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4 záznamů v Medvik

Článek

Protein-altering germline mutations implicate novel genes related to lung cancer development

Ji, Xuemei
Autor Ji, Xuemei Biomedical Data Science, Geisel School of Medicine at Dartmouth, Hanover, NH, USA. xuemei.ji@yahoo.com
Mukherjee, Semanti
Autor Mukherjee, Semanti Department of Medicine, Memorial Sloan Kettering Cancer Center, New York, NY, USA
Landi, Maria Teresa
Autor Landi, Maria Teresa Division of Cancer Epidemiology and Genetics, National Cancer Institute, National Institutes of Health, Bethesda, MD, USA
Bosse, Yohan
Autor Bosse, Yohan Institut universitaire de cardiologie et de pneumologie de Québec, Department of Molecular Medicine, Laval University, Québec, Canada
Joubert, Philippe
Autor Joubert, Philippe Institut universitaire de cardiologie et de pneumologie de Québec, Department of Molecular Medicine, Laval University, Québec, Canada
Zhu, Dakai
Autor Zhu, Dakai Biomedical Data Science, Geisel School of Medicine at Dartmouth, Hanover, NH, USA. The Institute for Clinical and Translational Research, Baylor College of Medicine, Houston, TX, USA
Gorlov, Ivan
Autor Gorlov, Ivan Biomedical Data Science, Geisel School of Medicine at Dartmouth, Hanover, NH, USA
Xiao, Xiangjun
Autor Xiao, Xiangjun The Institute for Clinical and Translational Research, Baylor College of Medicine, Houston, TX, USA
Han, Younghun
Autor Han, Younghun The Institute for Clinical and Translational Research, Baylor College of Medicine, Houston, TX, USA
Gorlova, Olga
Autor Gorlova, Olga Biomedical Data Science, Geisel School of Medicine at Dartmouth, Hanover, NH, USA

Nature communications. 2020 ; 11 (1) : 2220. [pub] 20200511

Nat Commun
ISSN 2041-1723
Medvik
Zdroj

Few germline mutations are known to affect lung cancer risk. We performed analyses of rare variants from 39,146 individuals of European ancestry and investigated gene expression levels in 7,773 samples. We find a large-effect association with an ATM L2307F (rs56009889) mutation in adenocarcinoma for discovery (adjusted Odds Ratio = 8.82, P = 1.18 × 10-15) and replication (adjusted OR = 2.93, P = 2.22 × 10-3) that is more pronounced in females (adjusted OR = 6.81 and 3.19 and for discovery and replication). We observe an excess loss of heterozygosity in lung tumors among ATM L2307F allele carriers. L2307F is more frequent (4%) among Ashkenazi Jewish populations. We also observe an association in discovery (adjusted OR = 2.61, P = 7.98 × 10-22) and replication datasets (adjusted OR = 1.55, P = 0.06) with a loss-of-function mutation, Q4X (rs150665432) of an uncharacterized gene, KIAA0930. Our findings implicate germline genetic variants in ATM with lung cancer susceptibility and suggest KIAA0930 as a novel candidate gene for lung cancer risk.

MeSH
adenokarcinom genetika MeSH
alely MeSH
ATM protein genetika MeSH
běloši genetika MeSH
databáze genetické MeSH
genetická predispozice k nemoci MeSH
genotypizační techniky MeSH
heterozygot MeSH
lidé středního věku MeSH
lidé MeSH
missense mutace MeSH
nádory plic genetika MeSH
odds ratio MeSH
rizikové faktory MeSH
rodokmen MeSH
sekvenční analýza hybridizací s uspořádaným souborem oligonukleotidů MeSH
sekvenování transkriptomu MeSH
senioři MeSH
zárodečné mutace MeSH
židé genetika MeSH
Check Tag
lidé středního věku MeSH
lidé MeSH
mužské pohlaví MeSH
senioři MeSH
ženské pohlaví MeSH
Publikační typ
časopisecké články MeSH
práce podpořená grantem MeSH
Research Support, N.I.H., Extramural MeSH
Research Support, U.S. Gov't, Non-P.H.S. MeSH

Článek

Mendelian Randomization and mediation analysis of leukocyte telomere length and risk of lung and head and neck cancers

International journal of epidemiology. 2019 ; 48 (3) : 751-766. [pub] 20190601

Int J Epidemiol
ISSN 1464-3685
Medvik
Zdroj

BACKGROUND: Evidence from observational studies of telomere length (TL) has been conflicting regarding its direction of association with cancer risk. We investigated the causal relevance of TL for lung and head and neck cancers using Mendelian Randomization (MR) and mediation analyses. METHODS: We developed a novel genetic instrument for TL in chromosome 5p15.33, using variants identified through deep-sequencing, that were genotyped in 2051 cancer-free subjects. Next, we conducted an MR analysis of lung (16 396 cases, 13 013 controls) and head and neck cancer (4415 cases, 5013 controls) using eight genetic instruments for TL. Lastly, the 5p15.33 instrument and distinct 5p15.33 lung cancer risk loci were evaluated using two-sample mediation analysis, to quantify their direct and indirect, telomere-mediated, effects. RESULTS: The multi-allelic 5p15.33 instrument explained 1.49-2.00% of TL variation in our data (p = 2.6 × 10-9). The MR analysis estimated that a 1000 base-pair increase in TL increases risk of lung cancer [odds ratio (OR) = 1.41, 95% confidence interval (CI): 1.20-1.65] and lung adenocarcinoma (OR = 1.92, 95% CI: 1.51-2.22), but not squamous lung carcinoma (OR = 1.04, 95% CI: 0.83-1.29) or head and neck cancers (OR = 0.90, 95% CI: 0.70-1.05). Mediation analysis of the 5p15.33 instrument indicated an absence of direct effects on lung cancer risk (OR = 1.00, 95% CI: 0.95-1.04). Analysis of distinct 5p15.33 susceptibility variants estimated that TL mediates up to 40% of the observed associations with lung cancer risk. CONCLUSIONS: Our findings support a causal role for long telomeres in lung cancer aetiology, particularly for adenocarcinoma, and demonstrate that telomere maintenance partially mediates the lung cancer susceptibility conferred by 5p15.33 loci.

Článek

Systematic analyses of regulatory variants in DNase I hypersensitive sites identified two novel lung cancer susceptibility loci

Carcinogenesis. 2019 ; 40 (3) : 432-440. [pub] 20190514

ISSN 1460-2180
Medvik
Zdroj

DNase I hypersensitive sites (DHS) are abundant in regulatory elements, such as promoter, enhancer and transcription factor binding sites. Many studies have revealed that disease-associated variants were concentrated in DHS-related regions. However, limited studies are available on the roles of DHS-related variants in lung cancer. In this study, we performed a large-scale case-control study with 20 871 lung cancer cases and 15 971 controls to evaluate the associations between regulatory genetic variants in DHS and lung cancer susceptibility. The expression quantitative trait loci (eQTL) analysis and pathway-enrichment analysis were performed to identify the possible target genes and pathways. In addition, we performed motif-based analysis to explore the lung-cancer-related motifs using sequence kernel association test. Two novel variants, rs186332 in 20q13.3 (C>T, odds ratio [OR] = 1.17, 95% confidence interval [95% CI]: 1.10-1.24, P = 8.45 × 10-7) and rs4839323 in 1p13.2 (T>C, OR = 0.92, 95% CI: 0.89-0.95, P = 1.02 × 10-6) showed significant association with lung cancer risk. The eQTL analysis suggested that these two SNPs might regulate the expression of MRGBP and SLC16A1, respectively. What's more, the expression of both MRGBP and SLC16A1 was aberrantly elevated in lung tumor tissues. The motif-based analysis identified 10 motifs related to the risk of lung cancer (P < 1.71 × 10-4). Our findings suggested that variants in DHS might modify lung cancer susceptibility through regulating the expression of surrounding genes. This study provided us a deeper insight into the roles of DHS-related genetic variants for lung cancer.

Článek

Genetic interaction analysis among oncogenesis-related genes revealed novel genes and networks in lung cancer development

Oncotarget. 2019 ; 10 (19) : 1760-1774. [pub] 20190305

ISSN 1949-2553
Medvik
Zdroj

The development of cancer is driven by the accumulation of many oncogenesis-related genetic alterations and tumorigenesis is triggered by complex networks of involved genes rather than independent actions. To explore the epistasis existing among oncogenesis-related genes in lung cancer development, we conducted pairwise genetic interaction analyses among 35,031 SNPs from 2027 oncogenesis-related genes. The genotypes from three independent genome-wide association studies including a total of 24,037 lung cancer patients and 20,401 healthy controls with Caucasian ancestry were analyzed in the study. Using a two-stage study design including discovery and replication studies, and stringent Bonferroni correction for multiple statistical analysis, we identified significant genetic interactions between SNPs in RGL1:RAD51B (OR=0.44, p value=3.27x10-11 in overall lung cancer and OR=0.41, p value=9.71x10-11 in non-small cell lung cancer), SYNE1:RNF43 (OR=0.73, p value=1.01x10-12 in adenocarcinoma) and FHIT:TSPAN8 (OR=1.82, p value=7.62x10-11 in squamous cell carcinoma) in our analysis. None of these genes have been identified from previous main effect association studies in lung cancer. Further eQTL gene expression analysis in lung tissues provided information supporting the functional role of the identified epistasis in lung tumorigenesis. Gene set enrichment analysis revealed potential pathways and gene networks underlying molecular mechanisms in overall lung cancer as well as histology subtypes development. Our results provide evidence that genetic interactions between oncogenesis-related genes play an important role in lung tumorigenesis and epistasis analysis, combined with functional annotation, provides a valuable tool for uncovering functional novel susceptibility genes that contribute to lung cancer development by interacting with other modifier genes.

Publikační typ
časopisecké články MeSH

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