R. S. Marshall scite author profile

Cultured cells subjected to oxygen deprivation have been shown to undergo anomalous DNA synthesis, which can result in DNA overreplication and the generation of cellular variants [Rice, G. C., Hoy, C. & Schimke, R. T. (1986) Proc. Natl. Arad. Sci. USA 83,[5978][5979][5980][5981][5982]. In the present study, murine tumor cells were exposed to severe hypoxia and then tested for their ability to form experimental metastases. Upon reoxygenation, cells transiently, yet dramatically, increased their metastatic potential. Flow cytometric analysis confirmed that hypoxia and reoxygenation induced cell cycle perturbations and DNA overreplication in these tumor cell lines. Fibrosarcoma cells with overreplicated DNA isolated by fluorescence-activated cell sorting proved to be highly metasiatic, although cells with 2-4 times the haploid DNA content in populations treated with hypoxia were also markedly

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Deficient activation by a human cell strain leads to mitomycin resistance under aerobic but not hypoxic conditions

Marshall

Paterson²,

Rauth³

1989

Br J Cancer

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Summary Two non-transformed human skin fibroblast strains, GM38 and 3437T, were found to be more sensitive to the bioreductive alkylating agents mitomycin C (MMC) and porfiromycin (PM) under hypoxic compared to aerobic conditions. One of these strains, 3437T, was 6-7 times more resistant to these agents under aerobic exposure conditions, but was identical in sensitivity to the normal strain, GM38, under hypoxic conditions. Aerobic 3437T cells demonstrated no increased resistance to cisplatin compared to the normal strain, arguing against enhanced ability to repair DNA interstrand cross-links as the underlying explanation for the mitomycin resistance. The aerobic resistance of 3437T was not altered by dicumarol, an inhibitor of the enzyme DT-diaphorase which is believed to be involved in aerobic activation of MMC and PM. Dicumarol did increase the resistance of GM38, but not to the same level of resistance demonstrated by 3437T. These results suggest that the aerobic MMC and PM resistance of 3437T may arise, in part, from a deficiency in DT-diaphorase activity. The identical sensitivities under hypoxic conditions indicate that drug activation pathways operative in the absence of oxygen are similar in both the normal and 3437T cells.

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DT-diaphorase activity and mitomycin C sensitivity in non-transformed cell strains derived from members of a cancer-prone family

Marshall¹,

Paterson

Rauth³

1991

Carcinogenesis

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Non-transformed skin fibroblasts derived from five members of a cancer-prone family and three unrelated healthy volunteers were assayed for their levels of activity of the quinone reductase DT-diaphorase and for their sensitivity to the antitumor quinone mitomycin C (MMC). Previous studies of skin fibroblasts derived from one afflicted member of this family (3437T) demonstrated increased resistance to MMC under aerobic exposure conditions and a reduced level of DT-diaphorase. In the present study 3437T cells and a cell strain derived from another afflicted member of the cancer-prone family were found to be hyperresistant to the cytotoxic effects of MMC, and demonstrated negligible DT-diaphorase activity (30 +/- 10 nmol/min/mg protein). Cell strains derived from the three other family members demonstrated intermediate DT-diaphorase activity (400-800 nmol/min/mg protein). Enzyme activities of 1800-6000 nmol/min/mg protein were measured in the three control cell strains. A protein that was reactive with a rabbit polyclonal antibody raised against rat DT-diaphorase and corresponded to the known mol. wt of DT-diaphorase was clearly evident in the three control cell strains, but absent in the two MMC-hyperresistant cell strains. This protein was present in intermediate amounts in the remaining members of the cancer-prone family. Southern analysis of DNA isolated from all eight cell strains and restricted with EcoRI demonstrated the presence of a DNA sequence of approximately 15 kb which hybridized to a rat DT-diaphorase cDNA probe. Northern analysis revealed the presence of an RNA species approximately 1200 bp in size, consistent with that for a human DT-diaphorase mRNA, in all cell strains derived from family members. A post-transcriptional defect would, therefore, appear to be responsible for the decreased enzyme activity observed in the resistant cell strains. These results suggest a role for DT-diaphorase in MMC bioactivation and that reduced levels of the protein may be causally related to the cancer-prone tendency of this family.

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Measurement of Low Levels of Oxygen and Their Effect on Respiration in Cell Suspensions Maintained in an Open System

Marshall¹,

Koch²,

Rauth³

1986

Radiation Research

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The presence of low levels of oxygen may have profound effects on the cytotoxic activity of radiation, radiosensitizers, and bioreductive alkylating agents. As others have shown, low oxygen tensions may significantly alter rates of cellular and chemical oxygen consumption. When experiments are performed at very low oxygen concentrations, the opposing effects of oxygen leakage into and cellular/chemical oxygen consumption from the system can lead to unpredictable results. Use of a newly designed, highly sensitive Clark-type oxygen sensor has permitted accurate and reproducible measurement of low levels of oxygen. Cellular depletion of oxygen at various cell densities has been monitored for a series of oxygen tensions in solution and the corresponding respiration rates have been calculated. Although oxygen depletion was found to be quite significant at low oxygen tensions, not all oxygen present could be removed by cellular respiration. Respiration rate decreased as oxygen tension decreased and approached zero at low oxygen tensions. This result was independent of cell density. A model is presented to account for the observed effect of oxygen tension on cellular oxygen utilization.

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Studies on the mechanism of resistance to mitomycin C and porfiromycin in a human cell strain derived from a cancer-prone individual

Marshall¹,

Paterson²,

Rauth³

1991

Biochemical Pharmacology

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R. S. Marshall

Hypoxia induces DNA overreplication and enhances metastatic potential of murine tumor cells.

Deficient activation by a human cell strain leads to mitomycin resistance under aerobic but not hypoxic conditions

DT-diaphorase activity and mitomycin C sensitivity in non-transformed cell strains derived from members of a cancer-prone family

Measurement of Low Levels of Oxygen and Their Effect on Respiration in Cell Suspensions Maintained in an Open System

Studies on the mechanism of resistance to mitomycin C and porfiromycin in a human cell strain derived from a cancer-prone individual

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