Horst D. Lohrer scite author profile

Experiments were designed to detect survival advantages that cells gain by overexpressing metallothionein (MT). Chinese hamster ovary K1-2 cells and an x-ray-sensitive derivative were transfected with a bovine papillomavirus (BPV)-linked construct carrying the human metallothionein HA (hMT-HA) gene. Transfectants survived 40-fold higher levels of cadmium chloride, harbored at least 30 copies of hMT-HA, and contained 25-to 166-fold more MT than the parent cells. Even under conditions of reduced glutathione synthesis, the transfectants were not more resistant to the lethal effects of ionizing radiation and bleomycin than the parent cells. Thus free radicals generated by these agents cannot be scavenged efficiently by MT in vivo. The hMT-HA transfectants, however, but not control transfectants harboring a BPV-MT promoter-neo construct, tolerated significantly higher doses of the alkylating agents N-methyl-N-nitrosourea and N-methyl-N'-nitro-N-nitrosognanidine. Resistance and MT overexpression occurred irrespective of selection and cultivation in cadmium and zinc. There was no increase in resistance to methyl methanesulfonate and N-hydroxyethyl-N-chiroethylntrosourea. MT did not affect the degree of overall DNA methylation after N-methyl-N-nitrosourea treatment nor the level of 06-methylgnanlne-DNA methyltransferase. The results suggest that MT participates as a cofactor or regulatory element in repair or tolerance of toxic alkylation lesions.

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Overexpression of metallothionein in CHO cells and its effect on cell killing by ionizing radiation and alkylating agents

Lohrer

Robson

1989

Carcinogenesis

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Metallothionein protein protects cells from the toxic effects of heavy metal ions. To establish its protective function against ionizing radiation and alkylating agents, a model system was created by transfecting two CHO cell lines (wild-type, K1-2 and X-ray sensitive, xrs-2 subclone Bc11) with the human metallothionein II-A (hMTII-A) gene integrated in a bovine papilloma derived autonomously replicating vector. The isolated transfectants are cadmium-resistant (Cdr), due to the overexpression of the hMTII-A gene. Their steady-state level of hMTII-A mRNA can be increased up to 40-fold after Cd treatment and 20-fold after induction with ionizing radiation. The transfected cell lines proved to be as sensitive as the recipient cell lines to ionizing radiation and bleomycin but the transfectants were significantly more resistant to N-methyl-N'-nitro-N'-nitrosoguanidine (MNNG) and mitomycin C (MMC). These results lead to the conclusion that the MT protein does provide a defence mechanism to protect cells from monofunctional alkylating and cross-linking agents but not from free radicals.

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Double-strand break repair and G2 block in Chinese hamster ovary cells and their radiosensitive mutants

Weibezahn¹,

Lohrer²,

Herrlich³

1985

Mutation Research/DNA Repair Reports

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The c-myc oncogene: use of a biological prognostic marker as a potential target for gene therapy in melanoma

Chana

Grover

Tulley

et al. 2002

British Journal of Plastic Surgery

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Horst D. Lohrer

Sensitivity of testis tumour cells to chemotherapeutic drugs: Role of detoxifying pathways

Overexpressed human metallothionein IIA gene protects Chinese hamster ovary cells from killing by alkylating agents.

Overexpression of metallothionein in CHO cells and its effect on cell killing by ionizing radiation and alkylating agents

Double-strand break repair and G2 block in Chinese hamster ovary cells and their radiosensitive mutants

The c-myc oncogene: use of a biological prognostic marker as a potential target for gene therapy in melanoma

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