Open AccessJournal Article
The role of hMLH1, hMSH3, and hMSH6 defects in cisplatin and oxaliplatin resistance : Correlation with replicative bypass of platinum-DNA adducts
Alexandra Vaisman,Maria Varchenko,Asad Umar,Thomas A. Kunkel,John I. Risinger,Barrett Jc,T C Hamilton,Stephen G. Chaney +7 more
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TLDR
The hypothesis that mismatch repair defects in hMutL alpha and hMutS alpha, but not in h MutS beta, contribute to increased net replicative bypass of cisplatin adducts and therefore to drug resistance by preventing futile cycles of translesion synthesis and mismatch correction is supported.Abstract:
Defects in mismatch repair are associated with cisplatin resistance, and several mechanisms have been proposed to explain this correlation. It is hypothesized that futile cycles of translesion synthesis past cisplatin-DNA adducts followed by removal of the newly synthesized DNA by an active mismatch repair system may lead to cell death. Thus, resistance to platinum-DNA adducts could arise through loss of the mismatch repair pathway. However, no direct link between mismatch repair status and replicative bypass ability has been reported. In this study, cytotoxicity and steady-state chain elongation assays indicate that hMLH1 or hMSH6 defects result in 1.5-4.8-fold increased cisplatin resistance and 2.5-6-fold increased replicative bypass of cisplatin adducts. Oxaliplatin adducts are not recognized by the mismatch repair complex, and no significant differences in bypass of oxaliplatin adducts in mismatch repair-proficient and -defective cells were found. Defects in hMSH3 did not alter sensitivity to, or replicative bypass of, either cisplatin or oxaliplatin adducts. These observations support the hypothesis that mismatch repair defects in hMutL alpha and hMutS alpha, but not in hMutS beta, contribute to increased net replicative bypass of cisplatin adducts and therefore to drug resistance by preventing futile cycles of translesion synthesis and mismatch correction.read more
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Journal ArticleDOI
Molecular mechanisms of cisplatin resistance
Lorenzo Galluzzi,Laura Senovilla,Laura Senovilla,Laura Senovilla,Ilio Vitale,Ilio Vitale,Ilio Vitale,Judith Michels,Judith Michels,Judith Michels,Isabelle Martins,Isabelle Martins,Isabelle Martins,Oliver Kepp,Oliver Kepp,Oliver Kepp,Maria Castedo,Maria Castedo,Maria Castedo,Guido Kroemer +19 more
TL;DR: A systematic discussion of the mechanisms that account for the cisplatin-resistant phenotype of tumor cells are described and the development of chemosensitization strategies constitute a goal with important clinical implications.
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Molecular mechanisms of drug resistance
TL;DR: The signalling pathways involved in regulating tumour cell response to chemotherapy more completely than ever before are characterized, which will facilitate the future development of rational combined chemotherapy regimens, in which the newer targeted therapies are used in combination with cytotoxic drugs to enhance chemotherapy activity.
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Direct cellular responses to platinum-induced DNA damage
Yongwon Jung,Stephen J. Lippard +1 more
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Mechanisms of resistance to cisplatin.
Maria Kartalou,John M. Essigmann +1 more
TL;DR: An improved understanding of the mechanisms of resistance operative in vivo has identified targets for intervention and may increase the utility of cisplatin for the treatment of cancer.
References
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Journal ArticleDOI
Requirement for PCNA in DNA mismatch repair at a step preceding DNA resynthesis
Asad Umar,Andrew B. Buermeyer,Jeffrey A. Simon,David C. Thomas,Alan B. Clark,R. Michael Liskay,Thomas A. Kunkel +6 more
TL;DR: The data suggest a PCNA requirement in mismatch repair at a step preceding DNA resynthesis in yeast and human expression libraries, and the ability of PCNA to bind to MLH1 and MSH2 may reflect linkage between mismatch repair and replication.
Journal Article
Loss of DNA mismatch repair in acquired resistance to cisplatin.
Stefan Aebi,Buran Kurdi-Haidar,R. Gordon,Bruno Cenni,H Zheng,D Fink,R D Christen,Clement Richard Boland,Minoru Koi,Richard Fishel,Stephen B. Howell +10 more
TL;DR: To determine whether the loss of DNA mismatch repair itself contributes to cisplatin resistance, studies were carried out in isogenic pairs of cell lines proficient or defective in this function.
Journal ArticleDOI
Human mutsalpha recognizes damaged dna base pairs containing o6-methylguanine, o4-methylthymine, or the cisplatin-d(gpg) adduct
Derek Duckett,James T. Drummond,Alastair I.H. Murchie,Joyce T. Reardon,Aziz Sancar,David M.J. Lilley,Paul Modrich +6 more
TL;DR: It is suggested that recognition of 1,2-intrastrand cis-diamminedichloroplatinum(II) adducts by MutSalpha may be involved in the cytotoxic action of this chemotherapeutic agent.
Journal Article
Evidence for a Connection between the Mismatch Repair System and the G2 Cell Cycle Checkpoint
Mary T. Hawn,Asad Umar,John M. Carethers,Giancarlo Marra,Thomas A. Kunkel,C. R. Boland,Minoru Koi +6 more
TL;DR: The results suggest that the mismatch repair system interacts with the G2 checkpoint in response to 6TG or MNNG-induced DNA lesions, and suggest that any agent that induces DNA mispairs will cause G2 arrest in MMR-proficient cells but not inMM-deficient cells.
Journal ArticleDOI
Cisplatin and Adriamycin Resistance Are Associated with MutLα and Mismatch Repair Deficiency in an Ovarian Tumor Cell Line
TL;DR: Drug resistance is associated with the virtual absence of the MutLα MLH1 subunit and greatly reduced levels of the PMS2 subunit, which implicate a functional mismatch repair system in the cytotoxic effects of these antitumor drugs.