UMLS:C0027651 - FACTA Search

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Query: UMLS:C0027651 (tumor)
685,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The subcellular distribution and properties of four aldehyde dehydrogenase isozymes (I-IV) identified in 2-acetylaminofluorene-induced rat hepatomas and three aldehyde dehydrogenase (I-III) identified in normal rat liver are compared. In normal liver, mitochondria (50%) and microsomes (27%) possess the majority of the aldehyde dehydrogenase (AlDH), with cytosol possessing little activity. Isozymes I-III can be identified in both fractions and can be differentiated on the basis of substrate and coenzyme specificity, substrate Km, inhibition by disulfiram and anti-hepatoma aldehyde dehydrogenase sera, and/or isoelectric point. Hepatomas possess considerable cytosolic AlDH (20%), in addition to mitochondrial (23%) and microsomal (35%) activity. Although isozymes I-III are present in tumor mitochondria and microsomes, little isozyme I or II is found in cytosol. Hepatoma cytosolic AlDH is composed (50%) of a hepatoma-specific isozyme (IV), differing in several properties from isozymes I-III; the remainder of the tumor cytosolic activity is due to isozyme III (48%). The data indicate that expression of the tumor-specific aldehyde dehydrogenase phenotype requires both qualitative and quantitative changes involving cytosolic and microsomal aldehyde dehydrogenase. The qualitative change requires the derepression of a gene for an aldehyde dehydrogenase expressed in normal liver only following exposure to potentially harmful xenobiotics. The quantitative change involves both an increase in activity and change in subcellular location of a basal, normal liver AlDH isozyme.
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PMID:Properties of aldehyde dehydrogenas from chemically-induced rat hepatomas and normal rat liver. 742 44

Naturally processed self-peptides bound to human histocompatibility leukocyte antigens (HLA) class I molecules of human hepatocellular carcinoma tissues (HLA-A2.1, -B44, -B13) in vivo were isolated for sequence analysis. Acid-eluted peptides were subjected to reversed-phase high-performance liquid chromatographic separation and single-fraction sequencing was performed by Edman degradation. The peptides were found to be octamers or nonamers and they were derived from the processing of intracellular proteins. Three independent sequences were obtained from HLA-A2.1 molecules. One of the peptides showed sequence homology to the hepatitis B virus (HBV) pre-S protein, one to aldehyde dehydrogenase, and the other to no known protein. Two independent sequences were obtained from HLA-B44, B13 molecules: one showed sequence homology to the human c-abl protein, the other showed no homology to any known protein. A synthetic biotinylated peptide based on the HBV pre-S peptide sequence was confirmed to bind to HLA-A2.1 gene-transfected L cells. These data suggested that peptides potentially recognized by cytotoxic T cells can bind to HLA class I molecules on tumor cells in vivo.
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PMID:Analysis of naturally processed human histocompatibility leukocyte antigen class I-bound peptides from hepatocellular carcinoma tissues in vivo. 749 16

This study attempts to measure the quantitative contribution of major chemical fractions of the whole bovine cornea to ultraviolet (UV) absorption between 240 and 300 nm, with special attention to the biologically significant range of 290-300 nm. The cornea was divided into water-insoluble, nonprotein small water-soluble, water-soluble protein, and lipid-soluble fractions. The insoluble fraction (largely collagen) was solubilized by enzymatic digestion. Solutions of individual fractions equivalent to a constant mass of fresh cornea were scanned for absorption from 240 to 300 nm. The sum of the absorbances of the individual fractions closely approximated the absorbance of whole corneas at all wavelengths examined. The extinction coefficients of the lipid and water-soluble fractions were several times greater than that of the insoluble fraction throughout the studied spectrum. Yet, because of its large mass (75% of cornea dry weight), the insoluble fraction accounted for 40-50% of UV absorbance between 240 and 280 nm. However, in the range of 290-300 nm, the water-soluble plus lipid-soluble fractions accounted for 60-65% of the total absorption, with the water-soluble proteins alone accounting for 40-45% of the total. The soluble proteins comprised only approximately 17% of the cornea's dry weight. The special contribution of the water-soluble proteins to absorption was attributed to their relatively high tryptophan content (approximately 1.6% by weight). A 54-kDa protein, identified by others as tryptophan-rich, tumor-associated aldehyde dehydrogenase, accounted for approximately 30% of the total soluble protein mass.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Quantitation of ultraviolet light-absorbing fractions of the cornea. 760 Aug 10

Cytosolic aldehyde dehydrogenase (ALDH), an enzyme responsible for oxidizing intracellular aldehydes, has an important role in ethanol, vitamin A, and cyclophosphamide metabolism. High expression of this enzyme in primitive stem cells from multiple tissues, including bone marrow and intestine, appears to be an important mechanism by which these cells are resistant to cyclophosphamide. However, although hematopoietic stem cells (HSC) express high levels of cytosolic ALDH, isolating viable HSC by their ALDH expression has not been possible because ALDH is an intracellular protein. We found that a fluorescent aldehyde, dansyl aminoacetaldehyde (DAAA), could be used in flow cytometry experiments to isolate viable mouse and human cells based on their ALDH content. The level of dansyl fluorescence exhibited by cells after incubation with DAAA paralleled cytosolic ALDH levels determined by Western blotting and the sensitivity of the cells to cyclophosphamide. Moreover, DAAA appeared to be a more sensitive means of assessing cytosolic ALDH levels than Western blotting. Bone marrow progenitors treated with DAAA proliferated normally. Furthermore, marrow cells expressing high levels of dansyl fluorescence after incubation with DAAA were enriched for hematopoietic progenitors. The ability to isolate viable cells that express high levels of cytosolic ALDH could be an important component of methodology for identifying and purifying HSC and for studying cyclophosphamide-resistant tumor cell populations.
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PMID:Assessment of aldehyde dehydrogenase in viable cells. 774 35

5-Fluorouracil (5-FU) is an effective antitumor agent used in treating various cancers. Because of its metabolism by intestinal and other cells, 5-FU has an inconsistent bioavailability that limits its oral use. 5-Fluoro-2-pyrimidione (5-FP), a 5-FU prodrug, was synthesized and found to be converted to 5-FU by aldehyde oxidase, an enzyme present in high concentrations in the livers of mice and humans but not in the gastrointestinal tract. Using BDF1 mice, the pharmacokinetics of 5-FP were studied and compared with those of 5-FU. The bioavailability of 5-FP given orally was 100% at a dosage of 25 mg/kg and 78% at a dosage of 50 mg/kg. The half-lives of both doses of 5-FP were at least 2-fold longer than the half-lives of the same doses of 5-FU, and the clearance rates of 5-FP were 3-fold slower. 5-FP was converted rapidly to 5-FU, in vivo. The resulting 5-FU was measured at a steady-state level of 40-70 microM in plasma, at a dosage of 25 mg/kg, that was sustained for at least 4 hr. Also, when given orally, 5-FP was shown to have potent activity against Colon 38 tumor cells and P388 leukemia cells in mice. The therapeutic index of 5-FP was similar to that of 5-FU in these mouse tumor models. The potential clinical use of 5-FP as a prodrug of 5-FU should be considered.
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PMID:5-Fluoro-2-pyrimidinone, a liver aldehyde oxidase-activated prodrug of 5-fluorouracil. 774 92

The development of hepatocellular carcinoma in rodents treated with different chemical compounds is associated with the appearance in the cytosol of neoplastic liver cells of an unusual aldehyde dehydrogenase isozyme of class 3 (ALDH-3) which is very active with aromatic aldehydes. This tumor-associated isozyme is readily detected by enzyme cytochemistry using the substrate benzaldehyde with NADP as coenzyme. To determine whether human hepatocellular carcinomas express ALDH-3, the activity of this isozyme was examined in frozen sections from 68 echo-guided human liver biopsies. In 54 cases the guided biopsy was performed on one or more nodules suggestive for hepatocellular carcinoma found at ultrasonography within the liver parenchyma. The remaining 14 patients were affected by chronic active hepatitis or cirrhosis. An intense enzymatic activity was ascertained in 5 out of 36 hepatocellular carcinomas. In non-neoplastic liver, in macroregenerative nodules and in metastatic adenocarcinomas enzymatic activity was not detectable. ALDH-3-positive tumors were typical hepatocellular carcinomas (histological grade II and III). These results suggest that ALDH-3 is a phenotype associated with malignancy in human liver tumors.
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PMID:Cytochemical detection of a class 3 aldehyde dehydrogenase in human hepatocellular carcinoma. 779 43

High-level cytosolic class-3 aldehyde dehydrogenase (ALDH-3)-mediated oxazaphosphorine-specific resistance (> 35-fold as judged by the concentrations of mafosfamide required to effect a 90% cell-kill) was induced in cultured human breast adenocarcinoma MCF-7/0 cells by growing them in the presence of 30 microM catechol for 5 days. Resistance was transient in that cellular sensitivity to mafosfamide was fully restored after only a few days when the inducing agent was removed from the culture medium. The operative enzyme was identified as a type-1 ALDH-3. Cellular levels of glutathione S-transferase and DT-diaphorase activities, but not of cytochrome P450 IA1 activity, were also elevated. Other phenolic antioxidants, e.g. hydroquinone and 2,6-di-tert-butyl-4-hydroxytoluene, also induced ALDH-3 activity when MCF-7/0 cells were cultured in their presence. Thus, the increased expression of a type-1 ALDH-3 and the other enzymes induced by these agents was most probably the result of transcriptional activation of the relevant genes via antioxidant responsive elements present in their 5'-flanking regions. Cellular levels of ALDH-3 activity were also increased when a number of other human tumor cell lines, e.g. breast adenocarcinoma MDA-MB-231, breast carcinoma T-47D and colon carcinoma HCT 116b, were cultured in the presence of catechol. These findings should be viewed as greatly expanding the number of recognized environmental and dietary agents that can potentially negatively influence the sensitivity of tumor cells to cyclophosphamide and other oxazaphosphorines.
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PMID:Phenolic antioxidant-induced overexpression of class-3 aldehyde dehydrogenase and oxazaphosphorine-specific resistance. 788 82

It is well established that many types of tumor cells have reduced lipid peroxidation capacity compared to their normal counterparts. Changes in the activity of enzymes metabolizing aldehydes produced by lipid peroxidation have also been reported in a variety of tumor cells. We have investigated the relationship between changes in lipid peroxidation and changes in aldehyde-metabolizing enzymes in normal hepatocytes and two representative rat hepatoma cell lines, McA-RH-7777 and JM2. Compared to hepatocytes, both 7777 and JM2 cells have significantly lower basal and prooxidant-induced levels of lipid peroxidation than normal hepatocytes. Using 4-hydroxynonenal (4-HNE) as substrate, both cell lines also have significantly reduced activities of alcohol dehydrogenase (ADH) and glutathione S-transferase (GST) compared to hepatocytes. JM2 cells have significantly increased aldehyde dehydrogenase (ALDH) and aldehyde reductase (ALRD) activities with 4-HNE. In 7777 cells the ALDH and ALRD activities are not different from hepatocytes. The changes in enzyme activity are inversely correlated with the sensitivity of cells to 4-HNE. JM2 cells, with increased ALDH and ALRD and decreased ADH and GST, are much more resistant to the toxic effects of 4-HNE than 7777 cells. Normal hepatocytes and JM2 cells are approximately equally resistant to 4-HNE even though hepatocytes rely primarily on GST-mediated aldehyde conjugation to metabolize 4-HNE. Coupled with previous results from our laboratories, the overall increased sensitivity of certain hepatoma cells to lipid aldehydes appears due to decreased ability of these hepatoma cells to remove toxic products of lipid peroxidation. Moreover, hepatoma cells with increased levels of aldehyde dehydrogenase and aldehyde reductase appear most like hepatocytes in their ability to metabolize lipid aldehydes.
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PMID:Role of aldehyde metabolizing enzymes in mediating effects of aldehyde products of lipid peroxidation in liver cells. 803 12

Biochemical and histochemical studies were conducted in aflatoxin B1-induced liver tumors in adult rainbow trout. Specific activities of the phase I enzymes, ethoxyresorufin-O-deethylase (EROD), microsomal and cytosolic epoxide hydrolase (mEH and cEH), aldehyde dehydrogenase (ALDH) and DT-diaphorase, and the phase II enzymes, gamma-glutamyltransferase (gamma-GT), glutathione transferase (GST) and uridine diphosphoglucuronyl transferase (UDPGT) were measured. Cryostat sections of tumor and surrounding liver from the same cohorts were analyzed immunohistochemically for cytochrome P450IA1 and histochemically for ALDH (benzaldehyde and hexanal), DT-diaphorase, gamma-GT and uridine diphosphoglucuronyl dehydrogenase (UDPGdH). In tumor tissues, the largest biochemical changes were found with benzaldehyde dehydrogenase, where activity increased from undetectable levels to 7.4 nmol/min/mg protein, and gamma-GT, where activity increased 12-fold over controls. Increases in other enzymes ranged from 1.26 to 2.84 times that of control liver, except EROD, which decreased, and cEH and mEH, which were unchanged. Histochemical analyses showed the induction of ALDH, gamma-GT, DT-diaphorase and UDPGdH, and the depression of cytochrome P450IA1 in hepatic neoplasms. In addition, marker enzyme histochemistry of neoplasms revealed heterogeneous populations of hepatocytes and absence of necrotic areas.
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PMID:Biochemical and histochemical properties of hepatic tumors of rainbow trout, Oncorhynchus mykiss. 809 46

In in vitro studies, no turnover of aldophosphamide and mafosfamide was observed with the tumor-specific aldehyde dehydrogenase 3 isozyme (ALDH3) isolated from human stomach mucosa as well as from lung (A549) and pharynx (UMSCC2) carcinoma cell lines. Only the human liver cytosolic ALDH preparation (ALDH1) showed any significant oxidation of aldophosphamide and mafosfamide.
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PMID:Detoxification of cyclophosphamide by human aldehyde dehydrogenase isozymes. 812 65

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