LINE-1 expression in cancer correlates with DNA damage response, copy number variation, and cell cycle progression

McKerrow, Wilson; Wang, X; Mita, Paolo; Cao, Shuting; Grivainis, Mark; Li, Ding; LaCava, John; Boeke, Jef D.; Fenyö, David

doi:10.1101/2020.06.26.174052

Cited by 3 publications

(3 citation statements)

References 69 publications

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“…However, we also saw a high level of inferred "LINE-1" expression across all cell types (figure 1B). This is an unreasonable result given that previous IHC experiments show that LINE-1 is specifically overexpressed in cancer cells 2 , and our own analyses of tumor transcriptomes and proteomes indicate that LINE-1 expression is highly enriched in tumors compared to adjacent normal tissue 13 . Thus, we concluded that, in this analysis, any signal from LINE-1 has been almost completely overwhelmed by the presence of other transcripts that terminate at or near the 3' end of LINE-1.…”

Section: ' Targeted Scrna-seq Is Not Appropriate For Line-1 Quantitamentioning

confidence: 82%

“…While very strong evidence from both RNA and protein 36,46,47 shows that LINE-1 is highly expressed in many tumors, the extent of its expression in normal cellular contexts is much less well understood. New evidence has linked retrotransposons broadly or LINE-1 specifically to a variety of non-cancer diseases, including age-related inflammation 16,32 , neurodegenerative diseases 48–50 and autoimmune disorders 51,52 .…”

Section: Discussionmentioning

confidence: 99%

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LINE-1 Retrotransposon expression in cancerous, epithelial and neuronal cells revealed by 5’ single-cell RNA-Seq

McKerrow

Evans

Rocha

et al. 2021

Preprint

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LINE-1 retrotransposons are known to be expressed in early development, in tumors and in the germline. Less is known about LINE-1 expression at the single cell level, especially outside the context of cancer. Because LINE-1 elements are present at a high copy number, many transcripts that are not driven by the LINE-1 promoter nevertheless terminate at the LINE-1 3’ UTR. Thus, 3’ targeted single cell RNA-seq datasets are not appropriate for studying LINE-1. However, 5’ targeted single cell datasets provide an opportunity to analyze LINE-1 expression at the single cell level. Most LINE-1 copies are 5’ truncated, and a transcript that contains the LINE-1 5’ UTR as its 5’ end is likely to have been transcribed from its promoter. We developed a method, L1-sc (LINE-1 expression for single cells), to quantify LINE-1 expression in 5’ targeted 10x genomics single cell RNA-seq datasets. Our method confirms that LINE-1 expression is high in cancer cells, but low or absent from immune cells. We also find that LINE-1 expression is elevated in epithelial compared to immune cells outside of the context of cancer and that it is also elevated in neurons compared to glia in the mouse hippocampus.

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Section: ' Targeted Scrna-seq Is Not Appropriate For Line-1 Quantitamentioning

confidence: 82%

Section: Discussionmentioning

confidence: 99%

LINE-1 Retrotransposon expression in cancerous, epithelial and neuronal cells revealed by 5’ single-cell RNA-Seq

McKerrow

Evans

Rocha

et al. 2021

Preprint

Self Cite

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“…However, mechanisms that limit LINE-1 expression are often dysfunctional in cancers, allowing for the expression and mobilization of LINE-1 [28,33,34]. LINE-1 expression has the potential to disrupt genomic stability, making it a likely component in cancer progression [35,36]. LINE-1 ORF1p expression has been observed in around 47% of tumors tested, and roughly in 40% of prostate tumors [33].…”

Section: Introductionmentioning

confidence: 99%

LINE-1 ORF1p RIP-seq reveals widespread association with p-body enriched mRNAs

Briggs

McKerrow

Mita

et al. 2020

Preprint

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Background: Long INterspersed Element-1 (LINE-1) is an autonomous retroelement able to "copy-and-paste" itself into new loci of the host genome through a process called retrotransposition. The LINE-1 bicistronic mRNA codes for two proteins, ORF1p, a nucleic acid chaperone, and ORF2p, a protein with endonuclease and reverse transcriptase activity. Both proteins bind LINE-1 mRNA in cis and are necessary for retrotransposition. While LINE-1 transcription is usually repressed in most healthy somatic cells through a plethora of mechanisms, ORF1p expression has been observed in nearly 50% of tumors, and new LINE-1 insertions have been documented in a similar fraction of tumors, including prostate cancer. Results: Here, we utilized RNA ImmunoPrecipitation (RIP) and the L1EM analysis software to identify ORF1p bound RNA in prostate cancer cells. We identified LINE-1 loci that were expressed in androgen sensitive and androgen independent cells, that we show are representative of LINE-1 copies expressed in prostate cancer before and after treatment. In all androgen independent cells, we found higher levels of LINE-1 RNA, as well as unique expression patterns of LINE-1 loci. Interestingly, we observed that ORF1p bound many non-LINE-1 mRNA in all prostate cancer cell lines evaluated, and polyA RNA, and RNA localized in p-bodies were especially enriched. Furthermore, the expression levels of many of the identified ORF1p bound mRNAs also correlated with expression of LINE-1 RNA in prostate tumors from The Cancer Genome Atlas (TCGA). Conclusion: Our results show a significant remodeling of LINE-1 loci expression in androgen independent cell lines when compared to parental androgen dependent cells, suggesting an evolution of LINE-1 expression during prostate cancer progression. Additionally, our finding that ORF1p bound a significant amount of non-LINE-1 mRNA, and that the enriched ORF1p bound mRNAs are also amplified in LINE-1 expressing TCGA prostate tumors, suggest that ORF1p may play a role in non-LINE-1 RNA processing and regulation of specific transcripts in prostate tumors.

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RIP-seq reveals LINE-1 ORF1p association with p-body enriched mRNAs

et al. 2021

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Background Long INterspersed Element-1 (LINE-1) is an autonomous retroelement able to “copy-and-paste” itself into new loci of the host genome through a process called retrotransposition. The LINE-1 bicistronic mRNA codes for two proteins, ORF1p, a nucleic acid chaperone, and ORF2p, a protein with endonuclease and reverse transcriptase activity. Both proteins bind LINE-1 mRNA in cis and are necessary for retrotransposition. While LINE-1 transcription is usually repressed in most healthy somatic cells through a plethora of mechanisms, ORF1p expression has been observed in nearly 50% of tumors, and new LINE-1 insertions have been documented in a similar fraction of tumors, including prostate cancer. Results Here, we utilized RNA ImmunoPrecipitation (RIP) and the L1EM analysis software to identify ORF1p bound RNA in prostate cancer cells. We identified LINE-1 loci that were expressed in parental androgen sensitive and androgen independent clonal derivatives. In all androgen independent cells, we found higher levels of LINE-1 RNA, as well as unique expression patterns of LINE-1 loci. Interestingly, we observed that ORF1p bound many non-LINE-1 mRNA in all prostate cancer cell lines evaluated, and polyA RNA, and RNA localized in p-bodies were especially enriched. Furthermore, the expression levels of RNAs identified in our ORF1p RIP correlated with RNAs expressed in LINE-1 positive tumors from The Cancer Genome Atlas (TCGA). Conclusion Our results show a significant remodeling of LINE-1 loci expression in androgen independent cell lines when compared to parental androgen dependent cells. Additionally, we found that ORF1p bound a significant amount of non-LINE-1 mRNA, and that the enriched ORF1p bound mRNAs are also amplified in LINE-1 expressing TCGA prostate tumors, indicating the biological relevance of our findings to prostate cancer.

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LINE-1 expression in cancer correlates with DNA damage response, copy number variation, and cell cycle progression

Cited by 3 publications

References 69 publications

LINE-1 Retrotransposon expression in cancerous, epithelial and neuronal cells revealed by 5’ single-cell RNA-Seq

LINE-1 Retrotransposon expression in cancerous, epithelial and neuronal cells revealed by 5’ single-cell RNA-Seq

LINE-1 ORF1p RIP-seq reveals widespread association with p-body enriched mRNAs

RIP-seq reveals LINE-1 ORF1p association with p-body enriched mRNAs

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