Project description:Mutational profiling across premalignant colorectal neoplasia

Project description:Implications of epigenetic drift in colorectal neoplasia

Project description:Our analysis reveals an extensive methylomic drift between normal squamous esophagus and BE tissues in nonprogressed BE patients, with differential drift affecting 4024 (24%) of 16,984 normally hypomethylated cytosine-guanine dinucleotides (CpGs) occurring in CpG islands. The majority (63%) of islands that include drift CpGs are associated with gene promoter regions. Island CpGs that drift have stronger pairwise correlations than static islands, reflecting collective drift consistent with processive DNA methylation maintenance. Individual BE tissues are extremely heterogeneous in their distribution of methylomic drift and encompass unimodal low-drift to bimodal high-drift patterns, reflective of differences in BE tissue age. Further analysis of longitudinally collected biopsy samples from 20 BE patients confirm the time-dependent evolution of these drift patterns. Drift patterns in EAC are similar to those in BE, but frequently exhibit enhanced bimodality and advanced mode drift. To better understand the observed drift patterns, we developed a multicellular stochastic model at the CpG island level. Importantly, we find that nonlinear feedback in the model between mean island methylation and CpG methylation rates is able to explain the widely heterogeneous collective drift patterns. Using matched gene expression and DNA methylation data in EAC from TCGA and other publically available data, we also find that advanced methylomic drift is correlated with significant transcriptional repression of ~ 200 genes in important regulatory and developmental pathways, including several checkpoint and tumor suppressor-like genes. Taken together, our findings suggest that epigenetic drift evolution acts to significantly reduce the expression of developmental genes that may alter tissue characteristics and improve functional adaptation during BE and EAC progression.

Project description:Colorectal cancer (CRC) is the third leading cause of cancer mortality worldwide. Different pathological pathways and molecular drivers have been described and some of the associated markers are used to select effective anti-neoplastic therapy. This dataset is part of ColPortal, a platform that integrates transcriptomic, microtranscriptomic, methylomic and microbiota data of patients with colorectal cancer. ColPortal also includes information of histological features and digital histological slides from the study cases.

Project description:Patients with ulcerative colitis (UC) are at increased risk for colorectal cancer although mechanisms remain poorly understood. We sought to evaluate the role of miRNAs in neoplasia development in this high-risk population RNA was extracted from formalin fixed paraffin embedded tissue from  controls (n=12), UC without neoplasia (UC, n=9), UC-associated neoplastic tissue (UCN, n=10; HGD-4, CRC-6) and adjacent tissue (n=9). miRNA array analysis was performed using the Nanostring nCounter System v1

Project description:Colorectal cancer (CRC) is the third leading cause of cancer mortality worldwide. Different pathological pathways and molecular drivers have been described and some of the associated markers are used to select effective anti-neoplastic therapy. This dataset is part of ColPortal, a platform that integrates transcriptomic, microtranscriptomic, methylomic and microbiota data of patients with colorectal cancer. ColPortal also includes detailed information of histological features and digital histological slides from the study cases, since histology is a morphological manifestation of a complex molecular change.

Project description:Colorectal cancer (CRC) is the third leading cause of cancer mortality worldwide. Different pathological pathways and molecular drivers have been described and some of the associated markers are used to select effective anti-neoplastic therapy. This dataset is part of ColPortal, a platform that integrates transcriptomic, microtranscriptomic, methylomic and microbiota data of patients with colorectal cancer. ColPortal also includes detailed information of histological features and digital histological slides from the study cases, since histology is a morphological manifestation of a complex molecular change.

Project description:Laterally spreading tumors (LSTs) are colorectal adenomas that develop into extremely large lesions but rarely become malignant. Elucidating their molecular profiles, and how these contrast with colorectal cancer (CRC), offers the opportunity to understand their biology and how they are able to grow to such large lesions without progressing to cancer. Profiling of 11 LSTs with multiple genome-wide approaches showed mutation rates comparable with microsatellite stable CRCs at 2.4 versus 2.6 mutations per megabase respectively, however copy number alterations are infrequent (averaging 1.5 per LST). Only 28.5% of genes with promoter CpG island hypermethylation showed >2-fold downregulation of expression in LST tissue relative to paired normal mucosa. Integration of genetic and epigenetic data identified driver genes not previously implicated in colorectal neoplasia (ANO5, MED12L, EPB41L4A, RGMB, SLITRK1, NRXN1, ANK2), including genes targeted by both genetic and epigenetic alterations. Alterations to pathways commonly mutated in CRCs, namely the p53, PI3K and TGFb pathways, are rare. Instead LST-altered genes converge on axonal guidance, Wnt and actin cytoskeleton signalling. Non-granular morphology, which is associated with an elevated risk of cancer, correlates with low frequencies of epigenetic inactivation and KRAS mutations and the hyperactivation of CXCR4 signalling. These data show that mutation load is a poor predictor of invasive potential and that genomic structural aberrations or alterations in key pathways is important in progression to cancer. By integrating genetic, epigenetic and transcriptional data this study identifies novel genes important in early colorectal neoplasia.

Project description:We performed shotgun proteomics of colorectal cancer tissue and premalignant lesions using iTRAQ to identify biomarker candidate proteins for colorectal cancer.

Project description:The concept of the CpG island methylator phenotype (CIMP) in colorectal cancers (CRCs) is widely accepted, though the timing of its occurrence and its interaction with other genetic defects early during carcinogenesis remains largely unknown. Our aim was to uncover the molecular evolution of CIMP CRCs through integrative analysis of endoscopic, histological and molecular signatures in precancerous and malignant colorectal lesions. A total of 84 endoscopically obtained human colorectal tumor was analyzed using Agilent CGH microarray. Copy number aberration was compared with clinicopathological features and DNA methylation status.