XRCC4's interaction with XLF is required for coding (but not signal) end joining

Sunetra Roy; Sara N. Andres; Alexandra Vergnes; Jessica A. Neal; Yao Xu; Yaping Yu; Susan P. Lees-Miller; Murray Junop; Mauro Modesti; Katheryn Meek

doi:10.1093/nar/gkr1315

XRCC4's interaction with XLF is required for coding (but not signal) end joining

Sunetra Roy, Sara N. Andres, Alexandra Vergnes, Jessica A. Neal, Yao Xu, Yaping Yu, Susan P. Lees-Miller, Murray Junop, Mauro Modesti, Katheryn Meek

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

51 Scopus citations

Abstract

XRCC4 and XLF are structurally related proteins important for DNA Ligase IV function. XRCC4 forms a tight complex with DNA Ligase IV while XLF interacts directly with XRCC4. Both XRCC4 and XLF form homodimers that can polymerize as heterotypic filaments independently of DNA Ligase IV. Emerging structural and in vitro biochemical data suggest that XRCC4 and XLF together generate a filamentous structure that promotes bridging between DNA molecules. Here, we show that ablating XRCC4's affinity for XLF results in DNA repair deficits including a surprising deficit in VDJ coding, but not signal end joining. These data are consistent with a model whereby XRCC4/XLF complexes hold DNA ends together-stringently required for coding end joining, but dispensable for signal end joining. Finally, DNA-PK phosphorylation of XRCC4/XLF complexes disrupt DNA bridging in vitro, suggesting a regulatory role for DNA-PK's phosphorylation of XRCC4/XLF complexes.

Original language	English (US)
Pages (from-to)	1684-1694
Number of pages	11
Journal	Nucleic acids research
Volume	40
Issue number	4
DOIs	https://doi.org/10.1093/nar/gkr1315
State	Published - Feb 2012
Externally published	Yes

ASJC Scopus subject areas

Genetics

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title = "XRCC4's interaction with XLF is required for coding (but not signal) end joining",

abstract = "XRCC4 and XLF are structurally related proteins important for DNA Ligase IV function. XRCC4 forms a tight complex with DNA Ligase IV while XLF interacts directly with XRCC4. Both XRCC4 and XLF form homodimers that can polymerize as heterotypic filaments independently of DNA Ligase IV. Emerging structural and in vitro biochemical data suggest that XRCC4 and XLF together generate a filamentous structure that promotes bridging between DNA molecules. Here, we show that ablating XRCC4's affinity for XLF results in DNA repair deficits including a surprising deficit in VDJ coding, but not signal end joining. These data are consistent with a model whereby XRCC4/XLF complexes hold DNA ends together-stringently required for coding end joining, but dispensable for signal end joining. Finally, DNA-PK phosphorylation of XRCC4/XLF complexes disrupt DNA bridging in vitro, suggesting a regulatory role for DNA-PK's phosphorylation of XRCC4/XLF complexes.",

author = "Sunetra Roy and Andres, {Sara N.} and Alexandra Vergnes and Neal, {Jessica A.} and Yao Xu and Yaping Yu and Lees-Miller, {Susan P.} and Murray Junop and Mauro Modesti and Katheryn Meek",

note = "Funding Information: Public Health Service (grant AI048758 to K.M.); the Association for International Cancer Research (grant 09-0633 to M.M.); by the Association pour la Recherche contre le Cancer (grant A09/2/5075 to M.M.); Canadian Institutes of Health Research (MOP 89903) for the work in MJ laboratory. Funding for open access charge: Public Health Service (grant AI048758 to K.M.).",

year = "2012",

month = feb,

doi = "10.1093/nar/gkr1315",

language = "English (US)",

volume = "40",

pages = "1684--1694",

journal = "Nucleic acids research",

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T1 - XRCC4's interaction with XLF is required for coding (but not signal) end joining

AU - Roy, Sunetra

AU - Andres, Sara N.

AU - Vergnes, Alexandra

AU - Neal, Jessica A.

AU - Xu, Yao

AU - Yu, Yaping

AU - Lees-Miller, Susan P.

AU - Junop, Murray

AU - Modesti, Mauro

AU - Meek, Katheryn

N1 - Funding Information: Public Health Service (grant AI048758 to K.M.); the Association for International Cancer Research (grant 09-0633 to M.M.); by the Association pour la Recherche contre le Cancer (grant A09/2/5075 to M.M.); Canadian Institutes of Health Research (MOP 89903) for the work in MJ laboratory. Funding for open access charge: Public Health Service (grant AI048758 to K.M.).

PY - 2012/2

Y1 - 2012/2

N2 - XRCC4 and XLF are structurally related proteins important for DNA Ligase IV function. XRCC4 forms a tight complex with DNA Ligase IV while XLF interacts directly with XRCC4. Both XRCC4 and XLF form homodimers that can polymerize as heterotypic filaments independently of DNA Ligase IV. Emerging structural and in vitro biochemical data suggest that XRCC4 and XLF together generate a filamentous structure that promotes bridging between DNA molecules. Here, we show that ablating XRCC4's affinity for XLF results in DNA repair deficits including a surprising deficit in VDJ coding, but not signal end joining. These data are consistent with a model whereby XRCC4/XLF complexes hold DNA ends together-stringently required for coding end joining, but dispensable for signal end joining. Finally, DNA-PK phosphorylation of XRCC4/XLF complexes disrupt DNA bridging in vitro, suggesting a regulatory role for DNA-PK's phosphorylation of XRCC4/XLF complexes.

AB - XRCC4 and XLF are structurally related proteins important for DNA Ligase IV function. XRCC4 forms a tight complex with DNA Ligase IV while XLF interacts directly with XRCC4. Both XRCC4 and XLF form homodimers that can polymerize as heterotypic filaments independently of DNA Ligase IV. Emerging structural and in vitro biochemical data suggest that XRCC4 and XLF together generate a filamentous structure that promotes bridging between DNA molecules. Here, we show that ablating XRCC4's affinity for XLF results in DNA repair deficits including a surprising deficit in VDJ coding, but not signal end joining. These data are consistent with a model whereby XRCC4/XLF complexes hold DNA ends together-stringently required for coding end joining, but dispensable for signal end joining. Finally, DNA-PK phosphorylation of XRCC4/XLF complexes disrupt DNA bridging in vitro, suggesting a regulatory role for DNA-PK's phosphorylation of XRCC4/XLF complexes.

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XRCC4's interaction with XLF is required for coding (but not signal) end joining

Abstract

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