UMLS:C0019204 - FACTA Search

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Query: UMLS:C0019204 (hepatocellular carcinoma)
71,386 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A hybrid clone was developed by the fusion of a pluripotent mouse teratocarcinoma cell line PCC-4 AzaR to the Zajdela ascitic hepatoma (ZAH) of rat origin. This hybrid cell line, F2231A, possessed a predominantly teratocarcinoma morphology with a large nucleus and prominent nucleoli, and grew in nests. F2231A cells formed undifferentiated tumours in irradiated Sv/129 mice. It formed aggregates when subcultured at high densities in bacteriological Petri dishes. The hybrid cell line differentiated in response to retinoic acid and also underwent spontaneous differentiation upon overgrowth. Karyological analysis showed the presence of several rat chromosomes in the hybrid and upon isozyme analysis it was found that only the rat variant of the X-linked enzyme HGPRT was expressed. Analysis of the genomic DNA with a cloned probe, specific for rat repetitive sequences, gave strong positive signals in the hepatoma parent and F2231A cells while the parental embryonal carcinoma (EC) cells were negative. The hybrid cell line, like the PCC-4 cells, expressed the SSEA-1 surface marker but not SSEA-3, intercellular fibronectin and EGF receptors. Upon differentiation of F2231A cells there was a loss of expression of SSEA-1. The mRNA for alpha-fetoprotein was expressed by the hybrid cell line and in this respect it resembled the hepatoma parent. Albumin mRNA was not detectable in the hybrid cell line. The mRNA for the transformation-related protein, p53, was expressed at a high level in F2231A cells. The hybrid cell line F2231A retained several of the biochemical and immunological properties of the teratocarcinoma cells.
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PMID:A malignant, stem cell-like somatic hybrid between a mouse teratocarcinoma and a rat ascitic hepatoma is differentiation competent. 247 69

Segregation of the X-linked mink markers alpha-galactosidase (GLA), phosphoglycerate kinase-1 (PGK1), hypoxanthine phosphoribosyltransferase (HPRT), and glucose-6-phosphate dehydrogenase (G6PD) was analyzed in hybrids of gamma-irradiated mink fibroblasts and Chinese hamster cells and in hybrids of nonirradiated mink fibroblasts and mouse hepatoma cells. Based on this analysis, the order of the four genes is GLA-PGK1-HPRT-G6PD on the mink X chromosome. Cytogenetic analysis of five mink x Chinese hamster hybrid clones containing mink GLA, PGK1, and HPRT, but lacking G6PD, tentatively localized mink G6PD to Xq15.22----qter and also confirmed the gene order as GLA-PGK1-HPRT-G6PD-qter. Comparison of this order with its counterpart in man and the mouse, as well as an analysis of the G-band patterns of their X chromosomes, demonstrated putative similarities between mink and man and differences in the mouse. These differences may be due to a different rate of X-chromosomal rearrangement in mammalian evolution.
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PMID:Subchromosomal localization and order of GLA, PGK1, HPRT, and G6PD loci on the X chromosome of the American mink (Mustela vison). 284 37

The segregation of X-linked markers (alpha GAL, PGK-1, HPRT and G6PD) was analysed in hybrids between gamma ray-irradiated mink fibroblasts and Chinese hamster cells, or between mink cells and mouse hepatoma cells. Based on the segregation data and the data of cytogenetics analysis of a few hybrids, the order of the mink genes was deduced as alpha GAL--PGK-1--HPRT--G6PD--qter. This order differs from that reported for human and murine genes, in spite of the very obvious similarity between G-banding of the mink and human X chromosomes. Therefore, at least one reversion is responsible for the differences observed for the human and mink X chromosomes.
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PMID:[The distribution of 4 genes (alpha GAL, PGK-1, HPRT and G6PD) on the X chromosome of the American mink (Mustela vison)]. 284 77

Monoclonal antibodies that immunoprecipitate human monoamine oxidase (MAO) A or human MAO B, but not the corresponding mouse enzymes, were used to assay for the presence of immunoprecipitable MAO A or MAO B (presumably coded by the respective human genes) in mouse-human hybrid somatic cell lines containing small numbers of human chromosomes. The results were as follow: Extracts of a human lymphoblastoid x mouse hepatoma hybrid line that retained the human X chromosome contained immunoprecipitable MAO B, while a similar hybrid line that contained the same human chromosomes, except for the human X, did not. Extracts of a human fibroblast x mouse neuroblastoma hybrid cell line, whose human chromosomal material consisted solely of the X, contained both immunoprecipitable MAO A and MAO B. Extracts of a related hybrid line, whose human chromosomal material consisted solely of an autonomous fragment and a fragment translocated to a mouse chromosome, contained immunoprecipitable MAO A. However, the level of immunoprecipitable MAO B activity in extracts of this hybrid was low or undetectable. Among extracts of 33 human fibroblast x mouse hepatoma hybrids that had been selected for expression of the X-linked human enzyme HPRT, 60% contained immunoprecipitable MAO B. This figure was comparable to the 58% that expressed the X-linked human isozyme for glucose-6-phosphate dehydrogenase (G6PD). When 11 of these hybrid lines, which contained immunoprecipitable MAO B and human HPRT, were selected for loss of HPRT, all lost immunoprecipitable MAO B in addition to HPRT. These data demonstrate that genes controlling the expression of MAO A and MAO B, which can be immunoprecipitated with the human-specific monoclonal antibodies, are located on the human X chromosome. Properties of the immunological epitopes recognized by the monoclonal antibodies suggest that the X-linked genes detected in this study are probably structural genes for the enzymes.
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PMID:Assignment of genes for human monoamine oxidases A and B to the X chromosome. 354 Mar 17

In a family encompassing three generations, six of 11 evaluated members have two or three elements of a triad comprising adrenocortical micronodular dysplasia, mucocutaneous lentigines, and cardiac myxomas. Evaluation of the adrenals in affected members revealed characteristic pathologic lesions of micronodular adrenal hyperplasia and corticotropin-independent steroidogenesis that correlated with age, suggesting a progressive lesion that begins in early childhood. Since all subjects with micronodular hyperplasia and/or cardiac myxomas also had mucocutaneous lentigines, the skin lesions were markers for affected subjects. This family is one of the larger reported with this syndrome. Of special note was the finding of rare visceral tumors in affected family members, including melanocytic schwannomas and a fibrolamellar hepatoma, signaling another feature of the syndrome. Since 60% of this family encompassing three contiguous generations were affected, the syndrome appears to be inherited as an autosomal or X-linked dominant gene.
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PMID:Adrenocortical micronodular dysplasia, cardiac myxomas, lentigines, and spindle cell tumors. Report of a kindred. 382 21

Two X-linked genes, specifying ornithine transcarbamoylase (OTC) and glucose-6-phosphate dehydrogenase (Glc-6-PD), are reversibly suppressed in certain derivatives of the rat H4-II-E hepatoma. Either gene can become reactivated spontaneously, and it is shown that both can be reactivated by azacytidine treatment. This gene reactivation has been investigated by enzyme assay and by the use of selective growth media ('ornithine-medium' to select for OTC, and medium containing diamide to select for Glc-6-PD). There is a clear tendency for both genes to be reactivated together, though either can become active alone. Since OTC is an enzyme of the urea-cycle, and Glc-6-PD is an enzyme of the hexose monophosphate shunt, and since these two pathways are normally under quite separate control, it would seem that the coupled regulation of the two genes in these hepatomas is abnormal. It is suggested that the suppression of the two genes resembles X-inactivation: in both cases, azacytidine treatment induces gene reactivation with a high frequency and results in different clones of cells expressing widely varying amounts of enzyme activity. The association between the re-expression of OTC and Glc-6-PD might indicate that some phenomenon like the position-effect is occurring.
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PMID:The associated reactivation of two X-linked genes. The spontaneous and azacytidine-induced reexpression of ornithine transcarbamoylase and glucose-6-phosphate dehydrogenase in a rat hepatoma. 608 29

The relationship between viruses and naturally occurring cancers, such as hepatocellular carcinoma and genital cancers, is of great importance to Africa. On the other hand, lymphomas, leukaemias and immunodeficiencies, although of less immediate public health importance, constitute an area of outstanding interest for research and their association with the Epstein-Barr virus (EBV) and the newly discovered human retroviruses merits world-wide attention. EBV-related malignancies in Africa include both Burkitt's lymphoma (BL) and nasopharyngeal carcinoma (NPC). Whether X-linked polyclonal lymphoproliferations exist in Africa remains an open question. The interrelationship between EBV, holoendemic malaria and genetic factors (oncogenes) has been deciphered in recent years, to make BL a kind of Rosetta stone for the understanding of multistage carcinogenesis. Although the role of EBV in the causation of NPC is not well understood, the viral capsid antigen (VCA) IgA test already allows both early detection of NPC in high-incidence areas and differential diagnosis in low-incidence areas. The question whether an EBV vaccine would be of value in African countries, in relation to EBV-associated malignancies, remains an open one. The diseases associated with the recently discovered human retroviruses (human T-lymphocyte leukaemia viruses: HTLVs) represent a new area for both research and public health assessment. Limited information is available today on the geographical distribution, age prevalence and association with disease in Africa of the different members of the retrovirus family (HTLV-1, HTLV-2, LAV/HTLV-3). The proportion of HTLV-related T-cell malignancies in different parts of Africa as well as the importance of immunodeficiencies caused by the different members of the retrovirus family remain to be determined. Typical acquired immunodeficiency syndrome (AIDS) appears to exist in Central Africa, especially Zaire, and HTLVs could be of public health importance if they cause severe forms of viral, bacterial or parasitic diseases through impairment of cell-mediated immunity. Africa, is and will long remain a continent of crucial importance with regard to the role of viruses in human malignancies and especially in haematopoietic proliferative disorders.
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PMID:Virus-associated lymphomas, leukaemias and immunodeficiencies in Africa. 610 Feb 86

X-linked phosphorylase kinase (PHK) deficiency causes X-linked liver glycogenosis (XLG) which is the most frequent liver glycogen storage disorder in man. Recently we assigned XLG to the Xp22 chromosomal region by linkage analysis in two families segregating XLG. In this study a further localization of XLG in Xp22 was performed by extending the number of Xp22 markers, by extension of the number of family members from the two families of our previous study and by linkage analysis in four additional XLG families. Two-point linkage analysis revealed lod scores of 4.60, 5.73, 5.28, 8.62 and 5.14 for linkage between XLG and the DNA markers pXUT23 and pSE3.2-L(DXS16), pD2(DXS43), pTS247-(DXS197) and pPA4B(DXS207), respectively, all at 0% recombination. Linkage heterogeneity was not observed in this set of families. Multipoint linkage analysis increased the lod score for linkage between XLG and Xp22 to 16.79 relative to DXS197/DXS207. The position of the XLG gene was confirmed by analysis of recombinational events locating the XLG gene between DXS85 and DXS41. The XLG gene could not be mapped more precisely in this chromosomal region of approximately 20cM because of the absence of recombinational events between the XLG gene and the Xp22 markers. As we have previously shown that the rabbit liver alpha subunit of PHK (PHKA2) hybridizes to human Xp22, we isolated a human PHKA2 cDNA from a human hepatoma lambda gt11 cDNA library. Fluorescent in situ hybridization mapped human PHKA2 to Xp22. As this physical mapping coincides with the genetic mapping of XLG by linkage analysis, PHKA2 most probably harbours the mutation(s) responsible for XLG.
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PMID:X-linked liver glycogenosis: localization and isolation of a candidate gene. 851 97

Giant cell tumor of tendon sheath (GCTTS) is a common soft tissue tumor. Immunophenotypical evidence suggests it is of synovial cell origin. There is controversy regarding the underlying nature of this lesion, specifically whether it is a neoplastic or nonneoplastic (ie, reactive or hyperplastic) process. Karyotypic abnormalities have been identified in GCTTS and interpreted as evidence of neoplasia, although the finding of similar karyotypic abnormalities in unequivocally nonneoplastic proliferations raises questions about using such findings to define a neoplasm. In an attempt to resolve this uncertainty, a polymerase chain reaction (PCR)-based assay for methylation of the X-linked human androgen receptor gene (HUMARA) was used to assess whether GCTTS is a clonal or polyclonal proliferation. DNA was isolated from formalin-fixed, paraffin-embedded tissue blocks from eight cases of digital GCTTS in female subjects; two cases of hepatocellular carcinoma (HCC) were used as clonal controls. Seven of eight cases of GCTTS were informative, and each showed a polyclonal proliferation, whereas both cases of HCC were clonal. Our results indicate that GCTTS is a nonneoplastic proliferation, if one accepts that a population of cells forming a tumorous mass must show clonality to be classified as a neoplasm. Our results emphasize that simple karyotypic abnormalities do not define a neoplasm. It remains to be determined whether GCTTS is a reactive or hyperplastic process.
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PMID:Giant cell tumor of tendon sheath is a polyclonal cellular proliferation. 922 50

The role of the large regenerative nodule (RN) in hepatocarcinogenesis is not clear, although the incidence of hepatocellular carcinoma (HCC) is high in cirrhotic liver. This study was aimed at clarifying the preneoplastic nature of large RN without atypia. We analyzed the clonality of HCCs and large RNs, ranging in size from 0.6 to 1.2 cm, of cirrhotic liver by X-linked human androgen receptor (HUMARA) gene assay, using the principle of random X chromosome methylation and inactivation in females. Eleven cases of HCC and five cases of large RN without atypia from ten female patients were selected. All HCCs, large RNs and paired non-tumorous tissue from adjacent liver were selectively microdissected from deparaffinized hematoxylin and eosin stained slides. Genomic DNA was isolated and digested with Hha I. Polymerase chain reaction (PCR) amplification of the HUMARA gene was performed using a PCR mixture containing [alpha-32P]-dCTP. The PCR products were separated by gel electrophoresis and analysed by autoradiography. HUMARA was informative in nine out of ten female patients. In the informative 10 HCCs from nine patients, 9 HCCs were monoclonal and one case was polyclonal. The HCC case that showed polyclonality contained many inflammatory cells in the tumor. All of the large RNs were polyclonal. No allelic loss of chromosome 18q was present in the large RNs in constrast to the 3 out of 7 HCCs, which showed allelic deletion in chromosome 18q. We conclude that all or most of the cells composing the large RNs without atypia are polyclonal and the size of a nodule may not be important in hepatocarcinogenesis. This clonality assay may be informative for the differentiation between regenerative and preneoplastic nodules in cirrhotic liver.
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PMID:Clonality of large regenerative nodules in liver cirrhosis. 938 17

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