Nils Kosiol scite author profile

DNA and RNA can fold into a variety of alternative conformations. In recent years, a particular nucleic acid structure was discussed to play a role in malignant transformation and cancer development. This structure is called a G-quadruplex (G4). G4 structure formation can drive genome instability by creating mutations, deletions and stimulating recombination events. The importance of G4 structures in the characterization of malignant cells was currently demonstrated in breast cancer samples. In this analysis a correlation between G4 structure formation and an increased intratumor heterogeneity was identified. This suggests that G4 structures might allow breast cancer stratification and supports the identification of new personalized treatment options. Because of the stability of G4 structures and their presence within most human oncogenic promoters and at telomeres, G4 structures are currently tested as a therapeutic target to downregulate transcription or to block telomere elongation in cancer cells. To date, different chemical molecules (G4 ligands) have been developed that aim to target G4 structures. In this review we discuss and compare G4 function and relevance for therapeutic approaches and their impact on cancer development for three cancer entities, which differ significantly in their amount and type of mutations: pancreatic cancer, leukemia and malignant melanoma. G4 structures might present a promising new strategy to individually target tumor cells and could support personalized treatment approaches in the future.

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The Barrett‐associated variants at GDF7 and TBX5 also increase esophageal adenocarcinoma risk

Becker

May

Gerges

et al. 2016

Cancer Medicine

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Barrett's esophagus (BE) and esophageal adenocarcinoma (EAC) represent two stages within the esophagitis‐metaplasia‐dysplasia‐adenocarcinoma sequence. Previously genetic risk factors have been identified that confer risk to BE and EAC development. However, to which extent the genetic variants confer risk to different stages of the BE/EAC sequence remains mainly unknown. In this study we analyzed three most recently identified BE variants at the genes GDF7 (rs3072), TBX5 (rs2701108), and ALDH1A2 (rs3784262) separately in BE and EAC samples in order to determine their risk effects during BE/EAC sequence. Our data show that rs3072 at GDF7 and rs2701108 at TBX5 are also associated with EAC and conclude that both loci confer disease risk also at later stages of the BE/EAC sequence. In contrast, rs3784262 at ALDH1A2 was highly significantly associated with BE, but showed no association with EAC. Our data do not provide evidence that the ALDH1A2 locus confers equal risk in early and late stages of BE/EAC sequence.

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Tu1842 Fibrosis of the Lower Esophageal Sphincter in Achalasia Is Associated With an Insertion in HLA-DQB1

Veits¹,

Poetzl²,

Schumacher³

et al. 2016

Gastroenterology

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241 Association of the HLA-DQB1-insertion in Idiopathic Achalasia and First Genotype-Phenotype (GxP) Study Using High-Resolution Manometry Data

Vacková¹,

Niebisch²,

J³

et al. 2016

Gastroenterology

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Nils Kosiol

G-quadruplexes: a promising target for cancer therapy

The Barrett‐associated variants at GDF7 and TBX5 also increase esophageal adenocarcinoma risk

Tu1842 Fibrosis of the Lower Esophageal Sphincter in Achalasia Is Associated With an Insertion in HLA-DQB1

241 Association of the HLA-DQB1-insertion in Idiopathic Achalasia and First Genotype-Phenotype (GxP) Study Using High-Resolution Manometry Data

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