Prevention of viral-chemical co-carcinogenesis in vitro by type-specific anti-viral antibody.
(17/867)
Low passage Fischer rat embryo cultures, which are normally very resistant to transformation by 3-methylcholanthrene but are highly susceptible when chronically infected with the Rauscher murine leukemia virus, were completely protected from transformation by methylcholanthrene when treated with neutralizing antibody specific for the leukemia virus prior to and during treatment with methylcholanthrene. Sister cultures were not protected by neutralizing antibody specific for the B-tropic radiation leukemia virus. This demonstrates clearly a definite type specific role for Rauscher murine leukemia virus in the 2-methylcholanthrene transformation system in rat cells. (+info)
Glucuronidation of thyroxine in primary monolayer cultures of rat hepatocytes: in vitro induction of UDP-glucuronosyltranferases by methylcholanthrene, clofibrate, and dexamethasone alone and in combination.
(18/867)
Induction of UDP-glucuronosyltransferases (UGTs) toward thyroxine (T4) and p-nitrophenol (pNP) by 3-methylcholanthrene (MC), dexamethasone (DEX), clofibrate (Cl), and MC combined with DEX or Cl was studied in rat hepatocyte culture. We have developed a sensitive method for the measurement of glucuronide conjugates of the two substrates based on HPLC analysis of culture medium. MC, Cl, or DEX increased the activity of T4 UGT. Combination of MC and Cl showed additive effect, enzyme activity was enhanced compared with either MC or Cl treatment alone (617, 441, and 217% of the control, respectively). Combination of MC and DEX did not result in higher T4 UGT activity than MC treatment alone. Both MC and DEX enhanced the pNP UGT activity (182 and 162% of the control, respectively). Combination of MC with DEX resulted in additive effect. Cl treatment did not affect pNP conjugation either alone or in combination with MC. Western blot analysis revealed that only the amount of UGT1A1 was elevated by Cl and DEX. In contrast, concentration of UGT1A6 was increased by MC. Previous studies demonstrated that UGT1A1 inducers like phenobarbital have no effect on T4 conjugation (). Our results suggest that Cl, a known inducer of UGT1A1, enhances the activity of other enzyme(s) involved in T4 glucuronidation as well. It is well documented that DEX potentiates the inductory effect of polycyclic aromatic hydrocarbon on UGT1A6 (). In our study, MC increased the rate of T4 glucuronidation, and DEX had no additional effect on this reaction, suggesting that UGT1A6 is not the only enzyme inducible by MC that can catalyze T4 conjugation. (+info)
Arsenic trioxide causes selective necrosis in solid murine tumors by vascular shutdown.
(19/867)
To investigate the antitumor action of arsenic trioxide in solid tumors, we carried out quantitative tumor perfusion studies, using locally advanced methylcholanthrene-induced fibrosarcoma grown in BALB/c mice. The tumor perfusion studies were assessed by two separate methods: 99mTc clearance and 86Rb uptake. A single administration of arsenic trioxide (10 mg/kg i.p.) produced a preferential vascular shutdown in the tumor tissue at 2 and 6 h, leading to massive necrosis in the central part of the tumor. The phenomenon was repeatable at intervals of weekly administration of the drug in the same tumor. Normal skin, muscle, and kidney were relatively unaffected by arsenic trioxide. These results suggest that the drug may be investigated as an adjunct to the standard cancer therapeutic modalities. (+info)
Regulation of immune response to tumor antigen: interference with syngeneic tumor immunity by anti-IA alloantisera.
(20/867)
We present evidence for a role of I-A subregion-encoded determinants in syngeneic tumor immunity. In animals rendered immune to the S1509a fibrosarcoma, daily treatment with microliter quantities of antisera directed against Kk and I-Ak determinants expressed on lymphoid cells of host origin decreased the capacity for immune tumor rejection. Absorption studies revealed that anti-I-Ak antibody activity alone was sufficient for the manifestation of this effect. Furthermore, experiments utilizing F1 hybrids showed that an antiserum that was genetically unable to interact with H-2 determinants expressed on the tumor was equally effective in inhibiting tumor immunity. Suggestive evidence that the activity of this antiserum is related to interference with the generation of effector T cell function was provided by the observation that hyperimmune animals pretreated with an anti-Kk,I-Ak antiserum were no longer capable of adoptively transferring tumor immunity to naive recipients. Thus, it is possible to regulate the secondary immune response to tumor antigens by using antisera with specificity for I-A determinants expressed on cells or possibly on factors of the host lymphoid system. (+info)
Selective involvement of cytochrome P450 2D subfamily in in vivo 4-hydroxylation of amphetamine in rat.
(21/867)
The cytochrome P450 (P450) 2D subfamily catalyzes ring hydroxylation of amphetamines. We tested the hypothesis that P450 2D is selectively involved in amphetamine 4-hydroxylation. Urinary elimination of 4-hydroxyamphetamine and amphetamine was determined in male Sprague-Dawley rats pretreated with P450 inducers and inhibitors. The urinary 24-h metabolic ratio (amphetamine/4-hydroxyamphetamine) was not affected by the inducers 3-methylcholanthrene, isosafrole, phenobarbital, ethanol, pregnenolone-alpha-carbonitrile, and clofibrate. Isosafrole did, however, increase amphetamine elimination along with urine volume. Urinary elimination of 4-hydroxyamphetamine was significantly decreased by, and the metabolic ratio increased by, the inhibitors 1-aminobenzotriazole, CCl(4), quinidine, quinine, and primaquine. Diallyl sulfide and troleandomycin had no effect. In rat liver microsomes primaquine was shown to be an inhibitor of 2D activity. Urine 4-hydroxyamphetamine content correlated strongly (r(2) = 0. 989) with microsomal P450 2D activity in parallel-treated rats. These studies also substantiate that 4-hydroxylation of amphetamine is selectively performed by the P450 2D subfamily in the rat. (+info)
Metabolism of benzo[a]pyrene: conversion of (+/-)-trans-7,8-dihydroxy-7,8-dihydrobenzo[a]pyrene to highly mutagenic 7,8-diol-9,10-epoxides.
(22/867)
Metabolites of (+/-)-trans 7,8-dihydroxy-7,8-dihydrobenzo[a]pyrene formed by a rat liver microsomes and by a highly purified monoxygenase system were analyzed by high-pressure liquid chromatography. Four stereoisomeric tetraols of 7,8,9,10-tetrahydrobenzo[a]pyrene, known solvolysis products of the two highly mutagenic stereoisomers of the 9,10-epoxide of the 7,8-dihydrodiol, were identified as products. The ratio of the two highly unstable diol epoxides formed (7 beta,8alpha-dihydroxy-9beta,10beta-epoxy-7,8,9,10-tetrahydrobenzo[a]pyrene, diol epoxide 1; 7beta,8alpha-dihydroxy-9alpha,10alpha-epoxy-7,8,9,10-tetrahydrobenzo[a]pyrene, diol epoxide 2) ranged from about 1.7 to 0.4. The diol epoxides are sufficiently reactive to alkylate phosphate buffer (pH 7.4) at 37 degrees. Microsomes, particularly those from control animals, formed a substantial amount of an additional metabolite that appears to be phenolic. In analogy to benzo[a]pyrene, the metabolism of the 7,8-dihydrodiol shows similar induction after pretreatment of rats with phenobarbital or 3-methylcholanthrene. Neither diol epoxide appears to be a substrate for epoxide hydrase based on the ratis of tetraols formed in the presence or absence of epoxide hydrase. In view of the known carcinogenicity of benzo[a]pyrene 7,8-oxide and 7,8-dihydrodiol and of the marked mutagenicity of the stereoisomeric diol epoxides, both of these diol epoxides qualify for consideration as "ultimate carcinogen(s)" of benzo[a]pyrene. (+info)
Differential tumor surveillance by natural killer (NK) and NKT cells.
(23/867)
Natural tumor surveillance capabilities of the host were investigated in six different mouse tumor models where endogenous interleukin (IL)-12 does or does not dictate the efficiency of the innate immune response. Gene-targeted and lymphocyte subset-depleted mice were used to establish the relative importance of natural killer (NK) and NK1.1(+) T (NKT) cells in protection from tumor initiation and metastasis. In the models examined, CD3(-) NK cells were responsible for tumor rejection and protection from metastasis in models where control of major histocompatibility complex class I-deficient tumors was independent of IL-12. A protective role for NKT cells was only observed when tumor rejection required endogenous IL-12 activity. In particular, T cell receptor Jalpha281 gene-targeted mice confirmed a critical function for NKT cells in protection from spontaneous tumors initiated by the chemical carcinogen, methylcholanthrene. This is the first description of an antitumor function for NKT cells in the absence of exogenously administered potent stimulators such as IL-12 or alpha-galactosylceramide. (+info)
In vivo and in vitro studies of experimental ovarian adenocarcinoma in rats.
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When 7,12-dimethylbenz[a]anthracene-impregnated sutures were directly applied to the ovarian parenchyma of 8-week-old Sprague-Dawley rats (the clipping method), adenocarcinomas developed in 29 (39%) of the 75 rats during the 50-week observation period. When 20-methylcholanthrene was used, adenocarcinomas developed only in 1 (3%) of the 31 rats. Thus, the clipping method using 7,12-dimethylbenz[a]anthracene is satisfactory as an animal model of ovarian adenocarcinoma which comprises 85 to 90% of human malignant ovarian tumors. On the other hand, attempts were made to isolate cloned cell lines from these experimental ovarian adenocarcinomas in vitro, and two cloned cell lines were obtained. They were epithelioid and produced undifferentiated adenocarcinomas by back-transplantation into isologous newborn rats. (+info)