OGG1 initiates age-dependent CAG trinucleotide expansion in somatic cells

Kovtun, Irina V.; Liu, Yuan; Bjørås, Magnar; Klungland, Arne; Wilson, Samuel H.; McMurray, Cynthia T.

doi:10.1038/nature05778

Cited by 386 publications

(575 citation statements)

References 41 publications

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“…Similarly, among those genes with little effect on CAG contraction in human cells (28), three have been tested in mouse models and shown to have little effect on CAG repeats, including MSH6 (52), XPC (8), and FEN1 (50,51). Interestingly, only in the case of the OGG1 glycosylase discussed below do the results differ, with deficiencies having no effect on CAG contraction in human cells (32), but large effects in mice (21). Overall, the otherwise good agreement between these two assays suggests that screening candidates in human cells will be a productive way to select genes to test in mice.…”

Section: Discussionmentioning

confidence: 84%

“…Thus, in the absence of OGG1, CAG repeats become more stable. Strikingly, mouse models of Huntington disease that are genetically deficient for OGG1 have much more stable CAG repeats in brain than do OGG1-positive mice (21). It is curious that the TOP1-TDP1-SSBR pathway acts to suppress CAG instability, while the OGG1-APE1-BER pathway acts to stimulate repeat instability.…”

Section: Discussionmentioning

confidence: 99%

“…It is responsible for excising 8-oxo-guanine, a common base damage caused by reactive oxygen species (53). In cell extracts and in mice, it has been shown that OGG1 normally acts to promote CAG repeat expansions (21,33). Thus, in the absence of OGG1, CAG repeats become more stable.…”

Section: Discussionmentioning

confidence: 99%

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Topoisomerase 1 and Single-Strand Break Repair Modulate Transcription-Induced CAG Repeat Contraction in Human Cells

Hubert

Lin

Dion

et al. 2011

Molecular and Cellular Biology

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Expanded trinucleotide repeats are responsible for a number of neurodegenerative diseases, such as Huntington disease and myotonic dystrophy type 1. The mechanisms that underlie repeat instability in the germ line and in the somatic tissues of human patients are undefined. Using a selection assay based on contraction of CAG repeat tracts in human cells, we screened the Prestwick chemical library in a moderately highthroughput assay and identified 18 novel inducers of repeat contraction. A subset of these compounds targeted pathways involved in the management of DNA supercoiling associated with transcription. Further analyses using both small molecule inhibitors and small interfering RNA (siRNA)-mediated knockdowns demonstrated the involvement of topoisomerase 1 (TOP1), tyrosyl-DNA phosphodiesterase 1 (TDP1), and single-strand break repair (SSBR) in modulating transcription-dependent CAG repeat contractions. The TOP1-TDP1-SSBR pathway normally functions to suppress repeat instability, since interfering with it stimulated repeat contractions. We further showed that the increase in repeat contractions when the TOP1-TDP1-SSBR pathway is compromised arises via transcription-coupled nucleotide excision repair, a previously identified contributor to transcription-induced repeat instability. These studies broaden the scope of pathways involved in transcription-induced CAG repeat instability and begin to define their interrelationships.

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Section: Discussionmentioning

confidence: 84%

Section: Discussionmentioning

confidence: 99%

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Topoisomerase 1 and Single-Strand Break Repair Modulate Transcription-Induced CAG Repeat Contraction in Human Cells

Hubert

Lin

Dion

et al. 2011

Molecular and Cellular Biology

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“…For example, the tetranucleotide marker MycL1 was found to be more stable than other microsatellites in MMR-negative cells, but more unstable in MMR-positive cells (Hatch and Farber, 2004). Kovtun et al (2007) demonstrated agedependent expansion of a human Huntington's disease-related trinucleotide in transgenic mice). The levels of expansion were greatly increased in double-transgenic mice that lacked a single base-excision repair enzyme, 7,8-dihydro-8-oxoguanine-DNA glycosylase (OGG1), indicating the important role of oxidative damage in the expansion process.…”

Section: Discussionmentioning

confidence: 99%

Microsatellite mutations in buccal cells are associated with aging and head and neck carcinoma

Slebos

Vadivelu

et al. 2008

Br J Cancer

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Carcinogen exposure from tobacco smoking is the major cause of upper aerodigestive tract cancer, yet heavy smokers only have about a 10% life-time risk of developing one of these cancers. Current technologies allow only limited prediction of cancer risk and there are no approved screening methods applicable to the general population. We developed a method to assess somatic mutational load using small-pool PCR (SP-PCR) and analysed mutations in DNA isolated from cells obtained by mouth rinse. Mutation levels in the hypermutable tetranucleotide marker D7S1482 were analysed in specimens from 25 head and neck squamous carcinoma (HNSCC) cases and 31 controls and tested for associations with age, smoking history and cancer status. We found a significant association between mutation frequency and age (P ¼ 0.021, Generalized Linear Model (GLM), N ¼ 56), but no influence of smoking history. Cases had higher mutation frequencies than controls when corrected for the effects of age, a difference that was statistically significant in the subgroup of 10 HNSCC patients who were treated with surgery only (P ¼ 0.017, GLM, N ¼ 41). We also present evidence that cancer status is linked to levels of nonunique, and presumably clonally derived, mutations in D7S1482. Insertion mutations were observed in 833 (79%) of 1058 alleles, of which 457 (43%) could be explained by insertion of a single repeat unit; deletion mutations were found in 225 (21%) of tested alleles.In conclusion, we demonstrate that the sensitive detection of single molecule mutations in clinical specimens is feasible by SP-PCR. Our study confirms an earlier report that microsatellite mutations increase with age and is the first to provide evidence that these mutations may be associated with cancer status in individual subjects.

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“…61 Proximal events mediated by mutant huntingtin in turn trigger cascades of both damaging and compensatory molecular processes and genetic programs. These events and sequelae include mitochondrial dysfunction, energy depletion, [62][63][64] oxidative stress, 65,66 DNA damage, 67 synaptic stress, 68 disordered neurophysiology, 69 proapoptotic signals, 70 protein aggregation, [71][72][73] malfunctioning proteolysis, 74 autophagy, [75][76][77][78][79] ubiquitin/ proteosomal dysfunction, [80][81][82] neurotrophin deficiency, [83][84][85] and©disrupted©intracellular©transport 86 -all©of©which might© play© a© role© in© neuronal© death. 87© The© presence© of huntingtin© or© its© fragments© in© the© nucleus© seems© to© particularly© drive© pathology.…”

Section: Candidate Targets For Neuroprotectionmentioning

confidence: 99%

Neuroprotection for Huntington’s Disease: Ready, Set, Slow

Hersch

Rosas

2008

Neurotherapeutics

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Summary:The ultimate goal for Huntington's disease (HD) therapeutics is to develop disease-modifying neuroprotective therapies that can delay or prevent illness in those who are at genetic risk and can slow progression in those who are affected clinically. Neuroprotection is the preservation of neuronal structure, function, and viability, and neuroprotective therapy is thus targeted at the underlying pathology of HD, rather than at its specific symptoms. Preclinical target discovery research in HD is identifying numerous distinct targets, along with options for modulating them, with some proceeding into large-scale efficacy studies in early symptomatic HD subjects. The first pilot studies of neuroprotective compounds in premanifest HD are also soon to begin. This review discusses the opportunities for neuroprotection in HD, clinical methodology in premanifest and manifest HD, the clinical assessment of neuroprotection, molecular targets and therapeutic leads, and the current state of clinical development.

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OGG1 initiates age-dependent CAG trinucleotide expansion in somatic cells

Cited by 386 publications

References 41 publications

Topoisomerase 1 and Single-Strand Break Repair Modulate Transcription-Induced CAG Repeat Contraction in Human Cells

Topoisomerase 1 and Single-Strand Break Repair Modulate Transcription-Induced CAG Repeat Contraction in Human Cells

Microsatellite mutations in buccal cells are associated with aging and head and neck carcinoma

Neuroprotection for Huntington’s Disease: Ready, Set, Slow

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