Topologies of Complexes Containing O6-Alkylguanine-DNA Alkyltransferase and DNA

Claire A. Adams; Manana Melikishvili; David W. Rodgers; Joseph J. Rasimas; Anthony E. Pegg; Michael G. Fried

doi:10.1016/j.jmb.2009.03.067

Topologies of Complexes Containing O⁶-Alkylguanine-DNA Alkyltransferase and DNA

Claire A. Adams
, Manana Melikishvili
, David W. Rodgers
, Joseph J. Rasimas
, Anthony E. Pegg
, Michael G. Fried

Producción científica: Article › revisión exhaustiva

26 Citas (Scopus)

Resumen

The mutagenic and cytotoxic effects of many alkylating agents are reduced by O⁶-alkylguanine-DNA alkyltransferase (AGT). In humans, this protein not only protects the integrity of the genome, but also contributes to the resistance of tumors to DNA-alkylating chemotherapeutic agents. Here we describe and test models for cooperative multiprotein complexes of AGT with single-stranded and duplex DNAs that are based on in vitro binding data and the crystal structure of a 1:1 AGT-DNA complex. These models predict that cooperative assemblies contain a three-start helical array of proteins with dominant protein-protein interactions between the amino-terminal face of protein n and the carboxy-terminal face of protein n + 3, and they predict that binding duplex DNA does not require large changes in B-form DNA geometry. Experimental tests using protein cross-linking analyzed by mass spectrometry, electrophoretic and analytical ultracentrifugation binding assays, and topological analyses with closed circular DNA show that the properties of multiprotein AGT-DNA complexes are consistent with these predictions.

Idioma original	English
Páginas (desde-hasta)	248-263
Número de páginas	16
Publicación	Journal of Molecular Biology
Volumen	389
N.º	2
DOI	https://doi.org/10.1016/j.jmb.2009.03.067
Estado	Published - jun 5 2009

Nota bibliográfica

Funding Information:
Mass spectrometric analyses were performed at the University of Kentucky Center for Structural Biology Protein Core Facility. This facility is supported in part by funds from NIH National Center for Research Resources (NCRR) grant P20 RR020171. We gratefully acknowledge the help of Dr. Carol Beach in acquiring these data. Research in this report was supported by NIH grants GM-070662 (to M.G.F.), CA-018137 and CA-097209 (to A.E.P.), NS-38041, DA-02243, and RR-20171 (to D.W.R.), and Medical Scientist Training Program grant 5 T32 GM-08601-05 (to J.J.R.).

Financiación

Mass spectrometric analyses were performed at the University of Kentucky Center for Structural Biology Protein Core Facility. This facility is supported in part by funds from NIH National Center for Research Resources (NCRR) grant P20 RR020171. We gratefully acknowledge the help of Dr. Carol Beach in acquiring these data. Research in this report was supported by NIH grants GM-070662 (to M.G.F.), CA-018137 and CA-097209 (to A.E.P.), NS-38041, DA-02243, and RR-20171 (to D.W.R.), and Medical Scientist Training Program grant 5 T32 GM-08601-05 (to J.J.R.).

Financiadores	Número del financiador
National Institutes of Health (NIH)	5 T32 GM-08601-05, NS-38041, GM-070662, CA-018137, CA-097209
Author National Institute on Drug Abuse DA031791 Mark J Ferris National Institute on Drug Abuse DA006634 Mark J Ferris National Institute on Alcohol Abuse and Alcoholism AA026117 Mark J Ferris National Institute on Alcohol Abuse and Alcoholism AA028162 Elizabeth G Pitts National Institute of General Medical Sciences GM102773 Elizabeth G Pitts Peter McManus Charitable Trust Mark J Ferris National Institute on Drug Abuse	R01DA002243
National Center for Research Resources	RR-20171

ASJC Scopus subject areas

Biophysics
Structural Biology
Molecular Biology

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title = "Topologies of Complexes Containing O6-Alkylguanine-DNA Alkyltransferase and DNA",

abstract = "The mutagenic and cytotoxic effects of many alkylating agents are reduced by O6-alkylguanine-DNA alkyltransferase (AGT). In humans, this protein not only protects the integrity of the genome, but also contributes to the resistance of tumors to DNA-alkylating chemotherapeutic agents. Here we describe and test models for cooperative multiprotein complexes of AGT with single-stranded and duplex DNAs that are based on in vitro binding data and the crystal structure of a 1:1 AGT-DNA complex. These models predict that cooperative assemblies contain a three-start helical array of proteins with dominant protein-protein interactions between the amino-terminal face of protein n and the carboxy-terminal face of protein n + 3, and they predict that binding duplex DNA does not require large changes in B-form DNA geometry. Experimental tests using protein cross-linking analyzed by mass spectrometry, electrophoretic and analytical ultracentrifugation binding assays, and topological analyses with closed circular DNA show that the properties of multiprotein AGT-DNA complexes are consistent with these predictions.",

keywords = "DNA repair, O-alkylguanine-DNA alkyltransferase, binding cooperativity, methylguanine methyltransferase, protein contacts",

author = "Adams, \{Claire A.\} and Manana Melikishvili and Rodgers, \{David W.\} and Rasimas, \{Joseph J.\} and Pegg, \{Anthony E.\} and Fried, \{Michael G.\}",

note = "Funding Information: Mass spectrometric analyses were performed at the University of Kentucky Center for Structural Biology Protein Core Facility. This facility is supported in part by funds from NIH National Center for Research Resources (NCRR) grant P20 RR020171. We gratefully acknowledge the help of Dr. Carol Beach in acquiring these data. Research in this report was supported by NIH grants GM-070662 (to M.G.F.), CA-018137 and CA-097209 (to A.E.P.), NS-38041, DA-02243, and RR-20171 (to D.W.R.), and Medical Scientist Training Program grant 5 T32 GM-08601-05 (to J.J.R.). ",

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AU - Adams, Claire A.

AU - Melikishvili, Manana

AU - Rodgers, David W.

AU - Rasimas, Joseph J.

AU - Pegg, Anthony E.

AU - Fried, Michael G.

N1 - Funding Information: Mass spectrometric analyses were performed at the University of Kentucky Center for Structural Biology Protein Core Facility. This facility is supported in part by funds from NIH National Center for Research Resources (NCRR) grant P20 RR020171. We gratefully acknowledge the help of Dr. Carol Beach in acquiring these data. Research in this report was supported by NIH grants GM-070662 (to M.G.F.), CA-018137 and CA-097209 (to A.E.P.), NS-38041, DA-02243, and RR-20171 (to D.W.R.), and Medical Scientist Training Program grant 5 T32 GM-08601-05 (to J.J.R.).

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N2 - The mutagenic and cytotoxic effects of many alkylating agents are reduced by O6-alkylguanine-DNA alkyltransferase (AGT). In humans, this protein not only protects the integrity of the genome, but also contributes to the resistance of tumors to DNA-alkylating chemotherapeutic agents. Here we describe and test models for cooperative multiprotein complexes of AGT with single-stranded and duplex DNAs that are based on in vitro binding data and the crystal structure of a 1:1 AGT-DNA complex. These models predict that cooperative assemblies contain a three-start helical array of proteins with dominant protein-protein interactions between the amino-terminal face of protein n and the carboxy-terminal face of protein n + 3, and they predict that binding duplex DNA does not require large changes in B-form DNA geometry. Experimental tests using protein cross-linking analyzed by mass spectrometry, electrophoretic and analytical ultracentrifugation binding assays, and topological analyses with closed circular DNA show that the properties of multiprotein AGT-DNA complexes are consistent with these predictions.

AB - The mutagenic and cytotoxic effects of many alkylating agents are reduced by O6-alkylguanine-DNA alkyltransferase (AGT). In humans, this protein not only protects the integrity of the genome, but also contributes to the resistance of tumors to DNA-alkylating chemotherapeutic agents. Here we describe and test models for cooperative multiprotein complexes of AGT with single-stranded and duplex DNAs that are based on in vitro binding data and the crystal structure of a 1:1 AGT-DNA complex. These models predict that cooperative assemblies contain a three-start helical array of proteins with dominant protein-protein interactions between the amino-terminal face of protein n and the carboxy-terminal face of protein n + 3, and they predict that binding duplex DNA does not require large changes in B-form DNA geometry. Experimental tests using protein cross-linking analyzed by mass spectrometry, electrophoretic and analytical ultracentrifugation binding assays, and topological analyses with closed circular DNA show that the properties of multiprotein AGT-DNA complexes are consistent with these predictions.

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KW - binding cooperativity

KW - methylguanine methyltransferase

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