Abstract
Long interspersed nuclear element 1 (LINE-1 or L1) is a non-long terminal repeat (LTR) retrotransposon that constitutes approximately 17% of the human genome. Since approximately 100 copies are still competent for retrotransposition to other genomic loci, dysregulated retrotransposition of L1 is considered to be a major risk factor of endogenous mutagenesis in humans. Thus, it is important to find drugs to regulate this process. Although various chemicals are reportedly capable of affecting L1 retrotransposition, it is poorly understood whether phytochemicals modulate L1 retrotransposition. Here, we screened a library of compounds that were derived from phytochemicals for reverse transcriptase (RT) inhibition with an in vitro RT assay. We identified capsaicin as a novel RT inhibitor that also suppressed L1 retrotransposition. The inhibitory effect of capsaicin on L1 retrotransposition was mediated neither through its receptor, nor through its modulation of the L1 promoter and/or antisense promoter activity, excluding the possibility that capsaicin indirectly affected L1 retrotransposition. Collectively, capsaicin suppressed L1 retrotransposition most likely by inhibiting the RT activity of L1 ORF2p, which is the L1-encoded RT responsible for L1 retrotransposition. Given that L1-mediated mutagenesis can cause tumorigenesis, our findings suggest the potential of capsaicin for suppressing cancer development.
Highlights
The eukaryotic genome contains retrotransposable elements, known as retrotransposons, with or without long terminal repeats (LTRs)
We tested the effects of such chemicals on L1 retrotransposition
We identified capsaicin as a novel reverse transcriptase (RT) inhibitor that suppresses L1 retrotransposition
Summary
The eukaryotic genome contains retrotransposable elements, known as retrotransposons, with or without long terminal repeats (LTRs). Natural L1 insertions into genes encoding for factor VIII and dystrophin have been found in hemophilia A and muscular dystrophy cases, respectively [12,13]. Environmental factors, such as chemicals, to find drugs that modulate L1 retrotransposition activity Environmental factors, such as chemicals, oxidative stress, and infection, are reportedly capable of affecting L1 retrotransposition [9,11,14,15]. Capsaicin suppressed L1 retrotransposition in a dose-dependent manner, while it did not affect the L1 suppressed L1 retrotransposition in a dose-dependent manner, while it did not affect the L1 promoter and antisense promoter activities.
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