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)

A combined hepatocellular-cholangiocarcinoma (CHC) of transitional subtype and the surrounding cirrhotic liver tissue were investigated immunocytochemically by monoclonal antibodies specific for each of the keratin polypeptides 7, 8, 18 and 19. Different keratin subsets were found in different parts of the tumour. The hepatocellular component reveals keratins 8 and 18, with the bordering cells of trabecular formations additionally expressing keratins 7 and 19. The same keratins i.e. 7, 8, 18, 19 were found in normal bile duct epithelium as well as in cholangiocarcinomatous and transitional areas of hepatocellular and cholangiocellular differentiation. Normal hepatocytes express only keratin 8 and 18. In cirrhotic liver some modified hepatocytes additionally express keratin 7. When ductal transformation is observed in the marginal parts of portal tracts and fibrous septa the keratin polypeptide pattern mimics that of bile duct epithelium. The cholangiocellular metaplasia of hepatocytes observed here correlates well with findings in hepato-organogenesis and hepatocarcinogenesis and suggests that the transitional subtype of combined hepatocellular-cholangiocarcinoma is a variant of hepatocellular carcinoma.
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PMID:Evidence for a hepatocellular lineage in a combined hepatocellular-cholangiocarcinoma of transitional type. 246 36

Proliferation of preexisting bile ducts, ductular metaplasia of hepatocytes and proliferation and differentiation of liver stem cells are discussed in the pathogenesis of neoductular structures in the liver. Under the condition of experimental bile duct obstruction and in extrahepatic bile duct stenosis neoductular structures are first the result of proliferation and sprouting of preexisting ducts and cholangioles. Especially in later stages of cholestasis but also in other chronic progredient liver diseases such as chronic alcoholic liver disease and chronic active hepatitis periportal hepatocytes may show a phenotypic shift towards ductular epithelia. In postnatal liver diseases hepatocytes first express keratin 7 and later keratin 19 during ductular transdifferentiation. This is in contrast to embryonal cholangiogenesis. In alpha-1-antitrypsin-deficiency, hemochromatosis, Wilson's disease, and chronic active hepatitis B cellular deposites typically located in hepatocytes such as alpha-1-AT, siderin, copper, HBs-Ag, and HBc-Ag can also be found in neoductular cells close to hepatocytes. These deposites seem to be retained during the ductular transdifferentiation of hepatocytes. Expression of bile duct-type integrin subtypes and TGF beta 1 in neoductular cells are involved in the changing parenchymal/mesenchymal interplay during neoductogenesis, resulting in periductular basal membrane and periductular fibrosis. In FNH the ductular transdifferentiation of hepatocytes is integrated in the histogenesis of micronodules and portal tract equivalents of these tumor-like lesions. Ductular structures in hepatoblastomas and especially in combined hepatocellular and cholangiocarcinomas (CHCC) may reflect the common embryologic derivation of hepatocytes and biliary epithelia. Non-neoplastic liver tissue in resection specimens of our CHCC showed a lower rate of cirrhosis, and a significantly higher Ki 67-LI of neoductular cells compared to liver tissue in resection specimens of HCC and liver metastases. 3 of 10 CHCC had developed in alpha-1-AT-deficiency, in which this protease-inhibitor was predominantly retained in periportal hepatocytes. These findings in non-neoplastic tumor-bearing liver tissue suggest that CHCC include a special histogenic type of primary liver carcinoma which in analogy to some experimental liver tumors might develop from periportal parenchymal cells.
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PMID:[Hepatic neoductules]. 860 Jun 93

To assess the utility of cytokeratin (CK) profile and albumin mRNA detection (as revealed by in situ hybridization) in the differential diagnosis of primary liver carcinomas (PLCs) we evaluated a series of surgically resected PLCs, comprising 20 "pure" hepatocellular carcinomas (HCCs) (10 well-differentiated, 10 poorly differentiated), 15 cholangiocarcinomas (CCs) (6 peripheral, 5 hilar, and 4 major duct ones) and 10 hepatocholangio-carcinomas (HCC-CCs). 11 of 20 (55%) of the pure HCCs expressed CKs of pure hepatocytic lineage (CK 8 and CK 18); 2 of 10 (20%) of the HCC-CCs displayed only hepatocytic profile, whereas 12 of 15 (80%) of the CCs evidenced mature bile duct cell phenotype (CK 8, CK 18, CK 7, CK 19). All HCCs expressed varying distributions of albumin mRNA, whereas 4 of 6 (67%) peripheral CCs showed cells with focal positivity for albumin mRNA. This suggests that the phenotypic expression of PLC cells are often not fixed, and in particular: (1) peripheral CCs have a different phenotype from hilar and large duct ones; (2) the CK profile and albumin mRNA expression in peripheral CCs show many similarities with those of some HCCs. Furthermore, the results show that a mixed biological phenotype (ie, CK 8, CK 18 and CK 7 and/or CK 19) can be found both among morphologically pure HCCs and peripheral CCs, suggesting that these two forms could share a common histogenesis. We think that special attention should be given to cases in which CK profile and albumin mRNA reveal mixed phenotype, as these tumors could have different biological behavior and respond differently to therapy.
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PMID:Histogenesis of primary liver carcinomas: strengths and weaknesses of cytokeratin profile and albumin mRNA detection. 866 72

We performed immunohistochemical studies on 90 surgically resected liver tumors, including 30 tumors each from hepatocellular carcinoma (HCC), cholangiocarcinoma (CC), and metastatic colorectal adenocarcinoma (MCA), using monoclonal antibodies against cytokeratin (CK) 7, CK 19, and CK 20 to examine the differences in the CK expressions in primary and metastatic carcinomas of the liver. We also investigated the usefulness of such expression in the differential diagnosis in addition to existing markers such as alpha-fetoprotein, carcinoembryonic antigen, and carbohydrate antigen 19-9. For CK 7, all except for one (97%) of the CCs were diffusely positive, whereas only two (7%) HCCs and one (3%) MCAs were diffusely positive. For CK 19, 23 (77%) CCs and 19 (64%) MCAs were diffusely positive, whereas no HCCs were positive. For CK 20, 22 (74%) MCAs were diffusely positive, whereas no HCC and three (10%) CCs were diffusely positive. The findings concerning the expression of immunohistochemical CK are therefore considered to be useful in addition to the diagnostic criteria when making a differential diagnosis of primary and metastatic carcinomas of the liver.
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PMID:The expression of cytokeratins 7, 19, and 20 in primary and metastatic carcinomas of the liver. 887 22

A case of hepatoid carcinoma of the ovary in a 61-year-old Japanese woman, who showed high serum levels of alpha-fetoprotein and CA125, is reported. Grossly, the left ovarian tumor, which measured 12 x 9 cm, was solid and multinodular. Histologically, the tumor resembled hepatocellular carcinoma by its architectural and cytological features. Liver cell differentiation was indicated functionally by the immunohistochemical detection of alpha-fetoprotein and protein induced by vitamin K absence or antagonist II (PIVKA-II) and by positive bile production, and the hepatocellular differentiation was structurally in accord with keratin 7, 8 and 18 expression. CA125 expression, commonly present in ovarian surface epithelial carcinomas, suggested that this neoplasm originated from ovarian common epithelial cells. There are only nine such cases in the literature. A review of these cases reveals that hepatoid carcinoma of the ovary occurs exclusively in postmenopausal women (mean age, 62.7 years) and that the prognosis is poor.
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PMID:An autopsy case of hepatoid carcinoma of the ovary with PIVKA-II production: immunohistochemical study and literature review. 1035 72

Immunocytochemistry has indicated that, in the liver, the bcl-2 gene is generally expressed in bile duct cells and tumors of biliary origin. Both in situ hybridization and immunocytochemistry were used to analyze the expression of bcl-2 messenger RNA (mRNA) and its protein product (Bcl-2) in the tissue of 50 pure primary liver tumor (PLT) specimens including 40 hepatocellular carcinoma (HCC) specimens and 10 cholangiocellular carcinoma (CC) specimens. The phenotype of the tumors expressing bcl-2 was confirmed by immunocytochemical assessment of the cytokeratin (CK) profile (CK8, CK18, CK7, and CK19). Whereas positive immunoreaction with the anti-Bcl-2 MoAb was revealed in only 8 (20%) of 40 HCC specimens and 1 (10%) of 10 CC specimens, high contents of bcl-2 mRNA were found in 26 (65%) of 40 HCC specimens and 9 (90%) of 10 CC specimens. Regarding the CK profile, only 25 (62%) of 40 HCC specimens showed pure hepatocytic lineage (CKs 8-18), whereas among the remaining 15 HCC specimens, positivity for either CK7 (12 specimens) or CK19 (5 specimens) was observed. All 10 CC specimens stained with CKs 8-18-19, and 8 of 10 stained with CK 7 as well. These results indicate that PLTs display a greater expression of bcl-2 mRNA than of the Bcl-2 protein. Furthermore, CK profile assessment confirmed that bcl-2 expression is not confined to liver tumors of biliary origin. In the absence of a well-demonstrated post-transcriptional control of the gene, the authors propose the detection of bcl-2 mRNA by in situ hybridization as a possible alternative method for assessing the expression of bcl-2 mRNA in PLT.
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PMID:High levels of BCL-2 messenger RNA detected by in situ hybridization in human hepatocellular and cholangiocellular carcinomas. 1061 75

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

Cytokeratin 7 (CK 7) and cytokeratin 20 (CK 20) are low molecular weight cytokeratins. Their anatomic distribution is generally restricted to epithelia and their neoplasms. We surveyed 435 epithelial neoplasms from various organ systems by immunohistochemistry using CK 7 and CK 20 monoclonal antibodies. Expression of CK 7 was seen in the majority of cases of carcinoma, with the exception of those carcinomas arising from the colon, prostate, kidney, and thymus; carcinoid tumors of the lung and gastrointestinal tract origin; and Merkel cell tumor of the skin. The majority of cases of squamous cell carcinoma of various origins were negative for CK 7, except cervical squamous cell carcinoma, in which 87% of cases were positive. Approximately two thirds of cases of malignant mesothelioma were CK 7-positive. CK 20 positivity was seen in virtually all cases of colorectal carcinomas and Merkel cell tumors. CK 20-positive staining was also observed in cases of pancreatic carcinomas (62%), gastric carcinoma (50%), cholangiocarcinomas (43%), and transitional cell carcinomas (29%). The expression of CK 20 was virtually absent in carcinomas from other organ systems and in malignant mesothelioma. CK 7- and CK 20-negative epithelial neoplasms included adrenal cortical carcinoma, germ cell tumor, prostate carcinoma, renal cell carcinoma, and hepatocellular carcinoma.
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PMID:Cytokeratin 7 and cytokeratin 20 expression in epithelial neoplasms: a survey of 435 cases. 1100 36

Spontaneous hepatic neoplasms were identified in two adolescent (<5 years of age) male cynomolgus monkeys (Macaca fascicularis). Monkey No. 1 had a solitary hepatocellular carcinoma (HCC). Monkey No. 2 had multiple discrete tumors consisting of several poorly circumscribed HCCs and a mixed hepatocholangiocellular carcinoma (MHC). Metastases were not evident in either monkey. Histochemical and immunohistochemical stains were used to assess phenotypic alterations in the tumors. Many or most neoplastic hepatocytes (NHs) of both monkeys stained positive for low-molecular-weight cytokeratin (LMWCK), cytokeratin (CK) 8, and CK 18. In monkey No. 1, small aggregates of NHs were positive for carcinoembryonic antigen (CEA), glutathione S-transferase-pi (GST), and alpha-fetoprotein (AFP), but NHs were uniformly negative for CK 7. NHs in monkey No. 2 were negative for CEA and AFP but were multifocally positive for GST and CK 7. Broad-spectrum cytokeratin (BSCK), high-molecular-weight cytokeratin (HMWCK), and CK 19 did not react with NHs of either animal. Neoplastic cells forming ductlike structures in the MHC of monkey No. 2 stained with LMWCK, CK 7, CK8, CK 18, BSCK, and GST but not with HMWCK or CK 19. Tumors in both monkeys had enhanced pericellular fibronectin staining. Nonneoplastic parenchyma of both monkeys contained multiple discrete foci of cellular alteration and scattered aggregates of hepatocytes with strong cytoplasmic staining for fibronectin. Staining patterns of these tumors demonstrate immunophenotypic heterogeneity of the neoplastic cells within individual tumors and variability among tumors. This information may serve as a useful reference for others encountering similar lesions in primates.
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PMID:Spontaneously occurring hepatocellular neoplasia in adolescent cynomolgus monkeys (Macaca fascicularis). 1110 57

The histological diagnosis of hepatocellular carcinoma (HCC) can be complicated by difficulty in differentiation from cholangiocarcinoma and metastatic carcinoma. Immunohistochemical stains currently in use are suboptimal in terms of specificity and sensitivity. Using cDNA array analysis for differential gene expression, we demonstrated a significant increase in mRNA expression level of CD10/CALLA, a type 2 cell-surface metalloproteinase, in HCC, which was subsequently confirmed by reverse transcriptase-polymerase chain reaction and Western blotting analysis. To test the possibility of using CD10/CALLA as a diagnostic marker for HCC, various intrahepatic tumors were studied immunohistochemically using a monoclonal antibody for CD10. A characteristic canalicular-staining pattern was observed in normal hepatocytes and at the apical surface of bile duct epithelial cells. The canalicular expression of CD10 was identified in 9 of 15 HCCs examined (60%), whereas 10 cholangiocarcinomas and 8 of 9 metastatic carcinomas lacked this staining. In three of the six HCCs negative for CD10, the surrounding nonneoplastic liver tissue was also negative, suggesting fixation-associated loss of immunoreactivity. Six HCCs had stronger CD10 staining in tumor cells when compared to the surrounding nonneoplastic tissue. Three cases of benign bile duct adenomas also expressed CD10 at the luminal aspect. One of the MCs showed a diffuse, cytoplasmic staining for CD10, a pattern readily distinguishable from that of HCC. A panel of other immunohistochemical markers were also studied for comparison, including polyclonal anti-carcinoembryonic antigen, cytokeratin (CK) 7, CK20, and alpha-fetoprotein. Our results demonstrate that cDNA arrays can be effectively used to identify new diagnostic markers, and that CD10 is a reliable marker for identifying HCC, particularly when used in conjunction with a panel of immunohistochemical markers (polyclonal anti-carcinoembryonic antigen, CK7, CK20, and alpha-fetoprotein) and in the distinction from cholangiocarcinoma.
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PMID:cDNA arrays and immunohistochemistry identification of CD10/CALLA expression in hepatocellular carcinoma. 1158 69


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