HPV16-LINC00393 Integration Alters Local 3D Genome Architecture in Cervical Cancer Cells

Xu, Xinxin; Han, Zhiqiang; Ruan, Yetian; Liu, Min; Cao, Guangxu; Li, Chao; Li, Fang

doi:10.3389/fcimb.2021.785169

Cited by 12 publications

(29 citation statements)

References 58 publications

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“…The HBV, EBV, HPV, and HTLV-1 genomes contain binding sites for the transcriptional repressor and chromatin regulator CCCTC-binding factor (CTCF) [26,[73][74][75], which mediates the formation of loops in the human genome and establishes boundaries between hetero-and euchromatin [76]. Chromosome conformation capture (Hi-C) studies on human cervical cancer biopsies harboring HPV integrations into the RIG CCDC106, as well as HPV provirusharboring cell lines, showed changes within host genomic topologically associating domains (TADs) as well as altered TAD borders in the vicinity of the integration site [25,77,78]. Changes in nuclear architecture were associated with the formation of new virus-host DNA interactions, including with host enhancer sequences [25,78].…”

Section: Box 1 Chromatin Remodeling Resulting From Viral Integrationmentioning

confidence: 99%

“…Changes in nuclear architecture were associated with the formation of new virus-host DNA interactions, including with host enhancer sequences [25,78]. Associated changes in gene expression included the transcriptional down-and upregulation of genes encoding tumor-suppressor (PEG3 and KLF12) and proto-oncogene (CCDC106) functions in HPV-harboring cell lines and cervical cancer biopsies [77][78][79]. Similarly, assays revealed that HBV, upon integration, establishes 3D contact regions with cellular chromatin [80,81].…”

Section: Box 1 Chromatin Remodeling Resulting From Viral Integrationmentioning

confidence: 99%

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Potential multi-modal effects of provirus integration on HIV-1 persistence: lessons from other viruses

Linden

Jones

2022

Trends in Immunology

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Section: Box 1 Chromatin Remodeling Resulting From Viral Integrationmentioning

confidence: 99%

Section: Box 1 Chromatin Remodeling Resulting From Viral Integrationmentioning

confidence: 99%

Potential multi-modal effects of provirus integration on HIV-1 persistence: lessons from other viruses

Linden

Jones

2022

Trends in Immunology

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“…This may be due to the fact that the host chromatin structure is influencing the HPV associated genomic alterations (amplification/translocation) during the integration processes or limiting the HPV integration mediated chromatin interaction changes to intra-TAD because of the insulation property of TAD boundaries. Recent studies have shown that HPV integration can cause changes in the local TAD structures in advanced cervical cancers (Cao et al 2020) and also in human cell lines: HPV16 integration in W12 (prior to clonal selection) (Groves et al 2021) and HPV16 integration in SiHA cell line (Xu et al 2021). Our results further extend this observation genome-wide in cervical tumours and show that the majority of the HPV integration induced chromatin changes and associated gene expression changes are mostly confined to the same TAD.…”

Section: Discussionmentioning

confidence: 99%

Cis-regulatory effect of HPV integration is constrained by host chromatin architecture in cervical cancers

Singh

Walavalkar

Tavernari

et al. 2022

Preprint

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Human papillomavirus (HPV) infections are the primary drivers of cervical cancers, and often the HPV DNA gets integrated into the host genome. Although the oncogenic impact of HPV encoded genes (such as E6/E7) is well known, the cis-regulatory effect of integrated HPV DNA on host chromatin structure and gene regulation remains less understood. Here, we investigate the genome-wide patterns of HPV integrations and associated host gene expression changes in the context of chromatin states and topologically associating domains (TADs). We find that HPV integrations are significantly enriched and depleted in active and inactive chromatin regions, respectively. Interestingly, regardless of the chromatin state, the genomic regions flanking HPV integrations showed transcriptional upregulation. Nevertheless, the upregulation (both local and long-range) is mostly confined to the TADs with integration and does not affect the adjacent TADs. Few TADs showed recurrent integrations associated with overexpression of oncogenes within them (such as MYC, PVT1, TP63 and ERBB2), regardless of the proximity. To further understand the long-range effect, we performed HiC and 4C-seq analyses in HeLa and observed chromatin looping interaction between the integrated HPV and MYC/PVT1 regions (situated ~500 kb apart), leading to allele-specific overexpression of these genes. Again, these chromatin interactions involving integrated HPV are mostly observed within the same TAD. Together, these results suggest the cis-regulatory potential of integrated HPV DNA that drives host gene upregulation at intra-TAD level in cervical cancer. Based on this, we propose HPV integrations can trigger multimodal oncogenic activation to promote cancer progression.

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“…These studies have reported that integration may occur in different chromosomes and regions of the human genome. Furthermore, vector integration preferentially occurs at fragile sites, transcriptionally active regions and those recurrently involved in translocation events [19][20][21][22][23]. However, most of these studies have been limited to human immunodeficiency virus (HIV), human papillomavirus (HPV) or Murine leukemia virus (MLV) infected cells and little is known about the characteristics of viral integration events in CAR T-cells.…”

Section: Introductionmentioning

confidence: 99%

Genome-wide profiling of retroviral DNA integration and its effect on clinical pre-infusion CAR T-cell products

et al. 2022

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Background Clinical CAR T-cell therapy using integrating vector systems represents a promising approach for the treatment of hematological malignancies. Lentiviral and γ-retroviral vectors are the most commonly used vectors in the manufacturing process. However, the integration pattern of these viral vectors and subsequent effect on CAR T-cell products is still unclear. Methods We used a modified viral integration sites analysis (VISA) pipeline to evaluate viral integration events around the whole genome in pre-infusion CAR T-cell products. We compared the differences of integration pattern between lentiviral and γ-retroviral products. We also explored whether the integration sites correlated with clinical outcomes. Results We found that γ-retroviral vectors were more likely to insert than lentiviral vectors into promoter, untranslated, and exon regions, while lentiviral vector integration sites were more likely to occur in intron and intergenic regions. Some integration events affected gene expression at the transcriptional and post-transcriptional level. Moreover, γ-retroviral vectors showed a stronger impact on the host transcriptome. Analysis of individuals with different clinical outcomes revealed genes with differential enrichment of integration events. These genes may affect biological functions by interrupting amino acid sequences and generating abnormal proteins, instead of by affecting mRNA expression. These results suggest that vector integration is associated with CAR T-cell efficacy and clinical responses. Conclusion We found differences in integration patterns, insertion hotspots and effects on gene expression vary between lentiviral and γ-retroviral vectors used in CAR T-cell products and established a foundation upon which we can conduct further analyses.

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HPV16-LINC00393 Integration Alters Local 3D Genome Architecture in Cervical Cancer Cells

Cited by 12 publications

References 58 publications

Potential multi-modal effects of provirus integration on HIV-1 persistence: lessons from other viruses

Potential multi-modal effects of provirus integration on HIV-1 persistence: lessons from other viruses

Cis-regulatory effect of HPV integration is constrained by host chromatin architecture in cervical cancers

Genome-wide profiling of retroviral DNA integration and its effect on clinical pre-infusion CAR T-cell products

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