The hSNM1 protein is a DNA 5'-exonuclease

Hejna, James; Philip, Sahaayaruban; Ott, Jesse; Faulkner, Craig; Moses, Robb E.

doi:10.1093/nar/gkm530

Cited by 44 publications

(62 citation statements)

References 28 publications

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“…A murine knockout of RAD18 results in both MMC (crosslinker) and UV hypersensitivity (4,8). How crosslinking agents activate the ubiquitin ligase activity of RAD18 remains unknown.…”

Section: Discussionmentioning

confidence: 99%

“…Wild-type and RAD18-deficient HCT116 cells were grown as previously described (13). Human SNM1A cDNA has been described previously (8) and was subcloned into pEGFP-C1 vector (BglII and SalI). Mutants of the PIP box and UBZ domain were further generated based on the wild-type vector.…”

Section: Methodsmentioning

confidence: 99%

“…Third, in response to DNA damage, SNM1A assembles in subnuclear foci (7), further supporting its role in the DNA damage response. Fourth, SNM1A can function as a DNA exonuclease in vitro, suggesting that it may have a direct role in excising DNA ICLs (3,8).DNA repair proteins are often recruited to specific sites of DNA damage through protein-protein interaction domains. For example, the FHA domain of NBS1 and the BRCT domains of BRCA1 are required for recruitment of these DNA repair proteins to complexes containing phosphopeptide motifs (9).…”

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confidence: 99%

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RAD18-dependent Recruitment of SNM1A to DNA Repair Complexes by a Ubiquitin-binding Zinc Finger

Yang

Moldovan

D’Andrea

2010

Journal of Biological Chemistry

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SNM1A is a member of the SNM1 family of nucleases required for cellular processing of interstrand DNA crosslinks (ICLs). Little is known about the molecular function of SNM1A, in terms of its recruitment to ICL lesions or its DNA damage processing activity. Here we show that SNM1A contains a functional PIP box (PCNA-interacting protein box) and a UBZ (ubiquitin binding zinc finger), required for assembly of SNM1A into nuclear focus. Moreover, RAD18-dependent monoubiquitination of PCNA is required for Mitomycin C and Ultraviolet Light inducible SNM1A nuclear focus assembly. Taken together, our results identify a novel RAD18-PCNA(Ub)-SNM1A pathway required for nuclear focus formation and ICL resistance.The repair of DNA interstrand crosslinks (ICLs) 4 in mammalian cells requires the coordinate activity of three discrete pathways, including nucleotide excision repair (NER), homologous recombination (HR), and translesion DNA synthesis (TLS) (1). In addition, yeast SNM1 (also known as Pso2) is required for ICL repair and appears to function independently of these three pathways. Pso2 is a member of the ␤-CASP metallo-␤-lactamase family of nucleases (2). Human cells have three homologs of SNM1 (referred to as SNM1A, SNM1B/Apollo, and SNM1C/ Artemis), and their relative contribution to ICL repair remains unknown.Recent studies have elucidated some of the functions of the SNM1A protein. First, human SNM1A, unlike SNM1B and SNM1C, can rescue the crosslinker hypersensitivity of a yeast Pso2 mutant, suggesting that SNM1A is the homologue of the yeast protein (3). Second, a murine knock-out of SNM1A is hypersensitive to MMC, but not to ionizing radiation (IR) (4 -6). Third, in response to DNA damage, SNM1A assembles in subnuclear foci (7), further supporting its role in the DNA damage response. Fourth, SNM1A can function as a DNA exonuclease in vitro, suggesting that it may have a direct role in excising DNA ICLs (3,8).DNA repair proteins are often recruited to specific sites of DNA damage through protein-protein interaction domains. For example, the FHA domain of NBS1 and the BRCT domains of BRCA1 are required for recruitment of these DNA repair proteins to complexes containing phosphopeptide motifs (9). Ubiquitin binding motifs (UBMs) and ubiquitin-binding zinc fingers (UBZs) are found in some DNA repair proteins and can target these proteins to monoubiquitinated complexes (10 -12). The UBZ motif of Pol for example, can recruit this protein to monoubiquitinated PCNA. However, the molecular mechanism by which SNM1A is recruited to sites of ICL repair is currently unknown (7).In this study, we propose a mechanism for the damage-inducible recruitment of SNM1A to sites of DNA damage. We identified a conserved UBZ domain in SNM1A, which is functional for monoubiquitin binding. DNA damage, by MMC or ultraviolet light, activated the UBZ-dependent recruitment of SNM1A into nuclear foci. Interestingly, this recruitment was RAD18 dependent, suggesting that RAD18 monoubiquitinates PCNA, leading to the direct interaction of UBZ-SNM...

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“…A murine knockout of RAD18 results in both MMC (crosslinker) and UV hypersensitivity (4,8). How crosslinking agents activate the ubiquitin ligase activity of RAD18 remains unknown.…”

Section: Discussionmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

mentioning

confidence: 99%

mentioning

confidence: 99%

See 2 more Smart Citations

RAD18-dependent Recruitment of SNM1A to DNA Repair Complexes by a Ubiquitin-binding Zinc Finger

Yang

Moldovan

D’Andrea

2010

Journal of Biological Chemistry

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“…The in vitro activity of FAN1 on substrates containing an ICL overlaps with the activity of SNM1A, one of the three human homologs of Pso2, a nuclease that functions in ICL repair in Saccharomyces cerevisiae (Henriques and Moustacchi 1980;Ruhland et al 1981;Hejna et al 2007;Wang et al 2011). Mammalian SNM1A shares the most similarity with Pso2 and is the only homolog that can complement the ICL sensitivity of pso2Δ yeast (Hazrati et al 2008).…”

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confidence: 99%

Fan1 deficiency results in DNA interstrand cross-link repair defects, enhanced tissue karyomegaly, and organ dysfunction

et al. 2016

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Deficiency of FANCD2/FANCI-associated nuclease 1 (FAN1) in humans leads to karyomegalic interstitial nephritis (KIN), a rare hereditary kidney disease characterized by chronic renal fibrosis, tubular degeneration, and characteristic polyploid nuclei in multiple tissues. The mechanism of how FAN1 protects cells is largely unknown but is thought to involve FAN1's function in DNA interstrand cross-link (ICL) repair. Here, we describe a Fan1-deficient mouse and show that FAN1 is required for cellular and organismal resistance to ICLs. We show that the ubiquitinbinding zinc finger (UBZ) domain of FAN1, which is needed for interaction with FANCD2, is not required for the initial rapid recruitment of FAN1 to ICLs or for its role in DNA ICL resistance. Epistasis analyses reveal that FAN1 has cross-link repair activities that are independent of the Fanconi anemia proteins and that this activity is redundant with the 5 ′ -3 ′ exonuclease SNM1A. Karyomegaly becomes prominent in kidneys and livers of Fan1-deficient mice with age, and mice develop liver dysfunction. Treatment of Fan1-deficient mice with ICL-inducing agents results in pronounced thymic and bone marrow hypocellularity and the disappearance of c-kit + cells. Our results provide insight into the mechanism of FAN1 in ICL repair and demonstrate that the Fan1 mouse model effectively recapitulates the pathological features of human FAN1 deficiency.

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Two‐Step Validation Approach for Tools To Study the DNA Repair Enzyme SNM1A

et al. 2023

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We report a two‐step validation approach to evaluate the suitability of metal‐binding groups for targeting DNA damage‐repair metalloenzymes using model enzyme SNM1A. A fragment‐based screening approach was first used to identify metal‐binding fragments suitable for targeting the enzyme. Effective fragments were then incorporated into oligonucleotides using the copper‐catalysed azide–alkyne cycloaddition reaction. These modified oligonucleotides were recognised by SNM1A at >1000‐fold lower concentrations than their fragment counterparts. The exonuclease SNM1A is a key enzyme involved in the repair of interstrand crosslinks, a highly cytotoxic form of DNA damage. However, SNM1A and other enzymes of this class are poorly understood, as there is a lack of tools available to facilitate their study. Our novel approach of incorporating functional fragments into oligonucleotides is broadly applicable to generating modified oligonucleotide structures with high affinity for DNA damage‐repair enzymes.

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The hSNM1 protein is a DNA 5'-exonuclease

Cited by 44 publications

References 28 publications

RAD18-dependent Recruitment of SNM1A to DNA Repair Complexes by a Ubiquitin-binding Zinc Finger

RAD18-dependent Recruitment of SNM1A to DNA Repair Complexes by a Ubiquitin-binding Zinc Finger

Fan1 deficiency results in DNA interstrand cross-link repair defects, enhanced tissue karyomegaly, and organ dysfunction

Two‐Step Validation Approach for Tools To Study the DNA Repair Enzyme SNM1A

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