Stephen C. West scite author profile

Interstrand crosslinks (ICLs) are highly toxic DNA lesions that prevent transcription and replication by inhibiting DNA strand separation. Agents that induce ICLs were one of the earliest, and are still the most widely used, forms of chemotherapeutic drug. Only recently, however, have we begun to understand how cells repair these lesions. Important insights have come from studies of individuals with Fanconi anaemia (FA), a rare genetic disorder that leads to ICL sensitivity. Understanding how the FA pathway links nucleases, helicases and other DNA-processing enzymes should lead to more targeted uses of ICL-inducing agents in cancer treatment and could provide novel insights into drug resistance.

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Molecular views of recombination proteins and their control

West

2003

Nat Rev Mol Cell Biol

884

772

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The efficient repair of double-strand breaks in DNA is critical for the maintenance of genome stability and cell survival. Homologous recombination provides an efficient and faithful pathway of repair, especially in replicating cells, in which it plays a major role in tumour avoidance. Many of the enzymes that are involved in recombination have been isolated, and the details of this pathway are now being unravelled at the molecular level.

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Poly(ADP-ribose)–Dependent Regulation of DNA Repair by the Chromatin Remodeling Enzyme ALC1

Ahel¹,

Hořejšı́²,

Wiechens

et al. 2009

Science

533

614

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SummaryALC1, a novel PARP1-stimulated chromatin-remodelling enzyme promotes DNA repair.Post-translational modifications play key roles in orchestrating chromatin plasticity. Although various chromatin-remodelling enzymes have been described that respond to specific histone modifications, little is known about the role of poly(ADP-ribose) in chromatin remodelling. Here, we identify a novel chromatin-remodelling enzyme, ALC1 (Amplified in Liver Cancer 1), that is specifically regulated by poly(ADP-ribosyl) ation. ALC1 binds poly(ADP-ribose) via a C-terminal Macro domain and catalyzes PARP1-stimulated nucleosome sliding, conferred by an N-terminal ISWI-related helicase core. Our results define ALC1 as a novel DNA damage-response protein, whose role in this process is sustained by its association with known DNA repair factors and its rapid poly(ADP-ribose)-dependent recruitment to DNA damage sites. Furthermore, we show that depletion or overexpression of ALC1 results in sensitivity to DNA-damaging agents. Collectively, these results provide new insights into the mechanisms by which poly(ADP-ribose) regulates DNA repair.The restricted accessibility of DNA within chromatin presents a barrier to DNA manipulations that require direct protein-DNA interactions (1-3). Processes such as transcription, repair and replication that require efficient DNA recognition are therefore dependent on the appropriate modulation of chromatin structure. Chromatin relaxation is a critical event that occurs during DNA repair and is associated with post-translational poly(ADP-ribose) (PAR) modification (4). PAR is synthesized in a reaction that utilizes NAD+ as a substrate by the PARP family of enzymes, of which PARP1 (and to a lesser extent PARP2) respond to DNA strand breaks (5-7). As a consequence of poly(ADP-

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Role of BRCA2 in Control of the RAD51 Recombination and DNA Repair Protein

Davies¹,

Masson²,

McIlwraith³

et al. 2001

Molecular Cell

622

538

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Individuals carrying BRCA2 mutations are predisposed to breast and ovarian cancers. Here, we show that BRCA2 plays a dual role in regulating the actions of RAD51, a protein essential for homologous recombination and DNA repair. First, interactions between RAD51 and the BRC3 or BRC4 regions of BRCA2 block nucleoprotein filament formation by RAD51. Alterations to the BRC3 region that mimic cancer-associated BRCA2 mutations fail to exhibit this effect. Second, transport of RAD51 to the nucleus is defective in cells carrying a cancer-associated BRCA2 truncation. Thus, BRCA2 regulates both the intracellular localization and DNA binding ability of RAD51. Loss of these controls following BRCA2 inactivation may be a key event leading to genomic instability and tumorigenesis.

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Regulatory Control of the Resolution of DNA Recombination Intermediates during Meiosis and Mitosis

Matos

Blanco

Maslen

et al. 2011

Cell

273

459

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The efficient and timely resolution of DNA recombination intermediates is essential for bipolar chromosome segregation. Here, we show that the specialized chromosome segregation patterns of meiosis and mitosis, which require the coordination of recombination with cell-cycle progression, are achieved by regulating the timing of activation of two crossover-promoting endonucleases. In yeast meiosis, Mus81-Mms4 and Yen1 are controlled by phosphorylation events that lead to their sequential activation. Mus81-Mms4 is hyperactivated by Cdc5-mediated phosphorylation in meiosis I, generating the crossovers necessary for chromosome segregation. Yen1 is also tightly regulated and is activated in meiosis II to resolve persistent Holliday junctions. In yeast and human mitotic cells, a similar regulatory network restrains these nuclease activities until mitosis, biasing the outcome of recombination toward noncrossover products while also ensuring the elimination of any persistent joint molecules. Mitotic regulation thereby facilitates chromosome segregation while limiting the potential for loss of heterozygosity and sister-chromatid exchanges.

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Stephen C. West

DNA interstrand crosslink repair and cancer

Molecular views of recombination proteins and their control

Poly(ADP-ribose)–Dependent Regulation of DNA Repair by the Chromatin Remodeling Enzyme ALC1

Role of BRCA2 in Control of the RAD51 Recombination and DNA Repair Protein

Regulatory Control of the Resolution of DNA Recombination Intermediates during Meiosis and Mitosis

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