Grant Details
Grant Number: |
5R37CA227130-06 Interpret this number |
Primary Investigator: |
Guo, Xingyi |
Organization: |
Vanderbilt University Medical Center |
Project Title: |
Transcriptome-Wide Association Study to Identify Susceptibility Genes for Colorectal Cancer |
Fiscal Year: |
2023 |
Abstract
PROJECT SUMMARY
Genetic factors play an important role in the etiology of colorectal cancer (CRC). To date, approximately 50
genetic loci have been identified for CRC through genome-wide association studies (GWAS). However, these
loci explain only a small fraction of heritability. Moreover, target genes and underlying mechanisms for most of
these risk loci remain unclear. The large majority are noncoding variants, many of which have been shown to
regulate gene expression. Recent studies suggest that ~80% of disease heritability can be explained by
regulatory variants. However, these variants are each associated with only a small alteration in disease risk;
thus they are difficult to identify using GWAS. Recently, a novel approach, the transcriptome-wide association
study (TWAS), was developed to systematically investigate the transcriptome's association with disease risk.
In TWAS, models are built to predict gene expression with cis-SNPs using a reference transcriptome, and then
applied to GWAS data to evaluate their associations with disease risk. Here, we propose to use this innovative
approach to scan the whole transcriptome to discover novel CRC susceptibility genes and uncover likely
causal genes in loci revealed in previous GWAS. In Aim 1, we will conduct a TWAS in European descendants.
We will build expression prediction models for coding genes and non-coding RNAs in hundreds of colorectal
tissues, other multiple tissues, and cross tissues using transcriptome and high-density genotyping data from
individuals of European ancestry in the Genotype-Tissue Expression (GTEx) project. The models will be used
to predict gene expression levels using GWAS data from approximately 27,911 CRC cases and 23,059
controls included in the ColoRectal Transdisciplinary Study (CORECT) and the Genetics and Epidemiology of
Colorectal Cancer (GECCO) consortia, and then to evaluate their associations with CRC risk. In Aim 2, we will
conduct a TWAS in East-Asian descendants. We will generate transcriptome data and high-density genotyping
data from 400 CRC patients of Asian ancestry from the Asia Colorectal Cancer Consortium (ACCC). We will
use these data to build expression prediction models for coding genes and non-coding RNAs and perform a
TWAS in approximately 18,999 CRC cases and 31,269 controls from the ACCC. In Aim 3, we will experi-
mentally evaluate biological function of the top 30 genes identified in Aims 1 and 2. Based on the association
direction between their expression levels and CRC risk, we will either suppress expression using CRISPRi or
promote it using CRISPRa in multiple normal colon epithelial and CRC cell lines. We will then perform in vitro
assays and analyze bioinformatics evidence to examine the biological functions of these selected genes and to
assess their potential roles in regulating known cancer-related pathways. Our proposed study is extremely
cost-efficient, as both the transcriptome dataset (GTEx) for European descendants and the GWAS data are
already available to us. This proposed study will provide strong evidence for pinpointing CRC susceptibility
genes, thereby facilitating the translation of our findings to cancer prevention and patient care.
Publications
Large-scale alternative polyadenylation-wide association studies to identify putative cancer susceptibility genes.
Authors: Guo X.
, Ping J.
, Yang Y.
, Su X.
, Shu X.O.
, Wen W.
, Chen Z.
, Zhang Y.
, Tao R.
, Jia G.
, et al.
.
Source: Cancer Research, 2024-05-17 00:00:00.0; , .
EPub date: 2024-05-17 00:00:00.0.
PMID: 38759092
Related Citations
Large-Scale Cancer Genomic Analysis Reveals Significant Disparities between Microsatellite Instability and Tumor Mutational Burden.
Authors: Choi J.
, Park K.H.
, Kim Y.H.
, Sa J.K.
, Sung H.J.
, Chen Y.W.
, Chen Z.
, Li C.
, Wen W.
, Zhang Q.
, et al.
.
Source: Cancer Epidemiology, Biomarkers & Prevention : A Publication Of The American Association For Cancer Research, Cosponsored By The American Society Of Preventive Oncology, 2024-05-01 00:00:00.0; 33(5), p. 712-720.
PMID: 38393316
Related Citations
Fine-mapping analysis including over 254,000 East Asian and European descendants identifies 136 putative colorectal cancer susceptibility genes.
Authors: Chen Z.
, Guo X.
, Tao R.
, Huyghe J.R.
, Law P.J.
, Fernandez-Rozadilla C.
, Ping J.
, Jia G.
, Long J.
, Li C.
, et al.
.
Source: Nature Communications, 2024-04-26 00:00:00.0; 15(1), p. 3557.
EPub date: 2024-04-26 00:00:00.0.
PMID: 38670944
Related Citations
A large-scale microRNA transcriptome-wide association study identifies two susceptibility microRNAs, miR-1307-5p and miR-192-3p, for colorectal cancer risk.
Authors: Chen Z.
, Lin W.
, Cai Q.
, Kweon S.S.
, Shu X.O.
, Tanikawa C.
, Jia W.H.
, Wang Y.
, Su X.
, Yuan Y.
, et al.
.
Source: Human Molecular Genetics, 2024-02-01 00:00:00.0; 33(4), p. 333-341.
PMID: 37903058
Related Citations
Novel insights into genetic susceptibility for colorectal cancer from transcriptome-wide association and functional investigation.
Authors: Chen Z.
, Song W.
, Shu X.O.
, Wen W.
, Devall M.
, Dampier C.
, Moratalla-Navarro F.
, Cai Q.
, Long J.
, Van Kaer L.
, et al.
.
Source: Journal Of The National Cancer Institute, 2024-01-10 00:00:00.0; 116(1), p. 127-137.
PMID: 37632791
Related Citations
Racial/Ethnic and Sex Differences in Somatic Cancer Gene Mutations among Patients with Early-Onset Colorectal Cancer.
Authors: Holowatyj A.N.
, Wen W.
, Gibbs T.
, Seagle H.M.
, Keller S.R.
, Edwards D.R.V.
, Washington M.K.
, Eng C.
, Perea J.
, Zheng W.
, et al.
.
Source: Cancer Discovery, 2023-03-01 00:00:00.0; 13(3), p. 570-579.
PMID: 36520636
Related Citations
Deciphering colorectal cancer genetics through multi-omic analysis of 100,204 cases and 154,587 controls of European and east Asian ancestries.
Authors: Fernandez-Rozadilla C.
, Timofeeva M.
, Chen Z.
, Law P.
, Thomas M.
, Schmit S.
, Díez-Obrero V.
, Hsu L.
, Fernandez-Tajes J.
, Palles C.
, et al.
.
Source: Nature Genetics, 2023 Jan; 55(1), p. 89-99.
EPub date: 2022-12-20 00:00:00.0.
PMID: 36539618
Related Citations
Integrating transcription factor occupancy with transcriptome-wide association analysis identifies susceptibility genes in human cancers.
Authors: He J.
, Wen W.
, Beeghly A.
, Chen Z.
, Cao C.
, Shu X.O.
, Zheng W.
, Long Q.
, Guo X.
.
Source: Nature Communications, 2022-11-19 00:00:00.0; 13(1), p. 7118.
EPub date: 2022-11-19 00:00:00.0.
PMID: 36402776
Related Citations
Polygenic Risk Scores Associated with Tumor Immune Infiltration in Common Cancers.
Authors: Choi J.
, Kim J.S.
, Sung H.J.
, Chen Y.W.
, Chen Z.
, Wen W.
, Shu X.O.
, Guo X.
.
Source: Cancers, 2022-11-14 00:00:00.0; 14(22), .
EPub date: 2022-11-14 00:00:00.0.
PMID: 36428664
Related Citations
The putative oncogenic role of WDTC1 in colorectal cancer.
Authors: Wang X.
, Cai Q.
, Ping J.
, Diaz-Zabala H.
, Xia Y.
, Guo X.
.
Source: Carcinogenesis, 2022-06-27 00:00:00.0; 43(6), p. 594-600.
PMID: 35238908
Related Citations
Distinct Genomic Landscapes in Early-Onset and Late-Onset Endometrial Cancer.
Authors: Choi J.
, Holowatyj A.N.
, Du M.
, Chen Z.
, Wen W.
, Schultz N.
, Lipworth L.
, Guo X.
.
Source: Jco Precision Oncology, 2022 Feb; 6, p. e2100401.
PMID: 35108035
Related Citations
Genetic variations of DNA bindings of FOXA1 and co-factors in breast cancer susceptibility.
Authors: Wen W.
, Chen Z.
, Bao J.
, Long Q.
, Shu X.O.
, Zheng W.
, Guo X.
.
Source: Nature Communications, 2021-09-13 00:00:00.0; 12(1), p. 5318.
EPub date: 2021-09-13 00:00:00.0.
PMID: 34518541
Related Citations
Multi-omics analysis to identify susceptibility genes for colorectal cancer.
Authors: Yuan Y.
, Bao J.
, Chen Z.
, Villanueva A.D.
, Wen W.
, Wang F.
, Zhao D.
, Fu X.
, Cai Q.
, Long J.
, et al.
.
Source: Human Molecular Genetics, 2021-04-27 00:00:00.0; 30(5), p. 321-330.
PMID: 33481017
Related Citations
Spectrum of Somatic Cancer Gene Variations Among Adults With Appendiceal Cancer by Age at Disease Onset.
Authors: Holowatyj A.N.
, Eng C.
, Wen W.
, Idrees K.
, Guo X.
.
Source: Jama Network Open, 2020-12-01 00:00:00.0; 3(12), p. e2028644.
EPub date: 2020-12-01 00:00:00.0.
PMID: 33295976
Related Citations
Identifying novel susceptibility genes for colorectal cancer risk from a transcriptome-wide association study of 125,478 subjects.
Authors: Guo X.
, Lin W.
, Wen W.
, Huyghe J.
, Bien S.
, Cai Q.
, Harrison T.
, Chen Z.
, Qu C.
, Bao J.
, et al.
.
Source: Gastroenterology, 2020-10-12 00:00:00.0; , .
EPub date: 2020-10-12 00:00:00.0.
PMID: 33058866
Related Citations
From tobacco smoking to cancer mutational signature: a mediation analysis strategy to explore the role of epigenetic changes.
Authors: Chen Z.
, Wen W.
, Cai Q.
, Long J.
, Wang Y.
, Lin W.
, Shu X.O.
, Zheng W.
, Guo X.
.
Source: Bmc Cancer, 2020-09-14 00:00:00.0; 20(1), p. 880.
EPub date: 2020-09-14 00:00:00.0.
PMID: 32928150
Related Citations
Identifying Putative Susceptibility Genes and Evaluating Their Associations with Somatic Mutations in Human Cancers.
Authors: Chen Z.
, Wen W.
, Beeghly-Fadiel A.
, Shu X.O.
, Díez-Obrero V.
, Long J.
, Bao J.
, Wang J.
, Liu Q.
, Cai Q.
, et al.
.
Source: American Journal Of Human Genetics, 2019-07-26 00:00:00.0; , .
EPub date: 2019-07-26 00:00:00.0.
PMID: 31402092
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