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)

The histopathology of acute and chronic infections associated with viral hepatitis is reviewed and illustrated. Particular attention is directed to changes that help to differentiate chronic persistent from chronic active viral hepatitis. Features that help to identify the intravenous drug abuser who has hepatitis, whether acute or chronic, include the presence of particulate birefringent material (usually talc) in reticuloendothelial cells, as well as tissue eosinophilia. Ground-glass hepatocytes are characteristic of the HBAg carrier. They may be present in chronic persistent and chronic active hepatitis and in cirrhotic livers with or without hepatocellular carcinoma. Ground-glass cells which contain the surface component of the HBAg, can be stained specifically by a number of stains that include aldehyde fuchsin and orcein. The cirrhotic liver of the HBAg-seropositive patient may show liver-cell dysplasia, a premalignant change.
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PMID:Light microscopic morphology of viral hepatitis. 80 46

4-(Methylnitrosamino)-1-(3-pyridyl)-1-butanone (NNK), a potent tobacco-specific carcinogen in animals, has been linked to tobacco-related cancers in humans. The cytochrome(s) P-450 (P-450) responsible for the metabolic activation of NNK in humans has not been identified. The present work investigated the ability of human lung and liver microsomes and 12 forms of human P-450, expressed in Hep G2 (hepatoma) cells, to metabolize NNK. Of the 12 P-450 forms, P-450 1A2 had the highest activity in catalyzing the conversion of NNK to the keto alcohol, 4-hydroxy-1-(3-pyridyl)-1-butanone. P-450s 2A6, 2B7, 2E1, 2F1, and 3A5 also had measurable activities in the formation of keto alcohol. The apparent Km and Vmax for the formation of keto alcohol in the P-450 1A2-expressed Hep G2 cell lysate were 309 microM and 55 pmol/min/mg protein, respectively. 4-(Methylnitrosamino)-1-(3-pyridyl)-1-butanol, a reductive product, was the major metabolite formed, whereas the formation of keto alcohol and its aldehyde and acid derivatives (all alpha-hydroxylation products) constituted approximately 1% of the initial amount of NNK in P450-expressed Hep G2 cell lysate. A similar metabolite pattern was observed with human lung or liver microsomes. In human lung microsomes, the apparent Kms for the formation of 4-hydroxy-4-(3-pyridyl)butyric acid, 4-oxo-1-(3-pyridyl)-1-butanone, NNK-N-oxide, and 4-(methylnitrosamino)-1-(3-pyridyl)-1-butanol were 526, 653, 531, and 573 microM, respectively; the formation of keto alcohol was not observed. For human lung microsomes, there was no sex-related difference in NNK metabolism. Carbon monoxide (90% atmosphere) significantly inhibited the metabolism of NNK in human lung and liver microsomes. 7,8-Benzoflavone, an inhibitor of P-450s 1A1 and 1A2, had no effect on NNK metabolism in human lung microsomes but decreased the formation of keto alcohol by 47% in human liver microsomes. Similarly, antibodies against human P-450s 1A2 and 2E1 decreased keto alcohol formation by 42% and 53%, respectively, in human liver microsomes but did not affect NNK metabolism in lung microsomes. Inhibitory antibodies against P-450s 2A1, 2C8, 2D1, or 3A4 had little or no effect on the metabolism of NNK in human liver or lung microsomes.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Metabolism of 4-(methylnitrosamino)-1-(3-pyridyl)-1-butanone in human lung and liver microsomes and cytochromes P-450 expressed in hepatoma cells. 131 98

The rates of oxidation of ethanol to acetate by human blood monocyte-derived macrophages and the two human hepatoma cell lines PLC/PRF/5 and Hep G2 were studied. The average rates obtained were, respectively, 621, 447 and 596 nmol/h/mg cellular protein. Cultures of these three cell types, containing known quantities of cellular protein per flask, were incubated with 0 or 2 mg ethanol/ml for 72 h and the culture supernatants subjected to affinity chromatography on blue sepharose CL-6B. Pure albumin fractions obtained in this way were adjusted to the same optical density and tested for cytotoxicity against A9 cells. The data showed that the albumin fractions obtained from ethanol-containing macrophage cultures were considerably more cytotoxic than those obtained from ethanol-containing cultures of PLC/PRF/5 and Hep G2 cells. It appeared that, for a given quantity of ethanol metabolised, considerably more acetaldehyde was released extracellularly by macrophages than by the two hepatoma cell lines and that this acetaldehyde bound to albumin to form cytotoxic acetaldehyde-albumin complexes. The data raise the possibility that macrophages are an important source of extracellular acetaldehyde and circulating acetaldehyde-albumin complexes in vivo.
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PMID:Comparison of the generation of albumin-associated cytotoxic activity in supernatants from ethanol-containing cultures of human blood monocyte-derived macrophages and of two human hepatoma cell lines. 165 51

The NAD- and NADP-dependent aldehyde dehydrogenase (ALDH) activities were evaluated in two rat hepatoma cell lines, namely the well-differentiated MH1C1 line and the less differentiated HTC line. Each activity was determined in parallel in isolated rat hepatocytes, for comparison. The aliphatic aldehyde acetaldehyde (ACA) and the aromatic aldehyde benzaldehyde (BA) were used as substrates. With the first substrate the ALDH activities found in the crude cytoplasmic extracts were lower in hepatoma cells than in normal hepatocytes, especially when measured with NADP as coenzyme (ACA/NADP). Otherwise, with benzaldehyde as substrate the NAD-dependent enzyme activity (BA/NAD) was increased about 9-fold in HTC cells over hepatocytes and decreased in MH1C1 cells, while the NADP-dependent (BA/NADP) activity was increased 38- and 2.5-fold in HTC and MH1C1 cell lines, respectively. Studies on the subcellular distribution of these enzyme activities showed that the activity measured with acetaldehyde and NAD (ACA/NAD) was almost equally distributed between the cytosol and the subcellular particles in the three cell populations, but the ACA/NADP activity was shifted towards the cytosolic compartment in hepatomas, especially in HTC cells. The BA/NAD and BA/NADP ALDH activities found in the organelles of hepatoma cells were markedly reduced in comparison with hepatocytes, in favour of the cytosol. The most striking difference between the normal and the transformed cells was the 94-fold increase over hepatocytes of the BA/NADP activity, found in the cytosolic fractions of HTC cells. MH1C1 cells showed a less pronounced (7.5-fold) enhancement of this tumour-associated specific activity.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Comparative subcellular distribution of benzaldehyde and acetaldehyde dehydrogenase activities in two hepatoma cell lines and in normal hepatocytes. 166 Dec 6

Tamoxifen (TXF), a triphenylethylene antiestrogen, is the major therapeutic agent for breast cancer. In rare cases, TXF treatment appears to increase incidence of endometrial cancer. Also in rats, TXF was found to induce hepatocellular carcinoma. Previous studies suggested that metabolism of TXF may contribute to its antiestrogenic and anticancer activity. The current study demonstrates a novel route of TXF metabolism. TXF is metabolized by rat and human liver microsomes into a reactive intermediate (txf*) which binds irreversibly to microsomal proteins. The binding requires NADPH and O2 and is inhibited by CO, inhibitors of P-450, and antibodies to rat NADPH-P450 reductase, indicating catalysis by P450. Phenobarbital treatment of rats markedly increases binding, suggesting the involvement of induced P450s. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis of proteins from incubation of [14C] TXF with phenobarbital-treated microsomes exhibits a major radiolabeled zone which corresponds to a molecular weight of approximately 54,000, suggesting binding to a P-450. Cysteine and glutathione inhibited the binding of TXF without significantly affecting P-450-mediated metabolism of TXF, possibly by reacting with txf* or by competing for the same binding sites. Exposure of phenobarbital-treated microsomes and control-microsomes to 50 degrees C for 90 s, which inactivates the flavin-containing monooxygenase (FMO), diminished binding and pH 8.6 enhanced binding. Also, alternate FMO substrates inhibited binding. These findings indicate that P-450 and possibly FMO catalyze the reactions leading to the formation of txf*. However, incubations with single-labeled and dual-radiolabeled tamoxifen or with [14C]TXF-N-oxide demonstrated that monodesmethyl-TXF and TXF-N-oxide, the principal P-450 and FMO-mediated metabolites, respectively, are not on the major route of txf* formation, indicating that txf* could not be an aldehyde derived from tamoxifen nitrone. Thus, though the structure of txf* was not characterized, certain possibilities were excluded. Speculations on the structure of txf* and on its possible pharmacological and toxicological activity are presented.
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PMID:Cytochrome P-450-mediated activation and irreversible binding of the antiestrogen tamoxifen to proteins in rat and human liver: possible involvement of flavin-containing monooxygenases in tamoxifen activation. 193 68

Alcoholic liver disease includes steatosis, alcoholic hepatitis and cirrhosis. Other liver diseases of genetic origin, but with a curious association with alcohol intake, are hemochromatosis and porphyria cutanea tarda. The attribution of chronic hepatitis to alcohol intake remains speculative, and the association may reflect hepatitis C infection. Hepatic injury attributed to alcohol includes the changes reported in the fetal alcohol syndrome. Steatosis, the characteristic consequence of excess alcohol intake, is usually macrovesicular and rarely microvesicular. Acute intrahepatic cholestasis, which in rare instances accompanies steatosis, must be distinguished from other causes of intrahepatic cholestasis (e.g., drug-induced) and from mechanical obstruction of the intrahepatic bile ducts (e.g., pancreatitis, choledocholithiasis) before being accepted. Alcoholic hepatitis (steatonecrosis) is characterized by a constellation of lesions: steatosis, Mallory bodies (with or without a neutrophilic inflammatory response), megamitochondria, occlusive lesions of terminal hepatic venules, and a lattice-like pattern of pericellular fibrosis. All these lesions mainly affect zone 3 of the hepatic acinus. Other changes, observed at the ultrastructural level, are of importance in progression of the disease. They include widespread cytoplasmic shedding, and capillarization and defenestration of sinusoids. Progressive fibrosis complicating alcoholic hepatitis eventually leads to cirrhosis that is typically micronodular but can evolve to a mixed or macronodular pattern. Hepatocellular carcinoma occurs in 5 to 15% of patients with alcoholic liver disease. The clinical syndrome of alcoholic liver disease is the result of three factors--parenchymal insufficiency, portal hypertension and the clinical consequences of extrahepatic damage produced by alcohol. At the several phases of the life history of alcoholic liver disease, the individual factors play a different role. The clinical manifestations of alcoholic steatosis are mainly extrahepatic in origin. Those of alcoholic hepatitis reflect mainly parenchymal insufficiency and those of cirrhosis are mainly those of portal hypertension. Alcoholic liver injury appears to be generated by the effects of ethanol metabolism and the toxic effects of acetaldehyde, perhaps the immune responses to alcohol- or acetaldehyde-altered proteins, and questionably enhanced by viral hepatitis. Alcoholic hepatitis may be mimicked histologically, and to a varying degree clinically, by a number of conditions (obesity, diabetes, several drug-induced injuries, jejunoileal bypass, and related "shortcircuiting" of the bowel). Perhaps the most important facet of the hepatotoxicity of alcohol is its enhancement of the effects of a number of other hepatotoxic agents, among which acetaminophen is the prime example.
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PMID:Alcoholic liver disease: pathologic, pathogenetic and clinical aspects. 205 45

The author reviews the problem of the pattern of lipid peroxidation in cancer cells with special reference to a comparison between normal liver cells and hepatomas both transplanted and induced by diethylnitrosamine. It is stated that the loss of lipid peroxidation is proportional to the degree of de-differentiation of hepatoma cells. During carcinogenesis, however, the loss is already evident at the stage of preneoplastic nodules. A common feature of all tumors, independently of the extent of the loss of peroxidation in basal conditions, is the lack of further stimulation by ADP/iron or by ascorbate/iron. As regards the reasons for the decline in lipid peroxidation, they are certainly not unique. An important cause is the low activity of the enzymes of the monooxygenase microsomal chain. Another very important one is the change in lipid composition of membranes, with a marked decrease in polyunsaturated fatty acids, which are the main substrate for lipid peroxidation. It has been shown that enrichment of membranes of hepatomas with arachidonic acid results in restoration of stimulation of peroxidation by ascorbate/iron, but not with ADP/iron. The last type of stimulation mostly reflects the behaviour of the monooxygenase chain, whereas ascorbate/iron-induced stimulation does not require the presence of an efficient cytochrome P450-chain. Another cause for decreased lipid peroxidation in tumors is the increased rigidity of membranes, due to the large increase in cholesterol content: this prevents to some extent the influx of oxygen inside the membranes. Yet another cause is the presence of increased amounts of antioxidants in both cytosol and membranes. The main toxic product of lipid peroxidation, 4-hydroxynonenal, has been found to elicit several actions at extremely low concentrations. In fact, 4-hydroxynonenal stimulates chemotaxis of polymorphonuclear leukocytes, stimulates plasma membrane adenylate cyclase, stimulates plasma membrane guanylate cyclase, and stimulates phospholipase C. The last three enzymes involve the action of G-proteins. The effect of the aldehyde is present at less than micromolar concentrations, which may occur inside the cells in certain conditions. Moreover, at concentrations from 10(-6) to 10(-7) M, the aldehyde is able to block oncogene c-myc expression in the human erythroleukemic K562 cell line, which at the same time becomes able to express the gamma-globin gene. These facts are discussed with reference to a possible biological meaning of the loss of lipid peroxidation in tumors.
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PMID:Lipid peroxidation and cancer: a critical reconsideration. 251 Mar 83

The influence of a ketoaldehyde, methylglyoxal (MG), and a hydroxyalkenal, 4-hydroxypentenal (HPE), on the growth of a highly-deviated tumour has been investigated. MG and HPE, administered intraperitoneally, strongly depressed in rats the proliferative activity of the Yoshida ascites hepatoma AH-130, reducing its mitotic and labelling indices as well as the proportion of cycling cells (growth fraction). Monitoring the effects on the cell cycle by the labelled mitoses method showed that the percentage of labelled mitoses was markedly lowered after either aldehyde, which is indicative for a blocking effect in the S phase. In addition, the mean cell cycle time was slightly prolonged by MG, probably due to accumulation of cells in G1, whereas HPE delayed the first mitotic peak and increased the mean DNA synthetic period without modifying the overall cycle time. The effects of HPE on the cell cycle were prevented by pretreatment with polyamines. Repeated doses of MG significantly increased the fraction of tumour-bearing rats surviving at 90 days ('indefinite' survivors) as well as the survival time of those which succumbed, implying that the carcinostatic effect of MG persisted over several cell cycles. By contrast, HPE did not significantly modify the survival of AH-130-bearing rats, suggesting that its influence on tumour growth was rapidly reversible.
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PMID:Effect of two aliphatic aldehydes, methylglyoxal and 4-hydroxypentenal, on the growth of Yoshida ascites hepatoma AH-130. 252 64

Albumin microspheres and microcapsules containing cisplatin (CDDP) were prepared and tested as chemotherapeutic agents for the treatment of hepatocellular carcinoma. CDDP albumin microspheres were prepared by hardening with glutaric aldehyde in accordance with the method to prepare W/O emulsion. On the other hand, microcapsules were prepared by formation of a coacervate by the phase isolation method. CDDP albumin microspheres and microcapsules thus prepared were sieved and sterilized by dry heat at 135 degrees C for 4h prior to use. The content and release of CDDP were determined. The CDDP contents for albumin microspheres and microcapsules were found to be 9.2% and 33.3%, respectively. Release of CDDP in vitro was found to be significantly different between the two formulations. CDDP release in vivo was also investigated by injecting albumin microspheres and microcapsules into the hepatic artery of adult dogs. The blood CDDP concentrations after injection of both formulations were lower than those noted after injection of CDDP injectable solution, indicating that CDDP might be accumulated in the liver at a higher concentration and that use of the two formulations might result in alleviation of CDDP side effects.
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PMID:Preparation and evaluation of albumin microspheres and microcapsules containing cisplatin. 263 Jan 7

In some chemically-induced hepatomas and in cultured transformed cells the aldehyde dehydrogenase activity was found increased in the presence of aromatic aldehyde as substrate. We studied this enzyme during diethyl-nitrosamine carcinogenesis in rat liver by using an aliphatic aldehyde, 4-hydroxynonenal, as substrate. 4-Hydroxynonenal is an important product of lipid peroxidation. The NAD- and NADP-dependent aldehyde dehydrogenase of the cytosolic fraction and the NADP-dependent aldehyde dehydrogenase of the microsomes show higher values in nodules and hepatoma than in normal liver. These results suggest that increased aldehyde dehydrogenase, when 4-hydroxynonenal is used, can be considered a marker of the neoplastic process, in the same way as the level of aldehyde dehydrogenase increased in presence of aromatic aldehyde.
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PMID:Oxidative metabolism of 4-hydroxy-2,3-nonenal during diethyl-nitrosamine-induced carcinogenesis in rat liver. 273 11


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