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dc.contributor.authorVerbeek, Barbara
dc.contributor.authorSouthgate, Thomas D
dc.contributor.authorGilham, David E
dc.contributor.authorMargison, Geoffrey P
dc.date.accessioned2009-05-22T13:13:19Z
dc.date.available2009-05-22T13:13:19Z
dc.date.issued2008
dc.identifier.citationO6-Methylguanine-DNA methyltransferase inactivation and chemotherapy. 2008, 85:17-33 Br. Med. Bull.en
dc.identifier.issn1471-8391
dc.identifier.pmid18245773
dc.identifier.doi10.1093/bmb/ldm036
dc.identifier.urihttp://hdl.handle.net/10541/68765
dc.description.abstractINTRODUCTION: Alkylating agents are frequently used in the chemotherapy of many types of cancer. This group of drugs mediates cell death by damaging DNA and therefore, understandably, cellular DNA repair mechanisms can influence both their antitumour efficacy and their dose-limiting toxicities. SOURCES OF DATA: This review focuses on the mechanism of action of the DNA repair protein, O(6)-methylguanine-DNA methyltransferase (MGMT) and its exploitation in cancer therapy and reviews the current literature. AREAS OF AGREEMENT: MGMT can provide resistance to alkylating agents by DNA damage reversal. Inhibition of tumour MGMT by pseudosubstrates to overcome tumour resistance is under clinical evaluation. In addition, MGMT overexpression in haematopoietic stem cells has been shown in animal models to protect normal cells against the myelosuppressive effects of chemotherapy: this strategy has also entered clinical trials. AREAS OF CONTROVERSY: MGMT inhibitors enhance the myelotoxic effect of O(6)-alkylating drugs and therefore reduce the maximum-tolerated dose of these agents. Retroviral vectors used for chemoprotective gene therapy are associated with insertional mutagenesis and leukaemia development. GROWING POINTS: The results of ongoing preclinical and clinical research involving various aspects of MGMT modulation should provide new prospects for the treatment of glioma, melanoma and other cancer types. AREAS TIMELY FOR DEVELOPING RESEARCH: Tissue- and tumour-specific approaches to the modulation of MGMT together with other DNA repair functions and in combination with immuno- or radiotherapy are promising strategies to improve alkylating agent therapy.
dc.language.isoenen
dc.subjectAGTen
dc.subjectChemotherapyen
dc.subjectLomeguatriben
dc.subject.meshAntineoplastic Agents, Alkylating
dc.subject.meshDNA Damage
dc.subject.meshDNA Repair Enzymes
dc.subject.meshDrug Resistance, Neoplasm
dc.subject.meshGene Therapy
dc.subject.meshHumans
dc.subject.meshO(6)-Methylguanine-DNA Methyltransferase
dc.titleO6-Methylguanine-DNA methyltransferase inactivation and chemotherapy.en
dc.typeArticleen
dc.contributor.departmentCancer Research UK Carcinogenesis Group, Paterson Institute for Cancer Research, University of Manchester, Wilmslow Road, Manchester M20 4BX, UK.en
dc.identifier.journalBritish Medical Bulletinen
html.description.abstractINTRODUCTION: Alkylating agents are frequently used in the chemotherapy of many types of cancer. This group of drugs mediates cell death by damaging DNA and therefore, understandably, cellular DNA repair mechanisms can influence both their antitumour efficacy and their dose-limiting toxicities. SOURCES OF DATA: This review focuses on the mechanism of action of the DNA repair protein, O(6)-methylguanine-DNA methyltransferase (MGMT) and its exploitation in cancer therapy and reviews the current literature. AREAS OF AGREEMENT: MGMT can provide resistance to alkylating agents by DNA damage reversal. Inhibition of tumour MGMT by pseudosubstrates to overcome tumour resistance is under clinical evaluation. In addition, MGMT overexpression in haematopoietic stem cells has been shown in animal models to protect normal cells against the myelosuppressive effects of chemotherapy: this strategy has also entered clinical trials. AREAS OF CONTROVERSY: MGMT inhibitors enhance the myelotoxic effect of O(6)-alkylating drugs and therefore reduce the maximum-tolerated dose of these agents. Retroviral vectors used for chemoprotective gene therapy are associated with insertional mutagenesis and leukaemia development. GROWING POINTS: The results of ongoing preclinical and clinical research involving various aspects of MGMT modulation should provide new prospects for the treatment of glioma, melanoma and other cancer types. AREAS TIMELY FOR DEVELOPING RESEARCH: Tissue- and tumour-specific approaches to the modulation of MGMT together with other DNA repair functions and in combination with immuno- or radiotherapy are promising strategies to improve alkylating agent therapy.


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