Regulation of L1 expression and retrotransposition by melatonin and its receptor: implications for cancer risk associated with light exposure at night

deHaro, Dawn; Kines, Kristine J.; Sokolowski, Mark J.; Dauchy, Robert T.; Streva, Vincent A.; Hill, Steven M.; Hanifin, John P.; Brainard, George C.; Blask, David E.; Belancio, Victoria P.

doi:10.1093/nar/gku503

Cited by 55 publications

(53 citation statements)

References 87 publications

(143 reference statements)

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“…1 Our recent findings illustrate several novel features of L1 biology directly relevant to human health. Specifically, we highlight a new dimension to the complex regulation of both L1 expression and damage through the unforeseen connection between L1, the host's circadian system, and environmental light exposure at night in vivo.…”

mentioning

confidence: 62%

“…1 Analysis of endogenous human L1 expression in PC3-derived xenografts perfused with human blood collected at noon or midnight as well as at night after exposure to bright light demonstrated that night-time blood suppresses L1 expression. The addition of exogenous melatonin to melatonin-poor blood during perfusion suppressed L1 expression; while the addition of non-selective antagonist of melatonin receptors during perfusion with melatonin-rich blood restored detection of L1 mRNA in tumor samples.…”

mentioning

confidence: 99%

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LINE-1 activity as molecular basis for genomic instability associated with light exposure at night

Belancio

2015

Mobile Genetic Elements

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confidence: 62%

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confidence: 99%

LINE-1 activity as molecular basis for genomic instability associated with light exposure at night

Belancio

2015

Mobile Genetic Elements

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“…L1 expression and retrotransposition are suppressed by many diverse cellular pathways in order to minimize the genomic damage inflicted by L1 activity [20,[43][44][45][46][47][48][49][50]. L1 encodes an ORF2 protein with several identified functions essential for the retrotransposition process.…”

Section: Discussionmentioning

confidence: 99%

Development of a monoclonal antibody specific to the endonuclease domain of the human LINE-1 ORF2 protein

et al. 2014

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Background: LINE-1 (L1) retrotransposons are common occupants of mammalian genomes representing about a fifth of the genetic content. Ongoing L1 retrotransposition in the germ line and somatic tissues has contributed to structural genomic variations and disease-causing mutations in the human genome. L1 mobilization relies on the function of two, self-encoded proteins, ORF1 and ORF2. The ORF2 protein contains two characterized domains: endonuclease and reverse transcriptase. Results: Using a bacterially purified endonuclease domain of the human L1 ORF2 protein, we have generated a monoclonal antibody specific to the human ORF2 protein. We determined that the epitope recognized by this monoclonal antibody includes amino acid 205, which is required for the function of the L1 ORF2 protein endonuclease. Using an in vitro L1 cleavage assay, we demonstrate that the monoclonal anti-ORF2 protein antibody partially inhibits L1 endonuclease activity without having any effect on the in vitro activity of the human AP endonuclease.

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“…The Belancio laboratory has recently reported that melatonin, via the MT 1 receptor mediated action, suppresses expression of the endogenous retrotransposon L1 in a tissue-isolated model of human cancer (Deharo et al 2014). This finding supports that LEN-induced suppression of nocturnal melatonin synthesis activates L1 expression.…”

Section: Melatonin Regulation Of Genomic Instabilitymentioning

confidence: 99%

Melatonin: an inhibitor of breast cancer

Hill¹,

Belancio²,

Dauchy³

et al. 2015

Endocrine-Related Cancer

279

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This review discusses recent work on melatonin-mediated circadian regulation and metabolic and molecular signaling mechanisms involved in human breast cancer growth and associated consequences of circadian disruption by exposure to light at night (LEN). The anti-cancer actions of the circadian melatonin signal in human breast cancer cell lines and xenografts heavily involve MT1 receptor-mediated mechanisms. In estrogen receptor alpha (ERα)-positive human breast cancer, melatonin, via the MT1 receptor, suppresses ERα mRNA expression and ERα transcriptional activity. As well, melatonin regulates the transactivation of other members of the nuclear receptor super-family, estrogen metabolizing enzymes, and the expression of core clock and clock-related genes. Furthermore, melatonin also suppresses tumor aerobic metabolism (Warburg effect), and, subsequently, cell-signaling pathways critical to cell proliferation, cell survival, metastasis, and drug resistance. Melatonin demonstrates both cytostatic and cytotoxic activity in breast cancer cells that appears to be cell type specific. Melatonin also possesses anti-invasive/anti-metastatic actions that involve multiple pathways including inhibition of p38 MAPK and repression of epithelial-to-mesenchymal transition. Studies demonstrate that melatonin promotes genomic stability by inhibiting the expression of LINE-1 retrotransposons. Finally, research in animal and human models indicate that LEN induced disruption of the circadian nocturnal melatonin signal promotes the growth, metabolism, and signaling of human breast cancer to drive breast tumors to endocrine and chemotherapeutic resistance. These data provide the strongest understanding and support of the mechanisms underpinning the epidemiologic demonstration of elevated breast cancer risk in night shift workers and other individuals increasingly exposed to LEN.

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Regulation of L1 expression and retrotransposition by melatonin and its receptor: implications for cancer risk associated with light exposure at night

Cited by 55 publications

References 87 publications

LINE-1 activity as molecular basis for genomic instability associated with light exposure at night

LINE-1 activity as molecular basis for genomic instability associated with light exposure at night

Development of a monoclonal antibody specific to the endonuclease domain of the human LINE-1 ORF2 protein

Melatonin: an inhibitor of breast cancer

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