Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0027651 (tumor)
 685,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Administration of interleukin 1 (IL-1) or tumor necrosis factor-alpha (TNF alpha) protects bone marrow precursor cells (BMPC) from ionizing radiation and antineoplastic drugs. The time of injection is critical: the best protective results being obtained when cytokines are given around 24h prior to the induced injury. Multiple daily cytokine injections that precede irradiation or drug administration are more effective than single ones although single doses are quite effective at increasing survival in mice. Protection is positively correlated with both rapid granulocyte recovery and BMPC survival. Mechanisms involved in BMPC radioprotection include: (1) push to the S/G2 + M or arrest in the G0 phases of the cell cycle by IL-1 or TNF alpha, respectively, and (2) induction of mitochondrial manganous superoxide dismutase synthesis. For BMPC chemoprotection, proposed mechanisms are: (1) increase of aldehyde dehydrogenase synthesis, and (2) modulation of multiple-drug resistant gene expression. Stimulation of glutathione synthesis in BMPC could be operating in both radio- and chemoprotection. These findings point to the relevance of IL-1 or TNF alpha in cancer therapy as a means of reducing BMPC sensitivity to cytoreductive drugs or irradiation (including radioimmunotherapy) as well as in in vitro tumor cell purging with drugs in autologous BMT. Prior administration of these cytokines should be also considered for people in imminent danger of exposure to radiation.
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PMID:Interleukin-1 and tumor necrosis factor-alpha as radio- and chemoprotectors of bone marrow. 813 38

5-iodo-2-pyrimidinone-2'-deoxyribose (IPdR) was recently reported to be converted to 5-iodo-2'-deoxyuridine (IUdR) by an aldehyde oxidase, most concentrated in liver tissue. We questioned whether IPdR could be used as a p.o. hepatotropic prodrug to increase the percentage of IUdR-DNA incorporation into liver tumors compared to normal liver with acceptable systemic toxicity. Athymic nude mice with human colon cancer (HCT-116) xenograft tumors as liver metastases and s.c. flank tumors received daily p.o. boluses (via gastric tubes) of IUdR or IPdR for 6 days. The maximum tolerated dose of IUdR was 250 mg/kg/day and was associated with a > 10% weight loss and a high percentage of IUdR-DNA incorporation (> 5%) into normal bone marrow and intestine. In contrast, animals tolerated escalating doses of IPdR to 1 gm/kg/day without weight loss and with less (1.5-4%) IUdR-DNA incorporation in normal tissues. Pharmacokinetic analysis of p.o. IPdR showed peak plasma levels of IPdR and IUdR within 15-45 min, suggesting efficient conversion of IPdR to IUdR. Aldehyde oxidase activity was found in normal liver tissue but not in other normal or tumor tissues. Additionally, we found a 2-3 times greater percentage of IUdR-DNA incorporation in tumor with IPdR than IUdR at the highest doses used. However, no differential effect in the percentage of IUdR-DNA incorporation was noted between liver metastases and s.c. tumors with either IPdR or IUdR. We conclude that p.o. IPdR offers a greater therapeutic index for tumor incorporation (and presumably radiosensitization) than a similar schedule of IUdR.
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PMID:An in vivo comparison of oral 5-iodo-2'-deoxyuridine and 5-iodo-2-pyrimidinone-2'-deoxyribose toxicity, pharmacokinetics, and DNA incorporation in athymic mouse tissues and the human colon cancer xenograft, HCT-116. 816 99

We have determined the nucleotide sequences of two structural genes of the Escherichia coli gab cluster, which encodes the enzymes of the 4-aminobutyrate degradation pathway: gabD, coding for succinic semialdehyde dehydrogenase (SSDH, EC 1.2.1.16) and gabP, coding for the 4-aminobutyrate (GABA) transport carrier (GABA permease). We have previously reported the nucleotide sequence of the third structural gene of the cluster, gabT, coding for glutamate: succinic semialdehyde transaminase (EC 2.6.1.19). All three gab genes are transcribed unidirectionally and their orientation within the cluster is 5'-gabD-gabT-gabP-3'. gabT and gabP are separated by an intergenic region of 234-bp, which contains three repetitive extragenic palindromic (REP) sequences. The gabD gene consists of 1,449 nucleotides specifying a protein of 482 amino acids with a molecular mass of 51.7 kDa. The protein shows significant homologies to the NAD(+)-dependent aldehyde dehydrogenase (EC 1.2.1.3) from Aspergillus nidulans and several mammals, and to the tumor associated NADP(+)-dependent aldehyde dehydrogenase (EC 1.2.1.4) from rat. The permease gene gabP comprises 1,401 nucleotides coding a highly hydrophobic protein of 466 amino acids with a molecular mass of 51.1 kDa. The GABA permease shows features typical for an integral membrane protein and is highly homologous to the aromatic acid carrier from E. coli, the proline, arginine and histidine permeases from Saccharomyces cerevisiae and the proline transport protein from A. nidulans. Uptake of GABA was increased ca. 5-fold in transformants of E. coli containing gabP plasmids.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Molecular organization of the Escherichia coli gab cluster: nucleotide sequence of the structural genes gabD and gabP and expression of the GABA permease gene. 829 11

Several murine aldehyde dehydrogenases, most notably AHD-2, are known to catalyze the detoxification of cyclophosphamide, mafosfamide, and other oxazaphosphorines. Thus, cellular sensitivity to these agents decreases as the relevant aldehyde dehydrogenase activity increases, and vice versa. Chloral hydrate is a sedative/hypnotic agent that is sometimes administered to patients being treated with cyclophosphamide. It is known to inhibit some, but not all, aldehyde dehydrogenases. Murine (CFU-S, CFU-GEMM and CFU-Mk) and human (CFU-Mix, CFU-GM, BFU-E and CFU-Mk) hematopoietic progenitor cells, as well as murine oxazaphosphorine-resistant (L1210/OAP and P388/CLA) tumor cells, are known to contain the relevant aldehyde dehydrogenase activity but the identity of the specific enzyme present in the normal cells is unknown and may be different than that, namely AHD-2, present in neoplastic cells. In that event, the potential exists to inhibit the detoxification of the oxazaphosphorines in tumor cells without inhibiting this event in normal cells; the net effect of such a selective inhibition would be to increase the margin of safety of the oxazaphosphorines. In ex vivo experiments, chloral hydrate markedly potentiated the antitumor activity of mafosfamide against oxazaphosphorine-resistant L1210/OAP and P388/CLA cells. It did not potentiate the cytotoxic action of mafosfamide against any of the murine or human hematopoietic cells tested, even at concentrations which fully restored the sensitivity of the resistant tumor cell lines to this agent. One explanation for these observations is that hematopoietic progenitor, and the resistant tumor, cells express different relevant aldehyde dehydrogenases and that these aldehyde dehydrogenases differ in their sensitivity to inhibition by chloral hydrate. Consistent with this notion were the observations that AHD-2 was exquisitely sensitive to inhibition by chloral hydrate, whereas two other aldehyde dehydrogenases that also catalyze the detoxification of aldophosphamide, namely AHD-12a, b and AHD-13, were relatively unaffected.
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PMID:Sensitivity of aldehyde dehydrogenases in murine tumor and hematopoietic progenitor cells to inhibition by chloral hydrate as determined by the ability of chloral hydrate to potentiate the cytotoxic action of mafosfamide. 842 16

The cytosolic class aldehyde dehydrogenase (ALDH-3) present in human normal tissues/secretions is apparently much less able to catalyze the oxidation aldophosphamide to carboxyphosphamide than is the ALDH-3 present in human tumor cells/tissues, suggesting that the former may be less able to protect cells from the cytotoxic action of cyclophosphamide, mafosfamide, and other oxazaphosphorines. To test this notion, relatively large and approximately equal amounts of human normal stomach mucosa ALDH-3 and catechol-induced human breast adenocarcinoma MCF-7/0 ALDH-3 were first electroporated into cells (MCF-7/0) that constitutively express only very small amounts of the enzyme. The resultant preparations were then tested for sensitivity to mafosfamide. ALDH-3 activities (NADP-dependent catalysis of benzaldehyde oxidation) were 1.7, 212, and 183 mlU/10(7) cells in sham-electroporated MCF-7/0 cells, and MCF-7/0 cells electroporated with stomach mucosa ALDH-3 and catechol-induced MCF-7/0 ALDH-3, respectively. LC90 values (concentrations of mafosfamide required to effect a 90% cell kill) were 62, 417, and >1,000 microM, respectively. The three preparations were equisensitive to phosphoramide mustard (LC90 = approximately 850 microM). Inclusion of benzaldehyde in the drug exposure medium fully restored the sensitivity of MCF-7/0 cells electroporated with either enzyme to mafosfamide. These observations support the notions that 1) cellular sensitivity to the oxazaphosphorines decreases as the cellular content of ALDH-3 increases, 2) the foregoing is the consequence of ALDH-3-catalyzed oxidation (thus detoxification) of aldophosphamide, and 3) the ALDH-3 present in at least some tumor cells/tissues is a slight variant of the ALDH-3 present in normal tissues/secretions. Furthermore, they illustrate the utility of electroporation used as a tool to determine whether a given enzyme, or even more generally, protein or other macromolecule, is a determinant of cellular sensitivity to a given cytotoxic agent.
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PMID:Human breast adenocarcinoma MCF-7/0 cells electroporated with cytosolic class 3 aldehyde dehydrogenases obtained from tumor cells and a normal tissue exhibit differential sensitivity to mafosfamide. 865 95

O6-Benzylguanine is an effective inhibitor of the DNA repair protein, O6-alkylguanine-DNA alkyltransferase, and enhances the effectiveness of 1,3-bis(2-chloroethyl)-1-nitrosourea in cells in culture and animal tumor models. To prepare O6-benzylguanine for clinical trials and to determine the availability and disposition of O6-benzyl-7,8-dihydro-8-oxoguanine (O6-benzyl-8-oxoguanine), its major metabolite, pharmacokinetic parameters of these compounds were investigated in male Sprague-Dawley rats. Noncompartmental pharmacokinetic parameters were determined following intravenous administration of O6-benzylguanine or O6-benzyl-8-oxoguanine in rats. Half-life, clearance, and volume of distribution were respectively, 1.6 hr, 160 ml/hr/kg, and 405 ml/kg for O6-benzylguanine, and 1.2 hr, 312 ml/hr/kg, and 507 ml/kg for O6-benzyl-8-oxoguanine. At least 37% of O6-benzylguanine was converted to O6-benzyl-8-oxoguanine after administration of O6-benzylguanine. Renal excretion accounted for 8 and 62% of the administered O6-benzylguanine and O6-benzyl-8-oxoguanine, respectively. Administration of phenobarbital to rats before O6-benzylguanine resulted in a 17- to 19-fold increase in the amount of oxidized product in the urine. Kinetic constants, KM and Vmax were estimated as 19.6 microM and 0.02 nmol/min/mg protein and 13.4 microM and 0.96 nmol/min/mg protein, for uninduced and induced rat liver microsomes, respectively. The use of inhibitors of cytosolic enzymes, xanthine oxidase, and aldehyde oxidase indicated that aldehyde oxidase is primarily involved in the cytosolic oxidation of O6-benzylguanine.
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PMID:Pharmacokinetics of O6-benzylguanine in rats and its metabolism by rat liver microsomes. 868 50

Phthalate esters such as di(2-ethylhexyl)phthalate (DEHP) either promote or inhibit rat liver tumorigenesis depending on the carcinogenesis protocol. In this study, we examined the expression of two histochemical markers, the tumor associated isozyme of aldehyde dehydrogenase (ALDH-3) and the oncoprotein p21 Ras, in the livers of male F344 rats. The rats were initiated with DEN and further treated with either DEHP (a known inhibitor of hepatocarcinogenesis), phenobarbital (PB, a known promoter of hepatocarcinogenesis), or a combination of DEHP and PB. The studies were designed to examine the expression of these markers in both normal appearing liver and hepatic hyperplastic and neoplastic lesions and to correlate the early expression of the markers at 26 weeks in the normal appearing liver to later tumor incidence at 52 weeks. The expression of each marker was detected by immunohistochemical methods on formalin-fixed paraffin embedded sections of normal appearing liver or liver lesions. We found that ALDH-3 and p21 expression were significantly enhanced in rats receiving PB after DEN initiation at 26 weeks and that the incidence of hepatocellular carcinomas was likewise increased compared to control or DEN only treated animals. DEN initiation followed by a combination of PB and either 0.1 or 0.5% DEHP significantly reduced ALDH-3 but not p21 Ras expression at 26 weeks compared to DEN plus PB only. These treatment regimens also reduced the incidence of hepatocellular carcinomas at 52 weeks. DEN followed by any of the three doses of DEHP without PB resulted in ALDH-3 expression similar to DEN alone. However, p21 Ras expression was significantly increased after these treatments. For all treatment groups, both the early (26 weeks) expression of p21 Ras and ALDH-3 correlated with hepatocellular carcinoma incidence at 52 weeks. However, the correlation between hepatocellular carcinoma and ALDH-3 expression was better than p21 Ras or the other markers we have studied. We concluded that ALDH-3 expression is significantly downregulated after DEHP treatment, and that expression of the isozyme correlated with later hepatocarcinoma incidence and may indicate a significant relationship between ALDH-3 expression and hepatocarcinogenesis during DEHP treatment.
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PMID:Hepatocyte expression of tumor associated aldehyde dehydrogenase (ALDH-3) and p21 Ras following diethylnitrosamine (DEN) initiation and chronic exposure to di(2-ethylhexyl)phthalate (DHEP). 876 21

The aryl hydrocarbon receptor (AHR) is a transcriptional activator of genes encoding a group of drug-metabolizing enzymes, including cytochrome P450 1A1 (CYP1A1), glutathione S-transferase, tumor-associated aldehyde dehydrogenase and quinone reductase. Both the constitutive and inducible expression of these genes in the liver is zonated, i.e., dominant in hepatocytes of the centrilobular region, a poorly understood position-dependent phenomenon. By comparing cell lysates obtained from opposite acinar regions we observed that immunoreactive AHR protein was almost exclusively confined to centrilobular cells. The AHR mRNA, as analyzed from cell lysates by reverse transcriptase polymerase chain reaction, exhibited a similar, although somewhat less pronounced zonation. By contrast, only slight zonation of the AHR nuclear translocator mRNA was observed. Treatment of rats with omeprazole, an atypical nonligand activator of the AHR, caused a zone-specific induction of CYP1A1 in the centrilobular region similar to that seen after pretreatment with the AHR ligand 3-methylcholanthrene. Our results suggest that the zone-restricted expression of AHR protein will allow the constitutive and inducible expression of AHR-regulated genes in the centrilobular region, but will limit their expression in the periportal region.
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PMID:Selective centrilobular expression of the aryl hydrocarbon receptor in rat liver. 899 35

Tumor-associated aldehyde dehydrogenase (ALDH) was reported in cases of human hepatocellular carcinoma and animal hepatoma models. This ALDH isozyme is similar to ALDH3 which exists in the stomach and lung; however, the biochemical and clinical significance of this unique ALDH isozyme have not been established. Human tumor-associated ALDH was purified, and polyclonal antibodies prepared. Using these antibodies, specific development of tumor-associated ALDH was confirmed by immunohistochemical techniques. It was found that about 50% of hepatocellular carcinomas reacted with the antibody. This unique ALDH isozyme may be a novel tumor marker of hepatocellular carcinoma.
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PMID:Immunohistochemical study of hepatocellular carcinoma-specific aldehyde dehydrogenase. 906 10

Glutathione, glutathione S-transferases alpha and pi, and aldehyde dehydrogenase are associated with resistance to carboplatin and/or cyclophosphamide in cell lines. Therefore, we examined whether the expression of these factors in ovarian cancer tissue specimens is associated with resistance of the patients to combination chemotherapy with cyclophosphamide/carboplatin. Ovarian cancer tissue specimens were taken intraoperatively from 139 patients and frozen in liquid nitrogen, and the contents of glutathione S-transferases alpha and pi, total glutathione, and aldehyde dehydrogenase activity were determined. No association between the levels of glutathione S-transferases alpha and pi or aldehyde dehydrogenase activity in tumor tissue and the survival time was observed in patients with primary ovarian cancer. Significantly higher levels of aldehyde dehydrogenase were observed in FIGO stage I and II compared to FIGO stage III and IV tumors (P = 0.019, Wilcoxon test, two sided). The median survival time was significantly longer in patients with primary ovarian cancer with a tumor glutathione content of <4.9 microg/mg protein compared to patients with a tumor glutathione content of > or =4.9 microg/mg protein (P = 0.047). However, glutathione was not an independent prognostic factor, but was significantly associated with FIGO stage resulting in higher levels in FIGO stage III and IV tumors than in FIGO stage I and II tumors (P = 0.0094, Wilcoxon test, two sided). In conclusion the glutathione content was associated with progression of ovarian carcinomas but neither glutathione nor glutathione S-transferases alpha and pi or aldehyde dehydrogenase were independent factors of resistance to cyclophosphamide/carboplatin.
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PMID:Glutathione, glutathione S-transferase alpha and pi, and aldehyde dehydrogenase content in relationship to drug resistance in ovarian cancer. 910 91


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