DNA repair methyltransferase (Mgmt) knockout mice are sensitive to the lethal effects of chemotherapeutic alkylating agents

Glassner, Brian J.; Weeda, Geert; Allan, James M.; Broekhof, J.L.M.; Carls, Nick H.E.; Donker, Ingrid; Engelward, Bevin P.; Hampson, Richard; Hersmus, Remko; Hickman, Mark J.; Roth, Richard B.; Warren, Henry B.; Wu, Mavis M.; Hoeijmakers, Jan; Samson, Leona D.

doi:10.1093/mutage/14.3.339

Cited by 133 publications

(96 citation statements)

References 59 publications

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“…The enhanced tumor resistance in p53 '/m mice dependent on wild-type p53, supporting a model in which the m-allele product requires wild-type p53 to promote tumor suppression. The authors claim that the association of early aging and tumor resistance in mice consistent with the idea that senescence is a mechanisms of tumor suppression [134,238,248,249]. The paradox that overactive p53 suppresses cancer but accelerates aging can be explained by the fact that cancer results from the malfunctioning of p53 in single cells, whereas aging involves a tissuewide process [250].…”

Section: Effect Of Genetic Modifications Of Aging On Carcinogenesismentioning

confidence: 60%

“…Long-live mutant Ames dwarf mice and knockout p66 she(/( mice were less vulnerable to oxidative damage than wild-type controls [228,235], whereas senescence-prone strain, SAMP, had increased production of ROS [207], DNA damages and somatic mutation as compared with senescence-resistant SAMR strain [236]. MGMT-overexpressed mice are more resistant to alkylating agents [199,237], whereas deficient in DNA repair MGMT (/( and Parp (/( mice are more susceptible to effect of alkylating chemicals and ionizing radiation [218,238]. No significant differences were found in the mutation spectra and the mutation incidence between p53 (/( and p53 '/' mice [239,240], whereas the incidence of spontaneous tumors in p53 (/( mice were increased as compared with wild-type control [241,242].…”

Section: Effect Of Genetic Modifications Of Aging On Carcinogenesismentioning

confidence: 99%

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The relationship between aging and carcinogenesis: a critical appraisal

Anisimov

2003

Critical Reviews in Oncology/Hematology

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The incidence of cancer increases with age in humans and in laboratory animals alike. There are different patterns of age-related distribution of tumors in different organs and tissues. Aging may increase or decrease the susceptibility of various tissues to initiation of carcinogenesis and usually facilitates promotion and progression of carcinogenesis. Aging may predispose to cancer by several mechanisms: (1) tissue accumulation of cells in late stages of carcinogenesis; (2) alterations in homeostasis, in particular, alterations in immune and endocrine system and (3) telomere instability linking aging and increased cancer risk. Increased susceptibility to the effects of tumor promoters is found both in aged animals and aged humans, as predicted by the multistage model of carcinogenesis. Available evidence supporting the relevance of replicative senescence of human cells and telomere biology to human cancer seems quite strong, however, the evidence linking cellular senescence to human aging is controversial and required additional stuidies. Data on the acceleration of aging by carcinogenic agents as well as on increased cancer risk in patients with

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Section: Effect Of Genetic Modifications Of Aging On Carcinogenesismentioning

confidence: 60%

Section: Effect Of Genetic Modifications Of Aging On Carcinogenesismentioning

confidence: 99%

The relationship between aging and carcinogenesis: a critical appraisal

Anisimov

2003

Critical Reviews in Oncology/Hematology

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“…Thus, BCNU alkylates the N 7 position of DNA guanine to a greater extent than the O 6 position (9). The difference in the LD 50 values for BCNU in wild-type and AGT knockout mice is <2-fold (34). In an in vitro DNA cross-linking assay, BCNU caused a relatively large number of DNA strand breaks due to depurination resulting from the alkylation of the N 7 position of guanine, whereas cloretazine did not (11).…”

Section: Discussionmentioning

confidence: 91%

Role of O6-alkylguanine-DNA alkyltransferase in the cytotoxic activity of cloretazine

Ishiguro

Shyam

Penketh

et al. 2005

Molecular Cancer Therapeutics

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Cloretazine (VNP40101M; 101M; 1,2-bis(methylsulfonyl)-1-(2-chloroethyl)-2-[(methylamino)carbonyl]hydrazine) is a sulfonylhydrazine prodrug that generates both chloroethylating and carbamoylating species on activation. To explore the molecular mechanisms underlying the broad anticancer activity observed in preclinical studies, cloretazine and chloroethylating-only [i.e., 1,2-bis(methylsulfonyl)-1-(2-chloroethyl)hydrazine] and carbamoylating-only (i.e., 1,2-bis(methylsulfonyl)-1-[(methylamino)carbonyl]hydrazine) analogues were evaluated in five murine hematopoietic cell lines. These cell lines were separable into two groups by virtue of their sensitivity to 1,2-bis(methylsulfonyl)-1-(2-chloroethyl)-hydrazine; the sensitive group included L1210, P388, and F-MEL leukemias (IC 50 s, 6 -8 Mmol/L) and the resistant group consisted of Ba/F3 bone marrow and WEHI-3B leukemia cells (IC 50 s, 50 -70 Mmol/L). Resistant cells expressed O 6 -alkylguanine-DNA alkyltransferase (AGT), whereas sensitive cells did not. A correlation existed between AGT expression and the functional status of p53; AGT À cells possessed defective p53, whereas AGT + cells contained wild-type p53. Based on recent findings on regulation of AGT gene expression by others, we suspect that silencing of the AGT gene by promoter hypermethylation frequently occurs during tumor progression involving p53 inactivation. O 6 -Chloroethylguanine is the initial DNA lesion that progresses to lethal interstrand DNA cross-links. Cloretazine exhibited a much higher preference toward the O 6 -chloroethylation of guanine, as measured by the difference in IC 50 s to wild-type and AGTtransfected L1210 cells, than 1,3-bis(2-chloroethyl)-1-nitrosourea, which targets the same site in DNA. Preferential toxicity of cloretazine against AGT À tumor cells coupled with decreased toxicity to AGT + cells in host tissues constitute the therapeutic basis for cloretazine.

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“…Thus, methyltransferase has a vital role in protecting these organs from toxic effects of alkylating agents. It is notable that Mgmt 7/7 mice are considerably more sensitive to chemotherapeutic alkylating drugs, presently in clinical use, than are wild type mice (Glassner et al, 1999;Shiraishi et al, 2000).…”

Section: Silencing Of Dna Repair Genesmentioning

confidence: 99%

Gene silencing in phenomena related to DNA repair

Mukai

Sekiguchi²

2002

Oncogene

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DNA methylation is essential for embryonic development and important for transcriptional repression, as observed in several biological phenomena. These include genomic imprinting, X-inactivation and carcinogenesis. The basic mechanism by which DNA methlyation silences transcription is generally understood, but there is still much to be learned about how DNA methyltransferase is targeted to a specific region of the gene. Silencing by DNA methylation occurs at an early stage of carcinogenesis, when the DNA repair genes, MGMT and hMLH1, are frequently inactivated, resulting in mutations in key cancer-related genes in cells. Mice defective in Mgmt and/or Mlh1 gave clear evidence of the significant roles of these proteins in carcinogenesis.Recently, it has been demonstrated that DNA methylation is linked to histone methylation in fungi and plants, although it remains unknown whether this mechanism occurs in mammalian systems.

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DNA repair methyltransferase (Mgmt) knockout mice are sensitive to the lethal effects of chemotherapeutic alkylating agents

Cited by 133 publications

References 59 publications

The relationship between aging and carcinogenesis: a critical appraisal

The relationship between aging and carcinogenesis: a critical appraisal

Role of O6-alkylguanine-DNA alkyltransferase in the cytotoxic activity of cloretazine

Gene silencing in phenomena related to DNA repair

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