Your search keyword '"EXTRACHROMOSOMAL DNA"' showing total 4,393 results

1. Cell-free and extrachromosomal DNA profiling of small cell lung cancer

Author

Behrouzi, Roya, Clipson, Alexandra, Simpson, Kathryn L., Blackhall, Fiona, Rothwell, Dominic G., Dive, Caroline, and Mouliere, Florent

Published

2025

2. Complex structural variation is prevalent and highly pathogenic in pediatric solid tumors

Author

van Belzen, Ianthe A.E.M., van Tuil, Marc, Badloe, Shashi, Janse, Alex, Verwiel, Eugène T.P., Santoso, Marcel, de Vos, Sam, Baker-Hernandez, John, Kerstens, Hindrik H.D., Solleveld-Westerink, Nienke, Meister, Michael T., Drost, Jarno, van den Heuvel-Eibrink, Marry M., Merks, Johannes H.M., Molenaar, Jan J., Peng, Weng Chuan, Tops, Bastiaan B.J., Holstege, Frank C.P., Kemmeren, Patrick, and Hehir-Kwa, Jayne Y.

Published

2024

3. Long-read sequencing of an advanced cancer cohort resolves rearrangements, unravels haplotypes, and reveals methylation landscapes

Author

O’Neill, Kieran, Pleasance, Erin, Fan, Jeremy, Akbari, Vahid, Chang, Glenn, Dixon, Katherine, Csizmok, Veronika, MacLennan, Signe, Porter, Vanessa, Galbraith, Andrew, Grisdale, Cameron J., Culibrk, Luka, Dupuis, John H., Corbett, Richard, Hopkins, James, Bowlby, Reanne, Pandoh, Pawan, Smailus, Duane E., Cheng, Dean, Wong, Tina, Frey, Connor, Shen, Yaoqing, Lewis, Eleanor, Paulin, Luis F., Sedlazeck, Fritz J., Nelson, Jessica M.T., Chuah, Eric, Mungall, Karen L., Moore, Richard A., Coope, Robin, Mungall, Andrew J., McConechy, Melissa K., Williamson, Laura M., Schrader, Kasmintan A., Yip, Stephen, Marra, Marco A., Laskin, Janessa, and Jones, Steven J.M.

Published

2024

4. Transcriptional immune suppression and up-regulation of double-stranded DNA damage and repair repertoires in ecDNA-containing tumors.

Author

Lin, Miin, Jo, Se-Young, Luebeck, Jens, Chang, Howard, Wu, Sihan, Mischel, Paul, and Bafna, Vineet

Subjects

cancer, chromosomes, ecDNA, extrachromosomal DNA, gene expression, human, transcriptomics, Humans, DNA Repair, DNA Damage, Neoplasms, Up-Regulation, Gene Expression Regulation, Neoplastic, Transcription, Genetic

Abstract

Extrachromosomal DNA is a common cause of oncogene amplification in cancer. The non-chromosomal inheritance of ecDNA enables tumors to rapidly evolve, contributing to treatment resistance and poor outcome for patients. The transcriptional context in which ecDNAs arise and progress, including chromosomally-driven transcription, is incompletely understood. We examined gene expression patterns of 870 tumors of varied histological types, to identify transcriptional correlates of ecDNA. Here, we show that ecDNA-containing tumors impact four major biological processes. Specifically, ecDNA-containing tumors up-regulate DNA damage and repair, cell cycle control, and mitotic processes, but down-regulate global immune regulation pathways. Taken together, these results suggest profound alterations in gene regulation in ecDNA-containing tumors, shedding light on molecular processes that give rise to their development and progression.

Published

2024

5. EccDNA in plant-stress and biotechnological solutions in agriculture.

Author

Mohan, Binoop, Thingujam, Doni, Pajerowska-Mukhtar, Karolina M., and Mukhtar, Muhammad Shahid

Subjects

*BIOENGINEERING, *BIOTECHNOLOGY, *EXTRACHROMOSOMAL DNA, *GENETIC engineering, *AGRICULTURAL biotechnology

Abstract

Extrachromosomal circular DNA (eccDNA) is genetic material that exists outside of chromosomes and holds potential for next-generation genetic engineering in plant biology. By improving plant resilience, growth, and productivity, eccDNA offers a promising solution to global challenges in food security and environmental sustainability, making this a transformative era in agricultural biotechnology. [ABSTRACT FROM AUTHOR]

Published

2024

6. Integrating Circle-Seq with transcriptomics reveals genome-wide characterization of extrachromosomal circular DNA for dilated cardiomyopathy.

Author

Lin, Zhenhao, Dai, Fangjie, Li, Bo, Zhao, Yongchao, and Wang, Changqian

Subjects

*EXTRACHROMOSOMAL DNA, *CIRCULAR DNA, *GENE expression, *HEART failure, *DILATED cardiomyopathy

Abstract

Background: Extrachromosomal circular DNAs (eccDNAs) are commonly found in various tumors and play a critical role in promoting oncogenesis. However, little is known about the characteristics and nature of eccDNAs in human heart failure. The aim of this study was to comprehensively analyze eccDNAs in human heart failure caused by dilated cardiomyopathy (DCM) and explore their potential functions. Methods: Circle-Seq and RNA-Seq were performed in cardiac tissue samples obtained from patients with DCM and healthy controls to identify eccDNAs and corresponding genes. Inward PCR, outward PCR and Sanger sequencing were conducted to validate the circular structure of eccDNAs. Bioinformatics was employed to probe the transcriptional activity of eccDNAs and their potential roles in the development of DCM. Ligase assisted minicircle accumulation strategy was used to synthesize a 500 bp circular DNA with a random sequence. Results: EccDNAs originated from all chromosomes, with the majority being less than 1 kb in size and about half containing genes or gene fragments. They were derived from specific repeat elements and primarily mapped to 5′UTR, 3′UTR, and CpG islands. Gene-rich chromosomes 17 and 19 exhibited higher eccDNA enrichment. Sequence motifs flanking eccDNA junction sites displayed frequent nucleotide repeats. The circular structure of eccDNAs were confirmed. Integration of Circle-Seq and RNA-Seq data identified that large eccDNAs can be directly transcribed in non-dividing cardiomyocytes, indicating their potential roles in gene expression. Small circular DNA elicited a stronger cytokine response than linear DNA with the same sequence. Conclusions: Our work provided a detailed profiling of eccDNAs in both healthy and DCM hearts and demonstrated the potential functions of both large and small eccDNAs. These findings enhance the comprehension of the role of eccDNAs in cardiac pathophysiology and establish a theoretical foundation for future investigations on eccDNAs in DCM. [ABSTRACT FROM AUTHOR]

Published

2024

7. Extrachromosomal circular DNA containing DTX1 promotes cell growth in hydroquinone-induced malignantly transformed cells by regulating the transcription of DTX1.

Author

Ling, Xiaoxuan, Jiao, Qunfang, Lin, Daifan, Chen, Jialong, Han, Yali, Meng, Jinxue, Zhong, Bohuan, Zhang, He, Zhang, Gongda, Zhu, Fangling, Qin, Jiheng, Ruan, Yongdui, and Liu, Linhua

Subjects

*EXTRACHROMOSOMAL DNA, *GENE expression, *CIRCULAR DNA, *GENETIC transcription, *CHROMOSOMES

Abstract

Background: Extrachromosomal circular DNA (eccDNA), a novel class of DNA with a circular topological structure, is present in a variety of cancer cells and tissues and may play broad roles in processes ranging from aging to cancer cell heterogeneity through multiple mechanisms. EccDNA has been characterized by profile, structure and function in several prominent studies but its effect on hydroquinone (HQ)-induced malignantly transformed cells (TK6-HQ) is still elusive. Methods: Circle-seq was applied to determine the eccDNA counts and characteristics of TK6-HQ cells. DNA-fluorescence in situ hybridization was used to measure the abundance of eccDNA_DTX1. Differential gene expression analysis was carried out by RNA-seq. Gene expression was quantified by wertern blot and qPCR. Decircularization of eccDNA_DTX1 was achieved by CRISPR/Cas9. Tumorigenicity was evaluated by xenograft assay in BALB/c nude mice. Results: In this study, we characterized the structure of eccDNAs and the function of DTX1-containing eccDNA (eccDNA_DTX1) in TK6-HQ cells. A total of 669,179 eccDNAs were identified, including 901 eccDNAs with different counts. Most of the eccDNAs were < 1000 bp in length and were enriched in four periodic peaks starting at 186 bp with an interval of ~ 180 bp. The genomic distribution of eccDNAs confirmed that eccDNAs could be observed across all chromosomes and had greater enrichment on chromosomes 17, 19, 20, and 22, with abundant Alu repeat elements, introns and CpG islands. By combining the results of the integrated circle-seq analysis of eccDNAs with those from the RNA-seq analysis (differentially expressed genes, 1064 upregulated and 427 downregulated), the authors showed that the transcription of 20 potential coding genes might be driven by eccDNAs. Finally, the knockdown of eccDNA_DTX1 by CRISPR/Cas9 inhibited the growth of TK6-HQ cells in vitro and in vivo by inhibiting the transcription of DTX1 and promoting ferroptosis, and ferroptosis inhibior, Ferrostatin-1, abrogated the proliferation inhibition of eccDNA_DTX1 knockdown. Conclusions: EccDNA_DTX1 promotes cell growth in hydroquinone-induced malignantly transformed cells by regulating the transcription of DTX1 and ferroptosis. This study profiles eccDNA characteristics and defines the role and mechanism of eccDNA_DTX1 for the first time, shedding new light on the relationship between eccDNAs and carcinogenesis. [ABSTRACT FROM AUTHOR]

Published

2024

8. Horizontal transfer of plasmid-like extrachromosomal circular DNAs across graft junctions in Solanaceae.

Author

Zhang, Aijun, Wang, Tingjin, Yuan, Lu, Shen, Yuxin, Liu, Ke, Liu, Bin, Xu, Kexin, Elsadek, Mohamed A., Wang, Yiting, Wu, Liang, Qi, Zhenyu, Yu, Jingquan, Zhang, Mingfang, and Chen, Liping

Subjects

*EXTRACHROMOSOMAL DNA, *CIRCULAR DNA, *NUCLEAR DNA, *GENETIC variation, *CHROMOSOMES

Abstract

The transfer of genetic material between stocks and scions of grafted plants has been extensively studied; however, the nature and frequency of the transferred material remain elusive. Here, we report a grafting system involving woody goji as the stock and herbaceous tomato as the scion, which was developed using in vitro and in vivo approaches; the results confirmed horizontal transfer of multiple nuclear DNA fragments from donor goji cells to recipient tomato cells. Tomato tissues containing goji donor DNA fragments at or near the grafting junctions had a perennial-biased anatomical structure, from which roots or shoots were regenerated. Most of the fragments were plasmid-like extrachromosomal circular DNAs (eccDNAs) present in the regenerants derived from the cells and in their asexual offspring. Plants with transferred eccDNAs in regenerated roots or shoots (designated "Go-tomato") were grown perennially and showed excellent agronomic performance. The present study provides new insights into the replication, expression, and potential function of eccDNAs in the pleiotropic traits of Go-tomato. Mobile eccDNAs offer evidence of stock-to-scion horizontal DNA transfer beyond chromosomes and organelles, thereby contributing to the molecular understanding of graft-induced genetic variation, evolution, and breeding. [ABSTRACT FROM AUTHOR]

Published

2024

9. Multi-omic and single-cell profiling of chromothriptic medulloblastoma reveals genomic and transcriptomic consequences of genome instability.

Author

Smirnov, Petr, Przybilla, Moritz J., Simovic-Lorenz, Milena, Parra, R. Gonzalo, Susak, Hana, Ratnaparkhe, Manasi, Wong, John KL., Körber, Verena, Mallm, Jan-Philipp, Philippos, George, Sill, Martin, Kolb, Thorsten, Kumar, Rithu, Casiraghi, Nicola, Okonechnikov, Konstantin, Ghasemi, David R., Maaß, Kendra Korinna, Pajtler, Kristian W., Jauch, Anna, and Korshunov, Andrey

Subjects

NEURAL stem cells, EXTRACHROMOSOMAL DNA, CIRCULAR DNA, GENOMICS, LI-Fraumeni syndrome

Abstract

Chromothripsis is a frequent form of genome instability, whereby a presumably single catastrophic event generates extensive genomic rearrangements of one or multiple chromosome(s). However, little is known about the heterogeneity of chromothripsis across different clones from the same tumour, as well as changes in response to treatment. Here we analyse single-cell genomic and transcriptomic alterations linked with chromothripsis in human p53-deficient medulloblastoma and neural stem cells (n = 9). We reconstruct the order of somatic events, identify early alterations likely linked to chromothripsis and depict the contribution of chromothripsis to malignancy. We characterise subclonal variation of chromothripsis and its effects on extrachromosomal circular DNA, cancer drivers and putatively druggable targets. Furthermore, we highlight the causative role and the fitness consequences of specific rearrangements in neural progenitors. Chromothripsis (CT) is a type of genome instability which is prevalent in medulloblastoma with germline TP53 mutations (Li-Fraumeni syndrome, LFS). Here the authors combine single-cell genomic and transcriptomic analyses to reveal the clonal heterogeneity and functional consequences of CT in LFS medulloblastoma. [ABSTRACT FROM AUTHOR]

Published

2024

10. Diverse Genome Structures among Eukaryotes May Have Arisen in Response to Genetic Conflict.

Author

Sterner, Elinor G, Cote-L'Heureux, Auden, Maurer-Alcalá, Xyrus X, and Katz, Laura A

Subjects

*EXTRACHROMOSOMAL DNA, *DIPLOIDY, *HAPLOIDY, *CONFLICT transformation, *POLYPLOIDY

Abstract

In contrast to the typified view of genome cycling only between haploidy and diploidy, there is evidence from across the tree of life of genome dynamics that alter both copy number (i.e. ploidy) and chromosome complements. Here, we highlight examples of such processes, including endoreplication, aneuploidy, inheritance of extrachromosomal DNA, and chromatin extrusion. Synthesizing data on eukaryotic genome dynamics in diverse extant lineages suggests the possibility that such processes were present before the last eukaryotic common ancestor. While present in some prokaryotes, these features appear exaggerated in eukaryotes where they are regulated by eukaryote-specific innovations including the nucleus, complex cytoskeleton, and synaptonemal complex. Based on these observations, we propose a model by which genome conflict drove the transformation of genomes during eukaryogenesis: from the origin of eukaryotes (i.e. first eukaryotic common ancestor) through the evolution of last eukaryotic common ancestor. [ABSTRACT FROM AUTHOR]

Published

2024

11. NCERT XTRACT.

Subjects

CHEMICAL testing, DNA restriction enzymes, ANTISENSE DNA, EXTRACHROMOSOMAL DNA, PALINDROMIC DNA, MILK proteins, TOXINS

Abstract

The article focuses on various biotechnology topics, including plasmids, micropropagation, and recombinant DNA technology. Topics include plasmids as extra-chromosomal DNA molecules that can replicate independently and act as vectors, advantages of micropropagation for growing disease-free and seedless plants, and methods like the Polymerase Chain Reaction (PCR) for synthesizing multiple copies of a gene.

Published

2024

12. Check Your Vitals for NEET CLASS XII.

Subjects

MOBILE genetic elements, DNA ligases, DNA restriction enzymes, EXTRACHROMOSOMAL DNA, PALINDROMIC DNA, REVERSE transcriptase, VITAMIN A

Abstract

The article focuses on providing a systematic approach to preparing for medical entrance exams by offering a chapterwise question bank and categorizing questions based on the number of concepts required.

Published

2024

13. Diverse new plasmid structures and antimicrobial resistance in strains isolated from perianal abscess patients.

Author

Zhen Xu, Lulu Shi, Tao Meng, Mei Luo, Jiaming Zhu, Mingyu Wang, and Wenlong Shen

Subjects

BACTERIAL genetics, EXTRACHROMOSOMAL DNA, WHOLE genome sequencing, BACTERIOLOGY, BACTERIAL DNA

Abstract

Introduction: Plasmids, the most important and versatile bacterial extrachromosomal DNA Molecules, has have been a center central topic for bacterial genetics and biology. However, the inability of short-read high-throughput sequencing methods to reliably assemble plasmids makes it difficult to investigate the diversity of plasmid structures and functions. Methods: In this work, we used the long-read Nanopore sequencing method to address this issue, by producing high quality whole genome sequences of 33 bacterial strains from 11 perianal abscess-suffering patients. Results and discussion: Successful high quality assemblies were generated with this method, including 20 perfect assemblies out of 33 genomes. A total of 47 plasmids were identified from the bacterial strains, including 12 unique, newly identified, high quality circular plasmids. These plasmids were further subject to structural analysis, leading to the finding of significant diversification from previously known plasmids, suggesting the diversity of plasmid structure and function. Particularly, two mcr-10.1-harboring conjugative plasmids were found from Citrobacter portucalensis and Enterobacter kobei, which were not previously reported. This works shows the feasibility of using long-read sequencing to identify plasmids, and the high diversity of plasmid structure and function that awaits further surveillance. [ABSTRACT FROM AUTHOR]

Published

2024

14. Genomic landscape of adult testicular germ cell tumours in the 100,000 Genomes Project.

Author

Ní Leathlobhair, Máire, Frangou, Anna, Kinnersley, Ben, Cornish, Alex J., Chubb, Daniel, Lakatos, Eszter, Arumugam, Prabhu, Gruber, Andreas J., Law, Philip, Tapinos, Avraam, Jakobsdottir, G. Maria, Peneva, Iliana, Sahli, Atef, Smyth, Evie M., Ball, Richard Y., Sylva, Rushan, Benes, Ksenija, Stark, Dan, Young, Robin J., and Lee, Alexander T. J.

Subjects

HLA histocompatibility antigens, DNA analysis, EXTRACHROMOSOMAL DNA, WHOLE genome sequencing, GERM cells

Abstract

Testicular germ cell tumours (TGCT), which comprise seminoma and non-seminoma subtypes, are the most common cancers in young men. In this study, we present a comprehensive whole genome sequencing analysis of adult TGCTs. Leveraging samples from participants recruited via the UK National Health Service and data from the Genomics England 100,000 Genomes Project, our results provide an extended description of genomic elements underlying TGCT pathogenesis. This catalogue offers a comprehensive, high-resolution map of copy number alterations, structural variation, and key global genome features, including mutational signatures and analysis of extrachromosomal DNA amplification. This study establishes correlations between genomic alterations and histological diversification, revealing divergent evolutionary trajectories among TGCT subtypes. By reconstructing the chronological order of driver events, we identify a subgroup of adult TGCTs undergoing relatively late whole genome duplication. Additionally, we present evidence that human leukocyte antigen loss is a more prevalent mechanism of immune disruption in seminomas. Collectively, our findings provide valuable insights into the developmental and immune modulatory processes implicated in TGCT pathogenesis and progression. Testicular germ cell tumours (TGCT) are the most common cancers in young men. Here, the authors analyse the genomic landscape of TGCT using data from the Genomics England 100,000 Genomes Project, revealing divergent evolutionary trajectories and the prevalence of human leukocyte antigen loss. [ABSTRACT FROM AUTHOR]

Published

2024

15. WRN Nuclease‐Mediated EcDNA Clearance Enhances Antitumor Therapy in Conjunction with Trehalose Dimycolate/Mesoporous Silica Nanoparticles.

Author

Li, Yinan, Huang, Xiu, Li, Yingying, Qiao, Qingqing, Chen, Caihong, Chen, Yang, Zhong, Weilong, Liu, Huijuan, and Sun, Tao

Subjects

*EXTRACHROMOSOMAL DNA, *PULMONARY fibrosis, *MESOPOROUS silica, *SILICA nanoparticles, *CELL transformation

Abstract

Current research on tumor fibrosis has focused on cancer‐associated fibroblasts, which may exert dual functions of tumor promotion and inhibition. Little attention has been paid to whether tumor cells themselves can undergo fibrotic transformation and whether they can inhibit parenchymal cells similar to pulmonary fibrosis, thus achieving the goal of inhibiting the malignant progression of tumors. To explore the significance of inducing tumor fibrosis for cancer treatment. This study utilizes mesoporous silica nanoparticles (MSN) loaded with Trehalose dimycolate (TDM) to induce tumor cell fibrosis through the dual effects of TDM‐induced inflammatory granuloma and MSN‐induced foreign body granuloma. The results show that TDM/MSN (TM) can effectively induce tumor fibrosis, manifested specifically by collagen internalization, and suppression of proliferation and invasion capabilities, suggesting the potential role of tumor fibrosis therapy. However, further investigation reveals that extrachromosomal DNA (ecDNA) mediates resistance to fibrosis induction. To comprehensively enhance the efficacy, WRN exonuclease is conjugated to TM to form new nanoparticles (TMW) capable of effectively eliminating ecDNA, globally promoting tumor cell fibroblast‐like transformation, and validated in a PDX model to inhibit cancer progression. Therefore, TMW, through inducing tumor cell fibrosis to inhibit its malignant progression, holds great potential as a clinical treatment strategy. [ABSTRACT FROM AUTHOR]

Published

2024

16. The role of the hepatitis B virus genome and its integration in the hepatocellular carcinoma.

Author

Weiyang Li, Suhao Wang, Yani Jin, Xiao Mu, Zhenzhen Guo, Sen Qiao, Shulong Jiang, Qingbin Liu, and Xiaofang Cui

Subjects

HEPATITIS B, HEPATITIS B virus, EXTRACHROMOSOMAL DNA, VIRAL genomes, LIVER cancer

Abstract

The integration of Hepatitis B Virus (HBV) is now known to be closely associated with the occurrence of liver cancer and can impact the functionality of liver cells through multiple dimensions. However, despite the detailed understanding of the characteristics of HBV integration and the mechanisms involved, the subsequent effects on cellular function are still poorly understood in current research. This study first systematically discusses the relationship between HBV integration and the occurrence of liver cancer, and then analyzes the status of the viral genome produced by HBV replication, highlighting the close relationship and structure between double-stranded linear (DSL)-HBV DNA and the occurrence of viral integration. The integration of DSL-HBV DNA leads to a certain preference for HBV integration itself. Additionally, exploration of HBV integration hotspots reveals obvious hotspot areas of HBV integration on the human genome. Virus integration in these hotspot areas is often associated with the occurrence and development of liver cancer, and it has been determined that HBV integration can promote the occurrence of cancer by inducing genome instability and other aspects. Furthermore, a comprehensive study of viral integration explored the mechanisms of viral integration and the internal integration mode, discovering that HBV integration may form extrachromosomal DNA (ecDNA), which exists outside the chromosome and can integrate into the chromosome under certain conditions. The prospect of HBV integration as a biomarker was also probed, with the expectation that combining HBV integration research with CRISPR technology will vigorously promote the progress of HBV integration research in the future. In summary, exploring the characteristics and mechanisms in HBV integration holds significant importance for an in-depth comprehension of viral integration. [ABSTRACT FROM AUTHOR]

Published

2024

17. The Fanconi anemia pathway induces chromothripsis and ecDNA-driven cancer drug resistance.

Author

Engel, Justin L., Zhang, Xiao, Wu, Mingming, Wang, Yan, Espejo Valle-Inclán, Jose, Hu, Qing, Woldehawariat, Kidist S., Sanders, Mathijs A., Smogorzewska, Agata, Chen, Jin, Cortés-Ciriano, Isidro, Lo, Roger S., and Ly, Peter

Subjects

*EXTRACHROMOSOMAL DNA, *DRUG resistance in cancer cells, *FANCONI'S anemia, *GENETIC testing, *DOUBLE-strand DNA breaks, *DNA repair

Abstract

Chromothripsis describes the catastrophic shattering of mis-segregated chromosomes trapped within micronuclei. Although micronuclei accumulate DNA double-strand breaks and replication defects throughout interphase, how chromosomes undergo shattering remains unresolved. Using CRISPR-Cas9 screens, we identify a non-canonical role of the Fanconi anemia (FA) pathway as a driver of chromothripsis. Inactivation of the FA pathway suppresses chromosome shattering during mitosis without impacting interphase-associated defects within micronuclei. Mono-ubiquitination of FANCI-FANCD2 by the FA core complex promotes its mitotic engagement with under-replicated micronuclear chromosomes. The structure-selective SLX4-XPF-ERCC1 endonuclease subsequently induces large-scale nucleolytic cleavage of persistent DNA replication intermediates, which stimulates POLD3-dependent mitotic DNA synthesis to prime shattered fragments for reassembly in the ensuing cell cycle. Notably, FA-pathway-induced chromothripsis generates complex genomic rearrangements and extrachromosomal DNA that confer acquired resistance to anti-cancer therapies. Our findings demonstrate how pathological activation of a central DNA repair mechanism paradoxically triggers cancer genome evolution through chromothripsis. [Display omitted] • The FA pathway promotes the catastrophic shattering of micronuclear chromosomes • SLX4-XPF-ERCC1 cleaves mitotic DNA replication intermediates from micronuclei • MiDAS facilitates the mutagenic reassembly of shattered chromosomes in interphase • FA-induced mitotic shattering drives genome rearrangements and ecDNA formation A genetic screen uncovers the Fanconi anemia pathway as a driver of chromothripsis by shattering under-replicated micronuclear chromosomes during mitosis. This process involves chromosome-scale cleavage by the SLX4-XPF-ERCC1 endonuclease coupled to mitotic DNA synthesis, resulting in complex rearrangements and ecDNAs that fuel cancer genome evolution and/or resistance to anti-cancer therapies. [ABSTRACT FROM AUTHOR]

Published

2024

18. Characterization and functional analysis of extrachromosomal circular DNA discovered from circulating extracellular vesicles in liver failure.

Author

Qian, Yongbing, Hong, Xiaoning, Yu, Yang, Du, Cong, Li, Jing, Yu, Jiaying, Xiao, Wenjun, Chen, Chen, Huang, Defa, Zhong, Tianyu, Li, Jiang, Xiang, Xi, and Li, Zhigang

Subjects

*GENE expression, *EXTRACHROMOSOMAL DNA, *RIBONUCLEASE A, *CIRCULAR DNA, *LIVER failure

Abstract

The article in the Clinical & Translational Medicine journal explores the characterization and functional analysis of extrachromosomal circular DNA (eccDNA) found in circulating extracellular vesicles (EVs) in liver failure. The study involved 22 participants, including patients with liver failure and healthy individuals, and identified that liver failure patients had a higher abundance of EVs carrying eccDNAs compared to healthy controls. The research also synthesized artificial eccDNAs and found that eccZMIZ1-AS1 regulated specific signaling pathways in liver cells, potentially impacting liver failure pathogenesis. Further investigation is needed to understand the mechanisms by which eccDNA influences liver failure. [Extracted from the article]

Published

2024

19. 2024 Lasker Award Recipient Zhijian Chen elucidates how DNA stimulates immunity.

Author

Heimberger, Amy B.

Subjects

*IMMUNE checkpoint proteins, *CHECKPOINT kinase 2, *HUMAN herpesvirus 1, *MOLECULAR biology, *EXTRACHROMOSOMAL DNA

Abstract

The article explores the research of Dr. Zhijian Chen, who has been recognized for his work on how DNA stimulates immunity. Dr. Chen's research focuses on the cGAS/STING pathway, which detects and eliminates infectious organisms by triggering an immune response. The article explains the process by which cGAS produces a molecule called cGAMP, which binds to STING and induces the production of interferon, a proinflammatory protein. It also discusses the regulation and termination of this pathway and its implications in autoimmune disorders, neurodegenerative diseases, and cancer. The article concludes by emphasizing the need for further research to better understand and target this pathway for therapeutic purposes. Additionally, the text provides a list of research articles that have contributed to our understanding of the STING pathway, including studies on its role in immune signaling, the activation of STING by cGAMP, and the surveillance of micronuclei by cGAS. It also mentions potential therapeutic strategies targeting the STING pathway, such as STING agonists and inhibitors of ENPP1, while acknowledging the potential risks and benefits of modulating this pathway in the context of cancer and autoimmune disorders. [Extracted from the article]

Published

2024

20. Extrachromosomal circular DNAs in prostate adenocarcinoma: global characterizations and a novel prediction model.

Author

Qingliu He, Qingfu Su, Chengcheng Wei, Pu Zhang, Weihui Liu, Junyi Chen, Xiaoping Su, and Wei Zhuang

Subjects

EXTRACHROMOSOMAL DNA, CIRCULAR DNA, PROGNOSIS, DRUG analysis, GENETIC code, SURVIVAL analysis (Biometry)

Abstract

Background: The role of focal amplifications and extrachromosomal circular DNA (eccDNA) is still uncertain in prostate adenocarcinoma (PRAD). Here, we first mapped the global characterizations of eccDNA and then investigate the characterization of eccDNA-amplified key differentially expressed encoded genes (eKDEGs) in the progression, immune response and immunotherapy of PRAD. Methods: Circular_seq was used in conjunction with the TCGA-PRAD transcriptome dataset to sequence, annotate, and filter for eccDNA-amplified differentially expressed coding genes (eDEGs) in PRAD and para-cancerous normal prostate tissues. Afterwards, risk models were created and eKDEGs linked to the PRAD prognosis were identified using Cox and Lasso regression analysis. The immune microenvironment of the risk model was quantified using a variety of immunological algorithms, which also identified its characteristics with regard to immunotherapy, immune response, and immune infiltration. Results: In this research, there was no significant difference in the size, type, and chromosomal distribution of eccDNA in PRAD and para-cancerous normal prostate tissues. However, 4,290 differentially expressed eccDNAs were identified and 1,981 coding genes were amplified. Following that, 499 eDEGs were tested in conjunction with the transcriptome dataset from TCGA-PRAD. By using Cox and Lasso regression techniques, ZNF330 and PITPNM3 were identified as eKDEGs of PRAD, and a new PRAD risk model was conducted based on this. Survival analysis showed that the high-risk group of this model was associated with poor prognosis and validated in external data. Immune infiltration analysis showed that the model risks affected immune cell infiltration in PRAD, not only mediating changes in immune cell function, but also correlating with immunophenotyping. Furthermore, the high-risk group was negatively associated with anti-CTLA-4/anti-PD-1 response and mutational burden. In addition, Tumor Immune Dysfunction and Exclusion analyses showed that high-risk group was more prone to immune escape. Drug sensitivity analyses identified 10 drugs, which were instructive for PRAD treatment. Conclusion: ZNF330 and PITPNM are the eKDEGs for PRAD, which can be used as potential new prognostic markers. The two-factor combined risk model can effectively assess the survival and prognosis of PRAD patients, but also can predict the different responses of immunotherapy to PRAD patients, which may provide new ideas for PRAD immunotherapy. [ABSTRACT FROM AUTHOR]

Published

2024

21. Exploring the Role of Extrachromosomal Circular DNA in Human Diseases.

Author

Peng, Yali, Tao, Huihui, Wang, Guoying, Wu, Mengyao, Xu, Tinatin, Wen, Chunmei, Zheng, Xuejia, and Dai, Yong

Subjects

*EXTRACHROMOSOMAL DNA, *CIRCULAR DNA, *MOLECULAR biology, *TYPE 2 diabetes, *HUMAN DNA

Abstract

Background: Extrachromosomal circular DNA (eccDNA) has emerged as a central focus in molecular biology, with various types being found across species through advanced techniques, including high-throughput sequencing. This dynamic molecule exerts a significant influence on aging and immune function and plays pivotal roles in autoimmune diseases, type 2 diabetes mellitus, cancer, and genetic disorders. Summary: This comprehensive review investigates the classification, characteristics, formation processes, and multifaceted functions of eccDNA, providing an in-depth exploration of its mechanisms in diverse diseases. Key Messages: The goal of this review was to establish a robust theoretical foundation for a more comprehensive understanding of eccDNA, offering valuable insights for the development of clinical diagnostics and innovative therapeutic strategies in the context of related diseases. [ABSTRACT FROM AUTHOR]

Published

2024

22. Protection of the genome and the central exome by peripheral non‐coding DNA against DNA damage in health, ageing and age‐related diseases.

Author

Qiu, Guo‐Hua, Fu, Mingjun, Zheng, Xintian, and Huang, Cuiqin

Subjects

*EXTRACHROMOSOMAL DNA, *CIRCULAR DNA, *NUCLEIC acids, *EUKARYOTIC genomes, *NON-coding RNA

Abstract

ABSTRACT DNA in eukaryotic genomes is under constant assault from both exogenous and endogenous sources, leading to DNA damage, which is considered a major molecular driver of ageing. Fortunately, the genome and the central exome are safeguarded against these attacks by abundant peripheral non‐coding DNA. Non‐coding DNA codes for small non‐coding RNAs that inactivate foreign nucleic acids in the cytoplasm and physically blocks these attacks in the nucleus. Damage to non‐coding DNA produced during such blockage is removed in the form of extrachromosomal circular DNA (eccDNA) through nucleic pore complexes. Consequently, non‐coding DNA serves as a line of defence for the exome against DNA damage. The total amount of non‐coding DNA/heterochromatin declines with age, resulting in a decrease in both physical blockage and eccDNA exclusion, and thus an increase in the accumulation of DNA damage in the nucleus during ageing and in age‐related diseases. Here, we summarize recent evidence supporting a protective role of non‐coding DNA in healthy and pathological states and argue that DNA damage is the proximate cause of ageing and age‐related genetic diseases. Strategies aimed at strengthening the protective role of non‐coding DNA/heterochromatin could potentially offer better systematic protection for the dynamic genome and the exome against diverse assaults, reduce the burden of DNA damage to the exome, and thus slow ageing, counteract age‐related genetic diseases and promote a healthier life for individuals. [ABSTRACT FROM AUTHOR]

Published

2024

23. Human Smc5/6 recognises transcription-generated positive DNA supercoils.

Author

Diman, Aurélie, Panis, Gaël, Castrogiovanni, Cédric, Prados, Julien, Baechler, Bastien, and Strubin, Michel

Subjects

EXTRACHROMOSOMAL DNA, DNA structure, CHROMOSOME segregation, GENETIC transcription, CHROMOSOMES

Abstract

Beyond its essential roles in ensuring faithful chromosome segregation and genomic stability, the human Smc5/6 complex acts as an antiviral factor. It binds to and impedes the transcription of extrachromosomal DNA templates; an ability which is lost upon integration of the DNA into the chromosome. How the complex distinguishes among different DNA templates is unknown. Here we show that, in human cells, Smc5/6 preferentially binds to circular rather than linear extrachromosomal DNA. We further demonstrate that the transcriptional process, per se, and particularly the accumulation of DNA secondary structures known to be substrates for topoisomerases, is responsible for Smc5/6 recruitment. More specifically, we find that in vivo Smc5/6 binds to positively supercoiled DNA. Those findings, in conjunction with our genome-wide Smc5/6 binding analysis showing that Smc5/6 localizes at few but highly transcribed chromosome loci, not only unveil a previously unforeseen role of Smc5/6 in DNA topology management during transcription but highlight the significance of sensing DNA topology as an antiviral defense mechanism. The study reveals a novel relationship between the human Smc5/6 complex and DNA topology during transcription and emphasizes the importance of DNA topology sensing in the defense against extrachromosomal genetic threats. [ABSTRACT FROM AUTHOR]

Published

2024

24. Identification and Characterization of Extrachromosomal Circular DNA in Slimming Grass Carp.

Author

He, Haobin, Gao, Zihan, Hu, Zehua, Liang, Guanyu, Huang, Yanhua, Zhou, Meng, Liang, Rishen, and Zhang, Kai

Subjects

*CTENOPHARYNGODON idella, *CARP, *EXTRACHROMOSOMAL DNA, *CIRCULAR DNA, *GENE expression profiling, *MYOSIN

Abstract

Slimming grass carp is a commercial variety with good body form and meat quality, which is cultured by starving common grass carp in a clean flowing water environment. Compared to common grass carp, slimming grass carp has a far higher economic value. Until now, no molecular study has concentrated on the regulation mechanism of the muscle characteristics of slimming grass carp. This study first reported the gene expression profile of the muscle characteristics of slimming grass carp based on the level of extrachromosomal circular DNAs (eccDNAs). EccDNAs are double-stranded circular DNAs derived from genomic DNAs and play crucial roles in the functional regulation of a wide range of biological processes, none of which have been shown to occur in fish. Here, muscle eccDNAs from slimming grass carp and common grass carp were both generally sequenced, and the information, as well as the expression profile of eccDNAs, were compared and analysed. The findings reveal that 82,238 and 25,857 eccDNAs were detected from slimming grass carp and common grass carp, respectively. The length distribution of eccDNAs was in the range of 1~1000 bp, with two peaks at about 200 bp and 400 bp. When the expression profiles of eccDNAs between slimming grass carp and common grass carp were compared, 3523 up-regulated and 175 down-regulated eccDNAs were found. Enrichment analysis showed that these eccDNA genes were correlated with cellular structure and response, cell immunology, enzyme activity, etc. Certain differentially expressed eccDNAs involved in muscle characteristics were detected, which include myosin heavy chain, myosin light chain, muscle segment homeobox C, calsequestrin, calmodulin, etc., among which the majority of genes were linked to muscle structure and contraction. This indicates that during the process of cultivating from common grass carp to slimming grass carp, the treatment primarily affected muscle structure and contraction, making the meat quality of slimming grass carp different from that of common grass carp. This result provides molecular evidence and new insights by which to elucidate the regulating mechanism of muscle phenotypic characterisation in slimming grass carp and other fish. [ABSTRACT FROM AUTHOR]

Published

2024

25. Genome-wide sequencing identified extrachromosomal circular DNA as a transcription factor-binding motif of the senescence genes that govern replicative senescence in human mesenchymal stem cells.

Author

Wei Yang, Wei Ji, Boyu Liao, Zhongbo Li, Jian Wang, Haishu Lin, Jingbo Wang, and Qian He

Subjects

MESENCHYMAL stem cells, EXTRACHROMOSOMAL DNA, HUMAN stem cells, TRANSCRIPTION factors, CIRCULAR DNA

Abstract

Introduction: Mesenchymal stem cells (MSCs) have long been postulated as an important source cell in regenerative medicine. During subculture expansion, mesenchymal stem cell (MSC) senescence diminishes their multidifferentiation capabilities, leading to a loss of therapeutic potential. Up to date, the extrachromosomal circular DNAs (eccDNAs) have been demonstrated to be involved in senescence but the roles of eccDNAs during MSC. Methods: Here we explored eccDNA profiles in human bone marrow MSCs (BM-MSCs). EccDNA and mRNA was purified and sequenced, followed by quantification and functional annotation. Moreover, we mapped our datasets with the downloading enhancer and transcription factor-regulated genes to explore the potential role of eccDNAs. Results: Sequentially, gene annotation analysis revealed that the majority of eccDNA were mapped in the intron regions with limited BM-MSC enhancer overlaps. We discovered that these eccDNA motifs in senescent BMSCs acted as motifs for binding transcription factors (TFs) of senescence-related genes. Discussion: These findings are highly significant for identifying biomarkers of senescence and therapeutic targets in mesenchymal stem cells (MSCs) for future clinical applications. The potential of eccDNA as a stable therapeutic target for senescence-related disorders warrants further investigation, particularly exploring chemically synthesized eccDNAs as transcription factor regulatory elements to reverse cellular senescence. [ABSTRACT FROM AUTHOR]

Published

2024

26. Extrachromosomal circular DNA landscape of breast cancer with lymph node metastasis.

Author

Bao, Yuhan, Sui, Xiaolong, Wang, Xiaofei, Qu, Nina, Xie, Yanjie, Cong, Yizi, and Cao, Xiaoli

Subjects

EXTRACHROMOSOMAL DNA, LYMPHATIC metastasis, LYMPH node cancer, CIRCULAR DNA, BREAST cancer, METASTATIC breast cancer

Abstract

Breast cancer (BC) is a complex disease with diverse manifestations, often resulting in lymph node metastasis (LNM) and impacting patient prognosis. Extrachromosomal circular DNA (eccDNA) has emerged as a key player in tumorigenesis, yet its contribution to BC LNM remains elusive. Here, we examined primary tumors and matched LNM tissues from 19 BC patients using the Circle‐Seq method. We identified a median count of 44,682 eccDNA in primary tumor tissues and 38,057 in their paired LNM tissues. Furthermore, a ladder‐like size distribution is observed in both primary tumor and LNM tissues. Meanwhile, similar repeat sequence distribution and GC content are identified from both primary tissue and LNM tissues. Finally, we found that eccDNA from both groups are flanked with palindromic trinucleotide motifs. These observations indicate that eccDNA of primary tumor and LNM tissues are from similar chromosomal origins. However, a subset of miRNA‐associated eccDNA displayed selective enrichment in metastatic lesions, such as miR‐6730 and miR‐548AA1 genes. This observation implicates the function of miRNA‐related eccDNA in the metastatic cascade. Our study uncovers the potential significance of these unique eccDNA molecules, shedding light on their role in cancer metastasis. [ABSTRACT FROM AUTHOR]

Published

2024

27. Predicting gestational diabetes mellitus risk at 11–13 weeks' gestation: the role of extrachromosomal circular DNA.

Author

Wang, Jin, Huang, Pengyu, Hou, Fei, Hao, Dongdong, Li, Wushan, and Jin, Hua

Subjects

*EXTRACHROMOSOMAL DNA, *GESTATIONAL diabetes, *CIRCULAR DNA, *PREGNANT women, *PATHOLOGY

Abstract

Background: Gestational diabetes mellitus (GDM) significantly impacts maternal and infant health both immediately and over the long term, yet effective early diagnostic biomarkers are currently lacking. Thus, it is essential to identify early diagnostic biomarkers for GDM risk screening. Extrachromosomal circular DNA (eccDNA), being more stable than linear DNA and involved in disease pathologies, is a viable biomarker candidate for diverse conditions. In this study, eccDNA biomarkers identified for early diagnosis and assessment of GDM risk were explored. Methods: Using Circle-seq, we identified plasma eccDNA profiles in five pregnant women who later developed GDM and five matched healthy controls at 11–13 weeks of gestation. These profiles were subsequently analyzed through bioinformatics and validated through outward PCR combined with Sanger sequencing. Furthermore, candidate eccDNA was validated by quantitative PCR (qPCR) in a larger cohort of 70 women who developed GDM and 70 normal glucose-tolerant (NGT) subjects. A ROC curve assessed the eccDNA's diagnostic potential for GDM. Results: 2217 eccDNAs were differentially detected between future GDM patients and controls, with 1289 increased and 928 decreased in abundance. KEGG analysis linked eccDNA genes mainly to GDM-related pathways such as Rap1, MAPK, and PI3K-Akt, and Insulin resistance, among others. Validation confirmed a significant decrease in eccDNA PRDM16circle in the plasma of 70 women who developed GDM compared to 70 NGT women, consistent with the eccDNA-seq results. PRDM16circle showed significant diagnostic value in 11–13 weeks of gestation (AUC = 0.941, p < 0.001). Conclusions: Our study first demonstrats that eccDNAs are aberrantly produced in women who develop GDM, including PRDM16circle, which can predict GDM at an early stage of pregnancy, indicating its potential as a biomarker. Trial registration: ChiCTR2300075971, http://www.chictr.org.cn. Registered 20 September 2023. [ABSTRACT FROM AUTHOR]

Published

2024

28. Beyond the Chromosome: Recent Developments in Decoding the Significance of Extrachromosomal Circular DNA (eccDNA) in Human Malignancies.

Author

Tsiakanikas, Panagiotis, Athanasopoulou, Konstantina, Darioti, Ioanna A., Agiassoti, Vasiliki Taxiarchoula, Theocharis, Stamatis, Scorilas, Andreas, and Adamopoulos, Panagiotis G.

Subjects

*EXTRACHROMOSOMAL DNA, *CIRCULAR DNA, *DISTRIBUTION (Probability theory), *EUKARYOTIC cells, *CHROMOSOMES

Abstract

Extrachromosomal circular DNA (eccDNA) is a form of a circular double-stranded DNA that exists independently of conventional chromosomes. eccDNA exhibits a broad and random distribution across eukaryotic cells and has been associated with tumor-related properties due to its ability to harbor the complete gene information of oncogenes. The complex and multifaceted mechanisms underlying eccDNA formation include pathways such as DNA damage repair, breakage–fusion–bridge (BFB) mechanisms, chromothripsis, and cell apoptosis. Of note, eccDNA plays a pivotal role in tumor development, genetic heterogeneity, and therapeutic resistance. The high copy number and transcriptional activity of oncogenes carried by eccDNA contribute to the accelerated growth of tumors. Notably, the amplification of oncogenes on eccDNA is implicated in the malignant progression of cancer cells. The improvement of high-throughput sequencing techniques has greatly enhanced our knowledge of eccDNA by allowing for a detailed examination of its genetic structures and functions. However, we still lack a comprehensive and efficient annotation for eccDNA, while challenges persist in the study and understanding of the functional role of eccDNA, emphasizing the need for the development of robust methodologies. The potential clinical applications of eccDNA, such as its role as a measurable biomarker or therapeutic target in diseases, particularly within the spectrum of human malignancies, is a promising field for future research. In conclusion, eccDNA represents a quite dynamic and multifunctional genetic entity with far-reaching implications in cancer pathogenesis and beyond. Further research is essential to unravel the molecular pathways of eccDNA formation, elucidate its functional roles, and explore its clinical applications. Addressing these aspects is crucial for advancing our understanding of genomic instability and developing novel strategies for tailored therapeutics, especially in cancer. [ABSTRACT FROM AUTHOR]

Published

2024

29. Multi‐omics integration reveals the oncogenic role of eccDNAs in diffuse large B‐cell lymphoma through STING signalling.

Author

Wu, Zijuan, Zhang, Wei, Wang, Luqiao, Leng, Jiayan, Li, Yongle, Fan, Zhou, Zhan, Mengtao, Cao, Lei, Jiang, Yongning, Jiang, Yan, Sun, Bing, Fu, Jianxin, Li, Jianyong, Shi, Wenyu, and Jin, Hui

Subjects

*EXTRACHROMOSOMAL DNA, *CIRCULAR DNA, *ATOMIC force microscopy, *DNA damage, *PROGNOSIS

Abstract

Background: Extrachromosomal circular DNAs (eccDNAs), a type of double‐stranded DNAs (dsDNAs) that facilitate the activation of the DNA sensing machinery, have been implicated in the progression and prognosis of various diseases. While the roles of eccDNAs remain contentious, their significance in diffuse large B‐cell lymphoma (DLBCL) has not been reported. Methods: Circular DNA sequencing (circle‐seq) was used to demonstrate the expression profile of eccDNAs in DLBCL, and atomic force microscopy to validate the presence of eccDNAs. CCK‐8 and scRNA‐seq techniques were employed to uncover the activation of eccDNA in the STING pathway, leading to enhanced cell proliferation. Chemotherapeutic drugs were used to test the hypothesis that DNA damage induces the production of eccDNA, thereby activating the STING pathway independent of cGAS. GEO databases were used for verification of the prognosis of the eccDNA‐related genes, and animal models were used to investigate the synergistic effects of DNA damage therapy in combination with STING inhibitors on anti‐tumour responses. Results: EccDNAs were widely expressed in DLBCL and associated with the prognosis of patients. Elevated abundance of eccDNAs promoted the progression of DLBCL. Chemotherapeutic drugs‐induced DNA damage triggered the generation of eccDNAs, resulting in the activation of the STING signalling in a cGAS‐independent manner. Moreover, inhibition of STING exerted a synergistic anti‐tumour effect with cisplatin. Conclusions: EccDNAs induced by DNA damage exert an oncogenic role in DLBCL via activating the STING signalling independently of cGAS. This finding offers a rational therapeutic strategy combining chemotherapy with targeting STING. Highlights: EccDNAs induced by DNA damage exert an oncogenic role in DLBCL via activating the STING signalling independently of cGAS.The combined treatment of chemotherapeutic drugs with STING inhibitor significantly delayed the tumor progression, providing new insights into the therapeutic strategy for patients with DLBCL, particularly the relapsed and/or refractory (R/R) ones. [ABSTRACT FROM AUTHOR]

Published

2024

30. Integrated analysis of single-cell chromatin state and transcriptome identified common vulnerability despite glioblastoma heterogeneity

Author

Raviram, Ramya, Raman, Anugraha, Preissl, Sebastian, Ning, Jiangfang, Wu, Shaoping, Koga, Tomoyuki, Zhang, Kai, Brennan, Cameron W, Zhu, Chenxu, Luebeck, Jens, Van Deynze, Kinsey, Han, Jee Yun, Hou, Xiaomeng, Ye, Zhen, Mischel, Anna K, Li, Yang Eric, Fang, Rongxin, Baback, Tomas, Mugford, Joshua, Han, Claudia Z, Glass, Christopher K, Barr, Cathy L, Mischel, Paul S, Bafna, Vineet, Escoubet, Laure, Ren, Bing, and Chen, Clark C

Subjects

Biochemistry and Cell Biology, Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Biological Sciences, Genetics, Brain Disorders, Brain Cancer, Cancer, Cancer Genomics, Neurosciences, Human Genome, Rare Diseases, 2.1 Biological and endogenous factors, Generic health relevance, Adult, Humans, Glioblastoma, Chromatin, Transcriptome, Astrocytoma, Brain Neoplasms, Mutation, Isocitrate Dehydrogenase, single cell, glioblastoma, extrachromosomal DNA, amplicons

Abstract

In 2021, the World Health Organization reclassified glioblastoma, the most common form of adult brain cancer, into isocitrate dehydrogenase (IDH)-wild-type glioblastomas and grade IV IDH mutant (G4 IDHm) astrocytomas. For both tumor types, intratumoral heterogeneity is a key contributor to therapeutic failure. To better define this heterogeneity, genome-wide chromatin accessibility and transcription profiles of clinical samples of glioblastomas and G4 IDHm astrocytomas were analyzed at single-cell resolution. These profiles afforded resolution of intratumoral genetic heterogeneity, including delineation of cell-to-cell variations in distinct cell states, focal gene amplifications, as well as extrachromosomal circular DNAs. Despite differences in IDH mutation status and significant intratumoral heterogeneity, the profiled tumor cells shared a common chromatin structure defined by open regions enriched for nuclear factor 1 transcription factors (NFIA and NFIB). Silencing of NFIA or NFIB suppressed in vitro and in vivo growths of patient-derived glioblastomas and G4 IDHm astrocytoma models. These findings suggest that despite distinct genotypes and cell states, glioblastoma/G4 astrocytoma cells share dependency on core transcriptional programs, yielding an attractive platform for addressing therapeutic challenges associated with intratumoral heterogeneity.

Published

2023

31. A standardized protocol for sample preparation for scanning electron microscopy to visualize extrachromosomal DNA

Author

Jillann A. Madren, Jingting Chen, William Dennis, Christina Ford, Kristen K. White, and Elizabeth Brunk

Subjects

correlative light and electron microscopy, double minute chromosomes, extrachromosomal DNA, fluorescence microscopy, scanning electron microscopy, Biology (General), QH301-705.5

Abstract

Extrachromosomal DNA (ecDNA) are circular DNA structures associated with cancer and drug resistance. One specific type, double minute (DM) chromosomes, has been studied since the 1960s using imaging techniques like cytogenetics and fluorescence microscopy. Specialized techniques such as atomic force microscopy (AFM) and scanning electron microscopy (SEM) offer micro to nano-scale visualization, but current sample preparation methods may not optimally preserve ecDNA structure. Our study introduces a systematic protocol using SEM for high-resolution ecDNA visualization. We have optimized the end-to-end procedure, providing a standardized approach to explore the circular architecture of ecDNA and address the urgent need for better understanding in cancer research.

Published

2024

32. The maintenance of multiple ecDNA types in single cancer cells (Updated October 27, 2024)

Subjects

Cancer, Extrachromosomal DNA, Physical fitness

Abstract

2024 NOV 16 (NewsRx) -- By a News Reporter-Staff News Editor at Obesity, Fitness & Wellness Week -- According to news reporting based on a preprint abstract, our journalists obtained [...]

Published

2024

33. Leveraging AI to Automate Detection and Quantification of Extrachromosomal DNA (ecDNA) to Decode Drug Responses

Subjects

Drug discovery, Cancer -- Genetic aspects, Extrachromosomal DNA, Physical fitness

Abstract

2024 NOV 16 (NewsRx) -- By a News Reporter-Staff News Editor at Obesity, Fitness & Wellness Week -- According to news reporting based on a preprint abstract, our journalists obtained [...]

Published

2024

34. Class XII: Monthly test drive.

Subjects

CHEMICAL testing, EXTRACHROMOSOMAL DNA, MILK proteins, RECOMBINANT DNA, GENETIC engineering, CIRCULAR DNA, REVERSE transcriptase

Abstract

The article presents the practice paper guide for National Eligibility cum Entrance Test (NEET) aspirants, covering key questions related to biotechnology principles and applications. Topics include recombinant DNA technology, genetic modification, and gel electrophoresis. It also features questions on the use of plasmids, restriction enzymes, and methods for genetic transformation.

Published

2024

35. Transcriptional regulation and DNA damage response of extrachromosomal DNA in human glioblastoma stem cells

Author

Purshouse, Karin Rita, Pollard, Steven, and Bickmore, Wendy

Subjects

Transcriptional regulation, DNA damage response, extrachromosomal DNA, human glioblastoma stem cells, Glioblastoma, Extrachromosomal DNA (ecDNA), ecDNA oncogene transcription, DNA damage sites, random and targeted DNA damage

Abstract

Glioblastoma is a cancer characterised by limited treatment options and poor prognosis. Glioblastoma is driven by neural stem cell-like cells and is characterised by intratumoral heterogeneity. Extrachromosomal DNA (ecDNA) are circular regions of DNA that are seen in many cancers and are particularly frequent in glioblastoma. They are an important means of oncogene amplification, and correlate with treatment resistance and poor prognosis. Due to their frequency and association with accessible chromatin, it has been proposed that ecDNA oncogene transcription is amplified by their clustering with each other and key components of the transcriptional machinery. Such a mechanism could lead to greater levels of oncogene transcription than expected from copy number amplification alone. A major mechanism of ecDNA generation is massive DNA damage (chromothripsis), but the impact of DNA damage on existing ecDNA is yet to be fully characterised. This thesis characterises ecDNA in five glioblastoma cell lines derived from patients using WGS and DNA FISH analysis. Super-resolution imaging and quantitative image analysis are used to evaluate the spatial organisation of ecDNA-resident oncogenes in glioblastoma cell lines. EcDNA are widely distributed throughout the nucleus, but a novel cluster analysis method demonstrates that ecDNA do not cluster closely with each other, nor do they closely engage with large transcriptional hubs. Focusing on the EGFR oncogene, transcriptional output is increased in cells harbouring ecEGFR. A combination of RNA:DNA FISH and RNAseq:WGS analysis is used to demonstrate that transcription per gene copy number is similar between chromosomal and ecDNA EGFR loci. This suggests increased ecDNA-resident oncogene transcription is primarily driven by copy number amplification rather than synergistic ecDNA regulatory processes and interactions. Glioblastoma cells have many active DNA damage sites not closely related to ecDNA. To explore the impact of random and targeted DNA damage on ecDNA characteristics and dynamics, ionising radiation (IR) and CRISPR/Cas9 are utilised respectively. Treatment of ecEGFR-harbouring cells with IR results in a reduction in EGFR foci copy number and EGFR expression. Preliminary experiments suggest EGFR expression reduces further with co-treatment with the PARP inhibitor olaparib, although ecEGFR copy number appears protected. In a glioblastoma cell line with ecEGFR, CRISPR/Cas9 targeting EGFR generates cells with reduced EGFR expression. Cells can be FACS-sorted into EGFR High, Low and Null pools, in which Low and Null pools lose ecEGFR by DNA FISH and WGS analysis. Repeating this in a glioblastoma cell line with EGFR as a chromosomal amplification and MYC ecDNA demonstrates minimal effect on EGFR, but marked rearrangement of ecMYC loci. Overall, these findings suggest that ecDNA are an important mechanism of oncogene amplification, the transcriptional effect of which is primarily driven by copy number. Understanding the impact of DNA damage on ecDNA and cell selection is important for development of new therapeutic strategies that successfully target genomic vulnerabilities.

Published

2023

36. PlasmidHunter: accurate and fast prediction of plasmid sequences using gene content profile and machine learning.

Author

Tian, Renmao, Zhou, Jizhong, and Imanian, Behzad

Subjects

*MACHINE learning, *EXTRACHROMOSOMAL DNA, *GENE therapy, *GENES, *METAGENOMICS, *SHOTGUN sequencing, *GENETIC engineering

Abstract

Plasmids are extrachromosomal DNA found in microorganisms. They often carry beneficial genes that help bacteria adapt to harsh conditions. Plasmids are also important tools in genetic engineering, gene therapy, and drug production. However, it can be difficult to identify plasmid sequences from chromosomal sequences in genomic and metagenomic data. Here, we have developed a new tool called PlasmidHunter, which uses machine learning to predict plasmid sequences based on gene content profile. PlasmidHunter can achieve high accuracies (up to 97.6%) and high speeds in benchmark tests including both simulated contigs and real metagenomic plasmidome data, outperforming other existing tools. [ABSTRACT FROM AUTHOR]

Published

2024

37. Imaging extrachromosomal DNA (ecDNA) in cancer.

Author

Purshouse, Karin, Pollard, Steven M., and Bickmore, Wendy A.

Subjects

*EXTRACHROMOSOMAL DNA, *CIRCULAR DNA, *MICROSCOPY, *NUCLEOTIDE sequencing, *ONCOGENES, *CIRCULAR RNA

Abstract

Extrachromosomal DNA (ecDNA) are circular regions of DNA that are found in many cancers. They are an important means of oncogene amplification, and correlate with treatment resistance and poor prognosis. Consequently, there is great interest in exploring and targeting ecDNA vulnerabilities as potential new therapeutic targets for cancer treatment. However, the biological significance of ecDNA and their associated regulatory control remains unclear. Light microscopy has been a central tool in the identification and characterisation of ecDNA. In this review we describe the different cellular models available to study ecDNA, and the imaging tools used to characterise ecDNA and their regulation. The insights gained from quantitative imaging are discussed in comparison with genome sequencing and computational approaches. We suggest that there is a crucial need for ongoing innovation using imaging if we are to achieve a full understanding of the dynamic regulation and organisation of ecDNA and their role in tumourigenesis. [ABSTRACT FROM AUTHOR]

Published

2024

38. The Role of Retrotransposons and Endogenous Retroviruses in Age-Dependent Neurodegenerative Disorders.

Author

Frost, Bess and Dubnau, Josh

Subjects

*ALZHEIMER'S disease, *AMYOTROPHIC lateral sclerosis, *EXTRACHROMOSOMAL DNA, *NEURODEGENERATION, *TAUOPATHIES

Abstract

Over 40% of the human genome is composed of retrotransposons, DNA species that hold the potential to replicate via an RNA intermediate and are evolutionarily related to retroviruses. Retrotransposons are most studied for their ability to jump within a genome, which can cause DNA damage and novel insertional mutations. Retrotransposon-encoded products, including viral-like proteins, double-stranded RNAs, and extrachromosomal circular DNAs, can also be potent activators of the innate immune system. A growing body of evidence suggests that retrotransposons are activated in age-related neurodegenerative disorders and that such activation causally contributes to neurotoxicity. Here we provide an overview of retrotransposon biology and outline evidence of retrotransposon activation in age-related neurodegenerative disorders, with an emphasis on those involving TAR-DNA binding protein-43 (TDP-43) and tau. Studies to date provide the basis for ongoing clinical trials and hold promise for innovative strategies to ameliorate the adverse effects of retrotransposon dysregulation in neurodegenerative disorders. [ABSTRACT FROM AUTHOR]

Published

2024

39. Microfluidic isolation of extrachromosomal circular DNA through selective digestion of plasmids and linear DNA using immobilized nucleases.

Author

Zole, Egija, Sathyanarayanan, Gowtham, Regenberg, Birgitte, and Kutter, Jörg P.

Subjects

*EXTRACHROMOSOMAL DNA, *CIRCULAR DNA, *NUCLEASES, *PLASMIDS, *TECHNOLOGICAL innovations, *EXONUCLEASES, *CIRCULAR RNA

Abstract

Extrachromosomal circular DNA (eccDNA) refers to small circular DNA molecules that are distinct from chromosomal DNA and play diverse roles in various biological processes. They are also explored as potential biomarkers for disease diagnosis and precision medicine. However, isolating eccDNA from tissues and plasma is challenging due to low abundance and the presence of interfering linear DNA, requiring time-consuming processes and expert handling. Our study addresses this by utilizing a microfluidic chip tailored for eccDNA isolation, leveraging microfluidic principles for enzymatic removal of non-circular DNA. Our approach involves integrating restriction enzymes into the microfluidic chip, enabling selective digestion of mitochondrial and linear DNA fragments while preserving eccDNA integrity. This integration is facilitated by an in situ photo-polymerized emulsion inside microchannels, creating a porous monolithic structure suitable for immobilizing restriction and exonuclease enzymes (restriction enzyme MssI and exonuclease ExoV). Evaluation using control DNA mixtures and plasma samples with artificially introduced eccDNA demonstrated that our microfluidic chips reduce linear DNA by over 99%, performing comparable to conventional off-chip methods but with substantially faster digestion times, allowing for a remarkable 76-fold acceleration in overall sample preparation time. This technological advancement holds great promise for enhancing the isolation and analysis of eccDNA from tissue and plasma and the potential for increasing the speed of other molecular methods with multiple enzymatic steps. [ABSTRACT FROM AUTHOR]

Published

2024

40. Transcriptional immune suppression and up-regulation of double-stranded DNA damage and repair repertoires in ecDNA-containing tumors.

Author

Lin, Miin S., Se-Young Jo, Luebeck, Jens, Chang, Howard Y., Sihan Wu, Mischel, Paul S., and Bafna, Vineet

Subjects

*DNA repair, *DNA damage, *IMMUNOSUPPRESSION, *EXTRACHROMOSOMAL DNA, *GENETIC regulation, *DOUBLE-strand DNA breaks

Abstract

Extrachromosomal DNA is a common cause of oncogene amplification in cancer. The non-chromosomal inheritance of ecDNA enables tumors to rapidly evolve, contributing to treatment resistance and poor outcome for patients. The transcriptional context in which ecDNAs arise and progress, including chromosomally-driven transcription, is incompletely understood. We examined gene expression patterns of 870 tumors of varied histological types, to identify transcriptional correlates of ecDNA. Here, we show that ecDNA-containing tumors impact four major biological processes. Specifically, ecDNA-containing tumors up-regulate DNA damage and repair, cell cycle control, and mitotic processes, but down-regulate global immune regulation pathways. Taken together, these results suggest profound alterations in gene regulation in ecDNA-containing tumors, shedding light on molecular processes that give rise to their development and progression. [ABSTRACT FROM AUTHOR]

Published

2024

41. Extrachromosomal circular DNA (eccDNA) characteristics in the bile and plasma of advanced perihilar cholangiocarcinoma patients and the construction of an eccDNA-related gene prognosis model.

Author

Shijie Fu, Yuyang Dai, Pengjun Zhang, Kanglian Zheng, Guang Cao, Liang Xu, Yujie Zhong, Chuanxin Niu, and Xiaodong Wang

Subjects

EXTRACHROMOSOMAL DNA, CIRCULAR DNA, CHOLANGIOCARCINOMA, MITOGEN-activated protein kinases, PROGNOSTIC models, GENE ontology

Abstract

Extrachromosomal DNAs (eccDNAs) frequently carry amplified oncogenes. This investigation aimed to examine the occurrence and role of eccDNAs in individuals diagnosed with advanced perihilar cholangiocarcinoma (pCCA) who exhibited distinct prognostic outcomes. Five patients with poor survival outcomes and five with better outcomes were selected among patients who received first-line hepatic arterial infusion chemotherapy from June 2021 to June 2022. The extracted eccDNAs were amplified for high-throughput sequencing. Genes associated with the differentially expressed eccDNAs were analyzed using Gene Ontology (GO) and Kyoto Encyclopedia of Genes and Genomes (KEGG) pathway analyses. The differentially expressed bile eccDNA-related genes were used to construct a prognostic model. Across all 10 patients, a total of 19,024 and 3,048 eccDNAs were identified in bile and plasma, respectively. The concentration of eccDNA detected in the bile was 9-fold higher than that in plasma. The chromosome distribution of the eccDNAs were similar between bile and matched plasma. GO and KEGG pathway analyses showed enrichment in the mitogen-activated protein kinase (MAPK) and Wnt/ß-catenin pathways in patients with poor survival outcomes. According to the prognostic model constructed by eccDNA-related genes, the high-risk group of cholangiocarcinoma patients displayed significantly shorter overall survival (p < 0.001). Moreover, the degree of infiltration of immunosuppressive cells was higher in patients in the high-risk group. In conclusion, EccDNA could be detected in bile and plasma of pCCA patients, with a higher concentration. A prognostic model based on eccDNA-related genes showed the potential to predict the survival and immune microenvironment of patients with cholangiocarcinoma. [ABSTRACT FROM AUTHOR]

Published

2024

42. Centromere diversity: How different repeat‐based holocentromeres may have evolved.

Author

Kuo, Yi‐Tzu, Schubert, Veit, Marques, André, Schubert, Ingo, and Houben, Andreas

Subjects

*CENTROMERE, *DOUBLE-strand DNA breaks, *EXTRACHROMOSOMAL DNA, *SATELLITE DNA, *CIRCULAR DNA

Abstract

In addition to monocentric eukaryotes, which have a single localized centromere on each chromosome, there are holocentric species, with extended repeat‐based or repeat‐less centromeres distributed over the entire chromosome length. At least two types of repeat‐based holocentromeres exist, one composed of many small repeat‐based centromere units (small unit‐type), and another one characterized by a few large centromere units (large unit‐type). We hypothesize that the transposable element‐mediated dispersal of hundreds of short satellite arrays formed the small centromere unit‐type holocentromere in Rhynchospora pubera. The large centromere unit‐type of the plant Chionographis japonica is likely a product of simultaneous DNA double‐strand breaks (DSBs), which initiated the de novo formation of repeat‐based holocentromeres via insertion of satellite DNA, derived from extra‐chromosomal circular DNAs (eccDNAs). The number of initial DSBs along the chromosomes must be higher than the number of centromere units since only a portion of the breaks will have incorporated eccDNA at an appropriate position to serve as future centromere unit sites. Subsequently, preferential incorporation of the centromeric histone H3 variant at these positions is assumed. The identification of repeat‐based holocentromeres across lineages will unveil the centromere plasticity and elucidate the mechanisms underlying the diverse formation of holocentromeres. [ABSTRACT FROM AUTHOR]

Published

2024

43. Oncogenic extrachromosomal DNA identification using whole-genome sequencing from formalin-fixed glioblastomas.

Author

Noorani, I., Luebeck, J., Rowan, A., Grönroos, E., Barbe, V., Fabian, M., Nicoll, J.A.R., Boche, D., Bafna, V., Mischel, P.S., and Swanton, C.

Subjects

*WHOLE genome sequencing, *EXTRACHROMOSOMAL DNA, *DNA fingerprinting

Published

2024

44. Plasma extrachromosomal circular DNA as a potential diagnostic biomarker for nodular thyroid disease.

Author

Zhou, Meng, Lv, Wei, Han, Peng, Sun, Kai, Hao, Ziqian, Gao, Ling, Xu, Yunyun, Xu, Zhe, Shao, Shanshan, Ma, Shizhan, Guo, Qingling, Zhang, Haiqing, Liu, Ke, Yang, Fan, Yuan, Zhongshang, Wu, Guojun, Yu, Changbin, Luo, Yonglun, Yao, Zhenyu, and Zhao, Jiajun

Subjects

*NODULAR disease, *CIRCULAR DNA, *EXTRACHROMOSOMAL DNA, *THYROID diseases, *BIOMARKERS, *CONVOLUTIONAL neural networks, *CIRCULATING tumor DNA

Abstract

This article explores the potential of plasma extrachromosomal circular DNA (eccDNA) as a diagnostic biomarker for distinguishing between benign and malignant thyroid nodules, specifically papillary thyroid carcinoma (PTC). The study utilizes Circle-seq technology and machine learning to analyze eccDNA profiles in plasma samples from healthy controls, nodular thyroid goitre patients, and PTC patients. The results show significant differences in eccDNA counts and genomic characteristics between the groups, suggesting the potential of eccDNA as a non-invasive biomarker for diagnosing thyroid cancer. However, the study acknowledges the limitation of a small sample size and the need for further research to validate the findings. [Extracted from the article]

Published

2024

45. Disentangling oncogenic amplicons in esophageal adenocarcinoma.

Author

Ng, Alvin Wei Tian, McClurg, Dylan Peter, Wesley, Ben, Zamani, Shahriar A., Black, Emily, Miremadi, Ahmad, Giger, Olivier, Hoopen, Rogier ten, Devonshire, Ginny, Redmond, Aisling M., Grehan, Nicola, Jammula, Sriganesh, Blasko, Adrienn, Li, Xiaodun, Aparicio, Samuel, Tavaré, Simon, Edwards, Paul A. W., Nutzinger, Barbara, Loreno, Christine, and Abbas, Sujath

Subjects

EXTRACHROMOSOMAL DNA, ADENOCARCINOMA, DNA sequencing, DNA methylation, ONCOGENES, GENE enhancers

Abstract

Esophageal adenocarcinoma is a prominent example of cancer characterized by frequent amplifications in oncogenes. However, the mechanisms leading to amplicons that involve breakage-fusion-bridge cycles and extrachromosomal DNA are poorly understood. Here, we use 710 esophageal adenocarcinoma cases with matched samples and patient-derived organoids to disentangle complex amplicons and their associated mechanisms. Short-read sequencing identifies ERBB2, MYC, MDM2, and HMGA2 as the most frequent oncogenes amplified in extrachromosomal DNAs. We resolve complex extrachromosomal DNA and breakage-fusion-bridge cycles amplicons by integrating of de-novo assemblies and DNA methylation in nine long-read sequenced cases. Complex amplicons shared between precancerous biopsy and late-stage tumor, an enrichment of putative enhancer elements and mobile element insertions are potential drivers of complex amplicons' origin. We find that patient-derived organoids recapitulate extrachromosomal DNA observed in the primary tumors and single-cell DNA sequencing capture extrachromosomal DNA-driven clonal dynamics across passages. Prospectively, long-read and single-cell DNA sequencing technologies can lead to better prediction of clonal evolution in esophageal adenocarcinoma. Esophageal adenocarcinoma is characterised by frequent amplifications in oncogenes. Here, the authors use short- and long-read sequencing approaches to analyze primary tumor samples and tumour-derived organoids and to investigate the mechanisms underlying complex amplifications. [ABSTRACT FROM AUTHOR]

Published

2024

46. Characterization of extrachromosomal circular DNAs in plasma of patients with clear cell renal cell carcinoma.

Author

Li, Qing, Zhang, Rui-Xuan, Yang, Jing-Jing, Huang, Hou-Bao, Feng, Gang, and Li, Guo-Rong

Subjects

*EXTRACHROMOSOMAL DNA, *CIRCULAR DNA, *GENE expression, *PLASMA potentials, *NUCLEOTIDE sequencing, *RENAL cell carcinoma, *CIRCULATING tumor DNA

Abstract

Background and Purpose: Extrachromosomal circular DNAs (eccDNAs) have been recognized for their significant involvement in numerous biological processes. Nonetheless, the existence and molecular characteristics of eccDNA in the peripheral blood of patients diagnosed with clear cell renal cell carcinoma (ccRCC) have not yet been reported. Our aim was to identify potentially marked plasma eccDNAs in ccRCC patients. Methods and Materials: The detection of plasma eccDNA in ccRCC patients and healthy controls was performed using the Tn5-tagmentation and next-generation sequencing (NGS) method. Comparisons were made between ccRCC patients and healthy controls regarding the distribution of length, gene annotation, pattern of junctional nucleotide motif, and expression pattern of plasma eccDNA. Results: We found 8,568 and 8,150 plasma eccDNAs in ccRCC patients and healthy controls, respectively. There were no statistical differences in the length distribution, gene annotation, and motif signature of plasma eccDNAs between the two groups. A total of 701 differentially expressed plasma eccDNAs were identified, and 25 plasma eccDNAs with potential diagnostic value for ccRCC have been successfully screened. These up-regulated plasma eccDNAs also be indicated to originate from the genomic region of the tumor-associated genes. Conclusion: This work demonstrates the characterization of plasma eccDNAs in ccRCC and suggests that the up-regulated plasma eccDNAs could be considered as a promising non-invasive biomarker in ccRCC. [ABSTRACT FROM AUTHOR]

Published

2024

47. Characterization, biogenesis model, and current bioinformatics of human extrachromosomal circular DNA.

Author

Lina Zhou, Wenyi Tang, Bo Ye, and Lingyun Zou

Subjects

EXTRACHROMOSOMAL DNA, CIRCULAR DNA, BIOINFORMATICS, MOLECULAR diagnosis, RESEARCH personnel, CIRCULAR RNA

Abstract

Human extrachromosomal circular DNA, or eccDNA, has been the topic of extensive investigation in the last decade due to its prominent regulatory role in the development of disorders including cancer. With the rapid advancement of experimental, sequencing and computational technology, millions of eccDNA records are now accessible. Unfortunately, the literature and databases only provide snippets of this information, preventing us from fully understanding eccDNAs. Researchers frequently struggle with the process of selecting algorithms and tools to examine eccDNAs of interest. To explain the underlying formation mechanisms of the five basic classes of eccDNAs, we categorized their characteristics and functions and summarized eight biogenesis theories. Most significantly, we created a clear procedure to help in the selection of suitable techniques and tools and thoroughly examined the most recent experimental and bioinformatics methodologies and data resources for identifying, measuring and analyzing eccDNA sequences. In conclusion, we highlighted the current obstacles and prospective paths for eccDNA research, specifically discussing their probable uses in molecular diagnostics and clinical prediction, with an emphasis on the potential contribution of novel computational strategies. [ABSTRACT FROM AUTHOR]

Published

2024

48. Extrachromosomal telomere DNA derived from excessive strand displacements.

Author

Junyeop Lee, Jina Lee, Sohn, Eric J., Taglialatela, Angelo, O'Sullivan, Roderick J., Ciccia, Alberto, and Jaewon Min

Subjects

*EXTRACHROMOSOMAL DNA, *SINGLE-stranded DNA, *DNA synthesis, *DNA polymerases, *TELOMERES

Abstract

Alternative lengthening of telomeres (ALT) is a telomere maintenance mechanism mediated by break-induced replication, evident in approximately 15% of human cancers. A characteristic feature of ALT cancers is the presence of C-circles, circular single-stranded telomeric DNAs composed of C-rich sequences. Despite the fact that extrachromosomal C-rich single-stranded DNAs (ssDNAs), including C-circles, are unique to ALT cells, their generation process remains undefined. Here, we introduce a method to detect single-stranded telomeric DNA, called 4SET (Strand-Specific Southern-blot for Single-stranded Extrachromosomal Telomeres) assay. Utilizing 4SET, we are able to capture C-rich single-stranded DNAs that are near 200 to 1500 nucleotides in size. Both linear C-rich ssDNAs and C-circles are abundant in the fractions of cytoplasm and nucleoplasm, which supports the idea that linear and circular C-rich ssDNAs are generated concurrently. We also found that C-rich ssDNAs originate during Okazaki fragment processing during lagging strand DNA synthesis. The generation of C-rich ssDNA requires CST-PP (CTC1/STN1/TEN1-PRIMASE-Polymerase alpha) complex-mediated priming of the C-strand DNA synthesis and subsequent excessive strand displacement of the C-rich strand mediated by the DNA Polymerase delta and the BLM helicase. Our work proposes a model for the generation of C-rich ssDNAs and C-circles during ALT-mediated telomere elongation. [ABSTRACT FROM AUTHOR]

Published

2024

49. Exploring the extrachromosomal plasmid rDNA of Naegleria fowleri AY27 genotype II: A human brain-eating amoeba via high-throughput sequencing.

Author

Aurongzeb, Muhammad, Hafiz Malik, Muhammad Talha, Jahanzaib, Muhammad, Hassan, Syed Shah, Rashid, Yasmeen, Aziz, Tariq, and Alharbi, Metab

Subjects

*NAEGLERIA fowleri, *EXTRACHROMOSOMAL DNA, *NUCLEOTIDE sequencing, *RECOMBINANT DNA, *RIBOSOMAL DNA

Abstract

Naegleria fowleri, also known as brain-earing amoeba, causes severe and rapidly fatal CNS infection in humans called primary amebic meningoencephalitis (PAM). The DNA from the N. fowleri clinical isolate was sequenced for circular extrachromosomal ribosomal DNA (CERE - rDNA). The CERE contains 18 S, 5.8 S, and 28 S ribosomal subunits separated by internal transcribed spacers, 5 open reading frames (ORFs), and mostly repeat elements comprising 7268 bp out of 15,786 bp (46%). A wide variety of variations and recombination events were observed. Finally, the ORFs that comprised only 4 hypothetical proteins were modeled and screened against Zinc drug-like compounds. Two compounds [ZINC77564275 (ethyl 2-(((4-isopropyl-4 H-1,2,4-triazol-3-yl) methyl) (methyl)amino) oxazole-4-carboxylate) and ZINC15022129 (5-(2-methoxyphenoxy)-[2,2'-bipyrimidine]-4,6(1 H,5 H)-dione)] were finalized as potential druggable compounds based on ADME toxicity analysis. We propose that the compounds showing the least toxicity would be potential drug candidates after laboratory experimental validation is performed. [ABSTRACT FROM AUTHOR]

Published

2024

50. CoRAL Accurately Resolves Extrachromosomal DNA Genome Structures with Long-Read Sequencing

Author

Zhu, Kaiyuan, Jones, Matthew G., Luebeck, Jens, Bu, Xinxin, Yi, Hyerim, Hung, King L., Wong, Ivy Tsz-Lo, Zhang, Shu, Mischel, Paul S., Chang, Howard Y., Bafna, Vineet, Goos, Gerhard, Series Editor, Hartmanis, Juris, Founding Editor, van Leeuwen, Jan, Series Editor, Hutchison, David, Editorial Board Member, Kanade, Takeo, Editorial Board Member, Kittler, Josef, Editorial Board Member, Kleinberg, Jon M., Editorial Board Member, Kobsa, Alfred, Series Editor, Mattern, Friedemann, Editorial Board Member, Mitchell, John C., Editorial Board Member, Naor, Moni, Editorial Board Member, Nierstrasz, Oscar, Series Editor, Pandu Rangan, C., Editorial Board Member, Sudan, Madhu, Series Editor, Terzopoulos, Demetri, Editorial Board Member, Tygar, Doug, Editorial Board Member, Weikum, Gerhard, Series Editor, Vardi, Moshe Y, Series Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Woeginger, Gerhard, Editorial Board Member, and Ma, Jian, editor

Published

2024