CAG repeat size in Huntingtin alleles is associated with cancer prognosis

Thion, Morgane Sonia; Montcel, Sophie Tézenas du; Golmard, Jean‐Louis; Vacher, Sophie; Barjhoux, Laure; Sornin, Valérie; Cazeneuve, Cécile; Bièche, Ivan; Sinilnikova, Olga M.; Stoppa‐Lyonnet, Dominique; Dürr, Alexandra; Humbert, Sandrine

doi:10.1038/ejhg.2016.13

Cited by 24 publications

(19 citation statements)

References 28 publications

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“…Detailed structural analysis showed that echinomycin induces deformation in the mismatched DNA duplex, allowing cooperative recognition of the T:T mismatch by a second echinomycin molecule. Sequences harboring multiple CAG/CTG repeats are prone to form intra-strand T:T mismatches and have been associated with increased cancer risk in the past ( 84 , 85 ). This recent finding may be useful in re-assessing the utility of echinomycin for detection of MMR-deficient cancers, possibly by leveraging the DNA binding-induced fluorescence quenching properties of echinomycin.…”

Section: Ligand-induced Structures Of the Dna Duplexmentioning

confidence: 99%

A survey of recent unusual high-resolution DNA structures provoked by mismatches, repeats and ligand binding

Satange

Chang

Hou

2018

Nucleic Acids Research

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The structure of the DNA duplex is arguably one of the most important biological structures elucidated in modern history. DNA duplex structure is closely associated with essential biological functions such as DNA replication and RNA transcription. In addition to the classical A-, B- and Z-DNA conformations, DNA duplexes are capable of assuming a variety of alternative conformations depending on the sequence and environmental context. A considerable number of these unusual DNA duplex structures have been identified in the past decade, and some of them have been found to be closely associated with different biological functions and pathological conditions. In this manuscript, we review a selection of unusual DNA duplex structures, particularly those originating from base pair mismatch, repetitive sequence motifs and ligand-induced structures. Although the biological significance of these novel structures has not yet been established in most cases, the illustrated conformational versatility of DNA could have relevance for pharmaceutical or nanotechnology development. A perspective on the future directions of this field is also presented.

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Section: Ligand-induced Structures Of the Dna Duplexmentioning

confidence: 99%

A survey of recent unusual high-resolution DNA structures provoked by mismatches, repeats and ligand binding

Satange

Chang

Hou

2018

Nucleic Acids Research

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“…Additionally, we showed that wild-type HTT is involved in normal mammary gland development [ 12, 14, 15 ]. Moreover, we described an association between the size of CAG repeats in wild-type HTT and cancer prognosis [ 16 ], as well as decreased cancer incidence in the HD population [ 17 ]. In this review, we discuss the function of HTT during carcinogenesis, as well as the relationship between CAG repeats size and cancer incidence and prognosis.…”

Section: Introductionmentioning

confidence: 99%

Cancer: From Wild-Type to Mutant Huntingtin

Thion

Humbert

2018

JHD

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Huntingtin (HTT) is a scaffold protein mostly known because it gives rise to the severe and incurable inherited neurological disorder Huntington’s disease (HD) when mutated. The Huntingtin gene (HTT) carries a polymorphic trinucleotide expansion of CAGs in exon 1 that ranges from 9 to 35 in the non-HD affected population. However, if it exceeds 35 CAG repeats, the altered protein is referred to as mutant HTT and leads to the development of HD. Given the wide spectrum of severe symptoms developed by HD individuals, wild-type and mutant HTT have been mostly studied in the context of this disorder. However, HTT expression is ubiquitous and several peripheral symptoms in HD have been described, suggesting that HTT is of importance, not only in the central nervous system (CNS), but also in peripheral organs. Accordingly, HTT and mutant HTT may interfere with non-brain-related diseases. Correlative studies have highlighted a decreased cancer incidence in the HD population and both wild-type and mutant HTT have been implicated in tumor progression. In this review, we describe the current evidence linking wild-type and mutant HTT to cancer and discuss how CAG polymorphism, HTT function, and partners may influence carcinogenesis and metastatic progression.

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“…Although smoking has been reported to be more frequent in presymptomatic HD gene carriers than in the general population, cancer incidence has been reduced in HD. Thion et al (2016) made an interesting observation, asserting that polyglutamine diseases showed a lower incidence of cancer, independently of the CAG length (even if the CAG expansion does not reach the incomplete or complete penetrance range). They found that also though the frequency of cancer may be inversely correlated to the number of CAG repeats (nCAG), a large nCAG might favor the progression and local spreading of some cancers, particularly breast tumors (Thion et al, 2016).…”

Section: Type Of Cancer Cases Expectedmentioning

confidence: 99%

“…Thion et al (2016) made an interesting observation, asserting that polyglutamine diseases showed a lower incidence of cancer, independently of the CAG length (even if the CAG expansion does not reach the incomplete or complete penetrance range). They found that also though the frequency of cancer may be inversely correlated to the number of CAG repeats (nCAG), a large nCAG might favor the progression and local spreading of some cancers, particularly breast tumors (Thion et al, 2016). This was supported by McNulty et al (2018) in their research report from 6540 subjects participating in the REGISTRY study of the European Huntington's Disease Network, one of the most extensive studies performed comparing cancer incidence in HD patients with the general population, observing lower rates of malignancy in the former group.…”

Section: Type Of Cancer Cases Expectedmentioning

confidence: 99%

Neurodegenerative diseases and cancer: sharing common mechanisms in complex interactions

Rojas

Cesarini

Etcheverry

et al. 2020

Journal of Integrative Neuroscience

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Several epidemiological studies support low cancer rates in patients with neurodegenerative disorders, including Parkinson's disease, Huntington's disease, and Alzheimer's disease. Different mechanisms were raised as possible causes, from mutated tumor suppressor genes (PARKIN, PINK1) to small interfering RNA based on the CAG trinucleotide repeat expansions located in introns or untranslated regions. However, as every rule has an exception, some tumors have an increased incidence in these neurodegenerative diseases such as breast and skin cancer (melanoma). This mini-review aims to establish the epidemiology between these neurodegenerative disorders and cancer to determine the possible mechanisms involved and therefore set eventual therapeutic applications. According to our findings, we conclude the presence of an inverse relationship among most cancers and the aforementioned neurodegenerative disorders. However, this concept needs to be considered cautiously considering specific genetic and extra-genetic linkage factors for particular tumors.

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CAG repeat size in Huntingtin alleles is associated with cancer prognosis

Cited by 24 publications

References 28 publications

A survey of recent unusual high-resolution DNA structures provoked by mismatches, repeats and ligand binding

A survey of recent unusual high-resolution DNA structures provoked by mismatches, repeats and ligand binding

Cancer: From Wild-Type to Mutant Huntingtin

Neurodegenerative diseases and cancer: sharing common mechanisms in complex interactions

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