small tumor cells. Culture cells extracted as "side population" from hepatocellular carcinoma cell lines (HuH7 and PLC5) expressed more intensely cytokeratins 7 and 19, neural cell adhesion molecule, epithelial cell adhesion molecule, and transforming growth factor beta1 than did non-side population cells. Small tumor cells with stem cell features in scirrhous hepatocellular carcinoma may correspond to side population of culture cells and might be involved in fibrogenesis of scirrhous hepatocellular carcinoma.
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PMID:Participation of liver cancer stem/progenitor cells in tumorigenesis of scirrhous hepatocellular carcinoma--human and cell culture study. 1854 18


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