Frank Gilberg scite author profile

Frank Gilberg

4Publications

33Citation Statements Received

0Citation Statements Given

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TU Dortmund University, German Cancer Research Center, Heidelberg University

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Various inhibitors of DNA topoisomerases diminish repair-specific DNA incision in UV-irradiated human fibroblasts

Thielmann

Popanda²,

Gersbach³

et al. 1993

Carcinogenesis

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A function for topoisomerases I and II in DNA excision repair can be postulated from the organization of the mammalian chromosome, involving nucleosomal structures and matrix-attached DNA loops. To analyse this function we determined UV-induced DNA incision in confluent human fibroblasts in the presence of 16 inhibitors of topoisomerases I and II which belonged to at least five different drug categories, based on their mechanism of action. Dose-response experiments were performed, analysed by linear regression and the concentrations at which DNA-incising activity was reduced to 50% were calculated (K50 values). The majority of these values represent concentrations for which interfering cell toxicity could be excluded. K50 concentrations, which were determined by extrapolating dose-response data, may hit the toxicity range, nevertheless, we deem our K50 scale useful for making biochemical comparisons. With respect to topoisomerase I, camptothecin and topotecan diminished repair-specific DNA incision to a small extent, whereas distamycin, which binds to the minor groove of DNA, caused a stronger effect. With respect to topoisomerase II the results were as follows. (i) The DNA intercalator ethidium bromide decreased DNA-incising activity at rather low concentrations, which indicates marked inhibitory potency. Quinacrine was less effective. (ii) Inhibitors intercalating and binding to the 'cleavable' DNA-topoisomerase complex (m-AMSA, mitoxantrone, doxorubicin and daunorubicin) strongly suppressed reparative DNA incision. (iii) Only small effects were observed using several drugs which act by trapping the 'cleavable' DNA-enzyme complex, namely nalidixic acid and oxolinic acid. In contrast, etoposide and teniposide inhibited post-UV DNA cleavage sizeably. (iv) Merbarone had to be applied at very high concentrations to reduce UV-induced DNA incision. (v) Novobiocin, an inhibitor of the ATPase subunit of topoisomerase II, markedly diminished repair-specific DNA cleavage. A comparison of the K50 values for DNA incision with those for DNA repair synthesis (1) shows that the majority of the investigated drugs inhibited both repair parameters. There were, however, differences in the concentrations required to achieve the 50% inhibition level. The results are best explained by assuming that in UV-irradiated human fibroblasts the 180 kd form of topoisomerase II is a target enzyme for inhibitors which suppressed repair and that this isozyme is involved in steps preceding repair-specific DNA incision.

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Analysis of the inhibition of N-nitroso-dimethylamine activation in the liver by N-nitro-dimethylamine using a new non-linear statistical method

Frei¹,

Gilberg²,

Schröder³

et al. 1999

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N-nitro-dimethylamine (NTDMA) is carcinogenic to rats: it induces nasal cavity tumours. It can be demethylated to N-nitromethylamine and formaldehyde and reduced to N-nitroso-dimethylamine (NDMA): a potent liver carcinogen and also of the nasal cavity if activation in the liver is blocked. To explain the mechanism of NTDMA carcinogenicity we compared its demethylation with that of NDMA in liver microsomes from female and male rats, untreated, fasted or treated with ethanol to induce cytochrome P450 2E1 (CYP2E1). Kinetic parameters were analysed by nonlinear statistical methods, which yielded unbiased parameter estimates for the calculated Km and Vmax values. Km for both compounds was very similar in females (24-47 microM) whereas Vmax for NTDMA was consistently higher than for NDMA as substrate: 1.07-4.70 nmol formaldehyde/mg microsomal protein x min and 0.52-2.76 nmol, respectively. In liver microsomes from induced male rats NTDMA was found to be a much more effective inhibitor of NDMA activation (KEI 39.6-73.6 microM) than NDMA of NTDMA demethylation (KEI 224-286 microM). Nasal microsomes can demethylate both NDMA and NTDMA but the kinetics are vastly different. NTDMA is demethylated at a linear rate and approximately 10-fold more effectively than NDMA. The mechanism of carcinogenicity of ingested NTDMA, we propose, is a partial reduction to NDMA in the liver and inhibition of NDMA activation in the liver by residual NTDMA, which enables NDMA to reach the nasal mucosa where it is activated to DNA-alkylating species and the observed tumours are formed.

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Heteroscedastic Nonlinear Regression Models with Random Effects and Their Application to Enzyme Kinetic Data

1999

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Parameter Estimation in Enzyme-Kinetics with Consideration of Heteroscedasticity and Low Dose Data

Brunnert¹,

Gilberg²

1999

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Frank Gilberg

Various inhibitors of DNA topoisomerases diminish repair-specific DNA incision in UV-irradiated human fibroblasts

Analysis of the inhibition of N-nitroso-dimethylamine activation in the liver by N-nitro-dimethylamine using a new non-linear statistical method

Heteroscedastic Nonlinear Regression Models with Random Effects and Their Application to Enzyme Kinetic Data

Parameter Estimation in Enzyme-Kinetics with Consideration of Heteroscedasticity and Low Dose Data

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