MRE11 facilitates the removal of human topoisomerase II complexes from genomic DNA

Ka Cheong Lee; Kay Padget; Hannah Curtis; Ian G. Cowell; Davide Moiani; Zbyslaw Sondka; Nicholas J. Morris; Graham H. Jackson; Simon J. Cockell; John A. Tainer; Caroline A. Austin

doi:10.1242/bio.20121834

MRE11 facilitates the removal of human topoisomerase II complexes from genomic DNA

Ka Cheong Lee, Kay Padget, Hannah Curtis, Ian G. Cowell, Davide Moiani, Zbyslaw Sondka, Nicholas J. Morris, Graham H. Jackson, Simon J. Cockell, John A. Tainer, Caroline A. Austin

Research output: Contribution to journal › Article › peer-review

56 Scopus citations

Abstract

Topoisomerase II creates a double-strand break intermediate with topoisomerase covalently coupled to the DNA via a 5′- phosphotyrosyl bond. These intermediate complexes can become cytotoxic protein-DNA adducts and DSB repair at these lesions requires removal of topoisomerase II. To analyse removal of topoisomerase II from genomic DNA we adapted the trapped in agarose DNA immunostaining assay. Recombinant MRE11 from 2 sources removed topoisomerase IIα from genomic DNA in vitro, as did MRE11 immunoprecipitates isolated from A-TLD or K562 cells. Basal topoisomerase II complex levels were very high in A-TLD cells lacking full-length wild type MRE11, suggesting that MRE11 facilitates the processing of topoisomerase complexes that arise as part of normal cellular metabolism. In K562 cells inhibition of MRE11, PARP or replication increased topoisomerase IIα and β complex levels formed in the absence of an anti-topoisomerase II drug.

Original language	English (US)
Pages (from-to)	863-873
Number of pages	11
Journal	Biology Open
Volume	1
Issue number	9
DOIs	https://doi.org/10.1242/bio.20121834
State	Published - Sep 15 2012
Externally published	Yes

Keywords

A-TLD
DSB repair
MRE11
Protein-DNA adducts
Topoisomerase II

ASJC Scopus subject areas

General Biochemistry, Genetics and Molecular Biology
General Agricultural and Biological Sciences

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10.1242/bio.20121834

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title = "MRE11 facilitates the removal of human topoisomerase II complexes from genomic DNA",

abstract = "Topoisomerase II creates a double-strand break intermediate with topoisomerase covalently coupled to the DNA via a 5′- phosphotyrosyl bond. These intermediate complexes can become cytotoxic protein-DNA adducts and DSB repair at these lesions requires removal of topoisomerase II. To analyse removal of topoisomerase II from genomic DNA we adapted the trapped in agarose DNA immunostaining assay. Recombinant MRE11 from 2 sources removed topoisomerase IIα from genomic DNA in vitro, as did MRE11 immunoprecipitates isolated from A-TLD or K562 cells. Basal topoisomerase II complex levels were very high in A-TLD cells lacking full-length wild type MRE11, suggesting that MRE11 facilitates the processing of topoisomerase complexes that arise as part of normal cellular metabolism. In K562 cells inhibition of MRE11, PARP or replication increased topoisomerase IIα and β complex levels formed in the absence of an anti-topoisomerase II drug.",

keywords = "A-TLD, DSB repair, MRE11, Protein-DNA adducts, Topoisomerase II",

author = "Lee, {Ka Cheong} and Kay Padget and Hannah Curtis and Cowell, {Ian G.} and Davide Moiani and Zbyslaw Sondka and Morris, {Nicholas J.} and Jackson, {Graham H.} and Cockell, {Simon J.} and Tainer, {John A.} and Austin, {Caroline A.}",

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year = "2012",

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doi = "10.1242/bio.20121834",

language = "English (US)",

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AU - Lee, Ka Cheong

AU - Padget, Kay

AU - Curtis, Hannah

AU - Cowell, Ian G.

AU - Moiani, Davide

AU - Sondka, Zbyslaw

AU - Morris, Nicholas J.

AU - Jackson, Graham H.

AU - Cockell, Simon J.

AU - Tainer, John A.

AU - Austin, Caroline A.

PY - 2012/9/15

Y1 - 2012/9/15

N2 - Topoisomerase II creates a double-strand break intermediate with topoisomerase covalently coupled to the DNA via a 5′- phosphotyrosyl bond. These intermediate complexes can become cytotoxic protein-DNA adducts and DSB repair at these lesions requires removal of topoisomerase II. To analyse removal of topoisomerase II from genomic DNA we adapted the trapped in agarose DNA immunostaining assay. Recombinant MRE11 from 2 sources removed topoisomerase IIα from genomic DNA in vitro, as did MRE11 immunoprecipitates isolated from A-TLD or K562 cells. Basal topoisomerase II complex levels were very high in A-TLD cells lacking full-length wild type MRE11, suggesting that MRE11 facilitates the processing of topoisomerase complexes that arise as part of normal cellular metabolism. In K562 cells inhibition of MRE11, PARP or replication increased topoisomerase IIα and β complex levels formed in the absence of an anti-topoisomerase II drug.

AB - Topoisomerase II creates a double-strand break intermediate with topoisomerase covalently coupled to the DNA via a 5′- phosphotyrosyl bond. These intermediate complexes can become cytotoxic protein-DNA adducts and DSB repair at these lesions requires removal of topoisomerase II. To analyse removal of topoisomerase II from genomic DNA we adapted the trapped in agarose DNA immunostaining assay. Recombinant MRE11 from 2 sources removed topoisomerase IIα from genomic DNA in vitro, as did MRE11 immunoprecipitates isolated from A-TLD or K562 cells. Basal topoisomerase II complex levels were very high in A-TLD cells lacking full-length wild type MRE11, suggesting that MRE11 facilitates the processing of topoisomerase complexes that arise as part of normal cellular metabolism. In K562 cells inhibition of MRE11, PARP or replication increased topoisomerase IIα and β complex levels formed in the absence of an anti-topoisomerase II drug.

KW - A-TLD

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KW - Protein-DNA adducts

KW - Topoisomerase II

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MRE11 facilitates the removal of human topoisomerase II complexes from genomic DNA

Abstract

Keywords

ASJC Scopus subject areas

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