piRNA Defense Against Endogenous Retroviruses
Infection by retroviruses and the mobilization of transposable elements cause DNA damage that can be catastrophic for a cell. If the cell survives, the mutations generated by retrotransposition may confer a selective advantage, although, more commonly, the effect of new integrants is neutral or detr...
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2024-11-01
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| author | Milky Abajorga Leonid Yurkovetskiy Jeremy Luban |
| author_facet | Milky Abajorga Leonid Yurkovetskiy Jeremy Luban |
| author_sort | Milky Abajorga |
| collection | DOAJ |
| description | Infection by retroviruses and the mobilization of transposable elements cause DNA damage that can be catastrophic for a cell. If the cell survives, the mutations generated by retrotransposition may confer a selective advantage, although, more commonly, the effect of new integrants is neutral or detrimental. If retrotransposition occurs in gametes or in the early embryo, it introduces genetic modifications that can be transmitted to the progeny and may become fixed in the germline of that species. PIWI-interacting RNAs (piRNAs) are single-stranded, 21–35 nucleotide RNAs generated by the PIWI clade of Argonaute proteins that maintain the integrity of the animal germline by silencing transposons. The sequence specific manner by which piRNAs and germline-encoded PIWI proteins repress transposons is reminiscent of CRISPR, which retains memory for invading pathogen sequences. piRNAs are processed preferentially from the unspliced transcripts of piRNA clusters. Via complementary base pairing, mature antisense piRNAs guide the PIWI clade of Argonaute proteins to transposon RNAs for degradation. Moreover, these piRNA-loaded PIWI proteins are imported into the nucleus to modulate the co-transcriptional repression of transposons by initiating histone and DNA methylation. How retroviruses that invade germ cells are first recognized as foreign by the piRNA machinery, as well as how endogenous piRNA clusters targeting the sequences of invasive genetic elements are acquired, is not known. Currently, koalas (<i>Phascolarctos cinereus)</i> are going through an epidemic due to the horizontal and vertical transmission of the KoRV-A gammaretrovirus. This provides an unprecedented opportunity to study how an exogenous retrovirus becomes fixed in the genome of its host, and how piRNAs targeting this retrovirus are generated in germ cells of the infected animal. Initial experiments have shown that the unspliced transcript from KoRV-A proviruses in koala testes, but not the spliced KoRV-A transcript, is directly processed into sense-strand piRNAs. The cleavage of unspliced sense-strand transcripts is thought to serve as an initial innate defense until antisense piRNAs are generated and an adaptive KoRV-A-specific genome immune response is established. Further research is expected to determine how the piRNA machinery recognizes a new foreign genetic invader, how it distinguishes between spliced and unspliced transcripts, and how a mature genome immune response is established, with both sense and antisense piRNAs and the methylation of histones and DNA at the provirus promoter. |
| format | Article |
| id | doaj-art-3c281ab2ff20457daa57ffdd2b65065e |
| institution | DOAJ |
| issn | 1999-4915 |
| language | English |
| publishDate | 2024-11-01 |
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| series | Viruses |
| spelling | doaj-art-3c281ab2ff20457daa57ffdd2b65065e2025-08-20T02:48:09ZengMDPI AGViruses1999-49152024-11-011611175610.3390/v16111756piRNA Defense Against Endogenous RetrovirusesMilky Abajorga0Leonid Yurkovetskiy1Jeremy Luban2Program in Molecular Medicine, University of Massachusetts Chan Medical School, Worcester, MA 01605, USAProgram in Molecular Medicine, University of Massachusetts Chan Medical School, Worcester, MA 01605, USAProgram in Molecular Medicine, University of Massachusetts Chan Medical School, Worcester, MA 01605, USAInfection by retroviruses and the mobilization of transposable elements cause DNA damage that can be catastrophic for a cell. If the cell survives, the mutations generated by retrotransposition may confer a selective advantage, although, more commonly, the effect of new integrants is neutral or detrimental. If retrotransposition occurs in gametes or in the early embryo, it introduces genetic modifications that can be transmitted to the progeny and may become fixed in the germline of that species. PIWI-interacting RNAs (piRNAs) are single-stranded, 21–35 nucleotide RNAs generated by the PIWI clade of Argonaute proteins that maintain the integrity of the animal germline by silencing transposons. The sequence specific manner by which piRNAs and germline-encoded PIWI proteins repress transposons is reminiscent of CRISPR, which retains memory for invading pathogen sequences. piRNAs are processed preferentially from the unspliced transcripts of piRNA clusters. Via complementary base pairing, mature antisense piRNAs guide the PIWI clade of Argonaute proteins to transposon RNAs for degradation. Moreover, these piRNA-loaded PIWI proteins are imported into the nucleus to modulate the co-transcriptional repression of transposons by initiating histone and DNA methylation. How retroviruses that invade germ cells are first recognized as foreign by the piRNA machinery, as well as how endogenous piRNA clusters targeting the sequences of invasive genetic elements are acquired, is not known. Currently, koalas (<i>Phascolarctos cinereus)</i> are going through an epidemic due to the horizontal and vertical transmission of the KoRV-A gammaretrovirus. This provides an unprecedented opportunity to study how an exogenous retrovirus becomes fixed in the genome of its host, and how piRNAs targeting this retrovirus are generated in germ cells of the infected animal. Initial experiments have shown that the unspliced transcript from KoRV-A proviruses in koala testes, but not the spliced KoRV-A transcript, is directly processed into sense-strand piRNAs. The cleavage of unspliced sense-strand transcripts is thought to serve as an initial innate defense until antisense piRNAs are generated and an adaptive KoRV-A-specific genome immune response is established. Further research is expected to determine how the piRNA machinery recognizes a new foreign genetic invader, how it distinguishes between spliced and unspliced transcripts, and how a mature genome immune response is established, with both sense and antisense piRNAs and the methylation of histones and DNA at the provirus promoter.https://www.mdpi.com/1999-4915/16/11/1756endogenous retroviruspiRNAKoRV-AgammaretrovirusPIWIsplicing |
| spellingShingle | Milky Abajorga Leonid Yurkovetskiy Jeremy Luban piRNA Defense Against Endogenous Retroviruses Viruses endogenous retrovirus piRNA KoRV-A gammaretrovirus PIWI splicing |
| title | piRNA Defense Against Endogenous Retroviruses |
| title_full | piRNA Defense Against Endogenous Retroviruses |
| title_fullStr | piRNA Defense Against Endogenous Retroviruses |
| title_full_unstemmed | piRNA Defense Against Endogenous Retroviruses |
| title_short | piRNA Defense Against Endogenous Retroviruses |
| title_sort | pirna defense against endogenous retroviruses |
| topic | endogenous retrovirus piRNA KoRV-A gammaretrovirus PIWI splicing |
| url | https://www.mdpi.com/1999-4915/16/11/1756 |
| work_keys_str_mv | AT milkyabajorga pirnadefenseagainstendogenousretroviruses AT leonidyurkovetskiy pirnadefenseagainstendogenousretroviruses AT jeremyluban pirnadefenseagainstendogenousretroviruses |