Extrachromosomal DNA in the cancerous transformation of Barrett’s esophagus

Luebeck, Jens; Ng, Alvin Wei Tian; Galipeau, Patricia C.; Li, Xiaohong; Sanchez, Carissa A.; Katz-Summercorn, Annalise; Kim, Hoon; Jammula, Sriganesh; He, Yudou; Lippman, Scott M.; Verhaak, Roel G.W.; Maley, Carlo C.; Alexandrov, Ludmil B.; Reid, Brian J.; Fitzgerald, Rebecca; Paulson, Thomas G.; Chang, Howard Y.; Wu, Sihan; Bafna, Vineet; Mischel, Paul S.

doi:10.1101/2022.07.25.501144

Cited by 13 publications

(39 citation statements)

References 53 publications

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“…The slight changes of ecDNA sizes, moderate increases of mean copy numbers, and larger increases of maximum copy numbers over time (Fig. 4c) are consistent with previous discoveries obtained from patients with Barrett's oesophagus, which showed ecDNA sizes were not significantly different whereas ecDNA copy numbers became significantly higher during malignant progression [50].…”

Section: Exploration Of Long-term Evolutionary Dynamics Of Ecdnasupporting

confidence: 91%

Cell-cycle dependent DNA repair and replication unifies patterns of chromosome instability

Lu,

Winnall,

Cross

et al. 2024

Preprint

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Chromosomal instability (CIN) is pervasive in human tumours and often leads to structural or numerical chromosomal aberrations. Somatic structural variants (SVs) are intimately related to copy number alterations but the two types of variant are often studied independently. In addition, despite numerous studies on detecting various SV patterns, there are still no general quantitative models of SV generation. To address this issue, we develop a computational cell-cycle model for the generation of SVs from end-joining repair and replication after double strand break formation. Our model provides quantitative information on the relationship between breakage fusion bridge cycle, chromothripsis, seismic amplification, and extra-chromosomal circular DNA. Given single-cell whole-genome sequencing data, the model also allows us to infer important parameters in SV generation with Bayesian inference. Our quantitative framework unifies disparate genomic patterns resulted from CIN, provides a null mutational model for SV, and reveals new insights into the impact of genome rearrangement on tumour evolution.

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Section: Exploration Of Long-term Evolutionary Dynamics Of Ecdnasupporting

confidence: 91%

Cell-cycle dependent DNA repair and replication unifies patterns of chromosome instability

Lu,

Winnall,

Cross

et al. 2024

Preprint

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“…Accounting for the suggested capability to embed pathophysiologically impactful sequences, in analogy to the recently described regulator and enhancer functions of long ecDNAs in tumors [47], the modes of interaction with the linear genome will greatly broaden our understanding of small eccDNA in the context of neurological disorders. To allow conclusions in humans and to understand whether eccDNA can be an early causal event in ALS, as suggested for cancer [103], future investigations are required.…”

Section: Discussionmentioning

confidence: 99%

'A distinct circular DNA profile intersects with proteome changes in the genotoxic stress-related hSOD1G93A model of ALS'

Gerovska,

Noer,

Qin

et al. 2023

Preprint

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Background Numerous genes, including SOD1, mutated in familial and sporadic amyotrophic lateral sclerosis (f/sALS) share a role in DNA damage and repair, emphasizing genome disintegration in ALS. One possible outcome of chromosomal instability and repair processes is extrachromosomal circular DNA (eccDNA) formation. Therefore, eccDNA might accumulate in f/sALS with yet unknown function. Methods We combined rolling circle amplification with linear DNA digestion to purify eccDNA from the cervical spinal cord of 9 co-isogenic symptomatic hSOD1G93A mutants and 10 controls, followed by deep short-read sequencing. We mapped the eccDNAs and performed differential analysis based on the split read signal of the eccDNAs, referred as DifCir, between the ALS and control specimens, to find differentially produced per gene circles (DPpGC) in the two groups. Compared were eccDNA abundances, length distributions and genic profiles. We further assessed proteome alterations in ALS by mass spectrometry, and matched the DPpGCs with differentially expressed proteins (DEPs) in ALS. Additionally, we aligned the ALS-specific DPpGCs to ALS risk gene databases. Results We found a six-fold enrichment in the number of unique eccDNAs in the genotoxic ALS-model relative to controls. We uncovered a distinct genic circulome profile characterized by 225 up-DPpGCs, i.e., genes that produced more eccDNAs from distinct gene sequences in ALS than under control conditions. The inter-sample recurrence rate was at least 89% for the top 6 up-DPpGCs. ALS proteome analyses revealed 42 corresponding DEPs, of which 19 underlying genes were itemized for an ALS risk in GWAS databases. The up-DPpGCs and their DEP tandems mainly impart neuron-specific functions, and gene set enrichment analyses indicated an overrepresentation of the adenylate cyclase modulating g protein pathway. Conclusions We prove, for the first time, a significant enrichment of eccDNA in the ALS-affected spinal cord. Our triple circulome, proteome and genome approach provide indication for a potential importance of certain eccDNAs in ALS neurodegeneration and a yet unconsidered role as ALS biomarkers. The related functional pathways might open up new targets for therapeutic intervention.

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“…The detected amplicons were annotated with the NCBI RefSeqGene database (GRCh38). AmpliconClassifier (AC) (version 0.4.9, https://github.com/jluebeck/AmpliconClassifier) (Luebeck et al, 2022) was then performed to classify the AA output data into different types of focal amplifications (including BFB, Circular, Heavily-rearranged, and Linear) and to extract coordinates of the genomic regions corresponding to those amplicons. Following previous procedures, amplicons and tumor samples were divided into different groups for further comparative analysis (Kim et al, 2020).…”

Section: Detection Of Focal Amplifications With Ampliconarchitectmentioning

confidence: 99%

Extrachromosomal Circular DNA Orchestrates Genome Heterogeneity and Outcome in Urothelial Bladder Carcinoma

Pan

Han

et al. 2023

Preprint

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Extrachromosomal circular DNA (circulome) is a newly evolved hallmark in cancer whereas its role in shaping the cancer genome heterogeneity is yet to be sufficiently understood. Here, we comprehensively characterize and exploit the circulome-associated genome heterogeneity in 80 urothelial bladder carcinoma (UBC) patients by whole-genome/exome sequencing, Circle-Seq, long-read sequencing, and RNA-seq. Our results reveal a high load and heterogeneity of UBC circulome. Many single locus and chimeric circular DNAs originating from different chromosomes are identified, including extremely chimeric circular DNAs carrying seven oncogenes and circles from nine chromosomes. Circular DNAs contribute to increased oncogene dosage and could influence genome-wide gene expression. Increased expression of DNA repair genes (LIG3, POLQ, BRCA1, and BRCA2) promote circulome generation in UBCs. The circulome is in cis correlated with hypermutation (kataegis), copy number variation, oncogene amplification, structure variation, and poor clinical outcome. These results strongly support circulome associations with UBC genome heterogeneity, progression, and outcome.

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Extrachromosomal DNA in the cancerous transformation of Barrett’s esophagus

Cited by 13 publications

References 53 publications

Cell-cycle dependent DNA repair and replication unifies patterns of chromosome instability

Cell-cycle dependent DNA repair and replication unifies patterns of chromosome instability

'A distinct circular DNA profile intersects with proteome changes in the genotoxic stress-related hSOD1G93A model of ALS'

Extrachromosomal Circular DNA Orchestrates Genome Heterogeneity and Outcome in Urothelial Bladder Carcinoma

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