A conserved motif of vertebrate Y RNAs essential for chromosomal DNA replication

Gardiner, Timothy J.; Christov, Christo P.; Langley, Alexander R.; Krude, Torsten

doi:10.1261/rna.1472009

Cited by 41 publications

(140 citation statements)

References 47 publications

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“…The 83-nt primary hY5 transcript, which is reported to form a very stable hairpin structure (van Gelder et al 1994;Maraia et al 1996) and thus likely renders the 23-and 31-nt regions inaccessible, also triggers substantially lower cell deaths. Interestingly, Gardiner et al (2009) and Wang et al (2014) reported a double-stranded version of the critical 8 nt found in the RNY5 sRNA (5 ′ GUAGUGGG3 ′ ) to be sufficient for RNY1 to support the initiation of DNA replication. However, in our studies it is clear that the hY5 31-and 23-nt processed products triggered cell death is attenuated in the presence of their complementary strands.…”

Section: Discussionmentioning

confidence: 99%

“…However, in our studies it is clear that the hY5 31-and 23-nt processed products triggered cell death is attenuated in the presence of their complementary strands. Although Gardiner et al (2009) did not report if a single-stranded version of this sequence was capable of supporting the initiation of replication, one possibility is that the single-stranded 31-and 23-nt sRNAs cause inappropriate and perhaps uncontrolled DNA replication signals in primary cells, triggering cell death. Such processed RNY5-stimulated signals might be less effective in cancer cell lines given their characteristic loss of DNA replication controls inherent with transformed cells.…”

Section: Discussionmentioning

confidence: 99%

“…3F). Gardiner et al (2009) reported that a conserved doublestranded sequence motif in the upper stem of all vertebrate Y-RNAs correlated with their participation in initiating DNA replication. Each of the products processed from the 5 ′ side of RNY5 in vivo and in vitro contains a single-stranded version of this motif.…”

Section: Processing Of Rny5 Rnas In Evsmentioning

confidence: 99%

“…Since these original observations, multiple descriptions of other ribonucleoprotein complexes involving Y RNAs have been described, prompting the hypothesis that Y-RNAs may have multiple functions based on the protein partners present in the complexes (Sim et al 2009). More recently, support for this hypothesis has been provided by reports that cellular Y-RNAs have specific functional roles including forming part of the initiation of DNA replication complex (Christov et al 2006;Gardiner et al 2009), the chaperoning of misfolded RNAs (Chen et al 2003;Gardiner et al 2009), and assisting in the quality control of 5S ribosomal RNAs (Hogg and Collins 2007). Correlated with each of these functional roles has been the identification of a variety of distinct proteins associated with the Y-RNAs involved.…”

Section: Introductionmentioning

confidence: 98%

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Extracellular vesicle-mediated transfer of processed and functional RNY5 RNA

Chakrabortty

Prakash

Nechooshtan

et al. 2015

RNA

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Extracellular vesicles (EVs) have been proposed as a means to promote intercellular communication. We show that when human primary cells are exposed to cancer cell EVs, rapid cell death of the primary cells is observed, while cancer cells treated with primary or cancer cell EVs do not display this response. The active agents that trigger cell death are 29-to 31-nucleotide (nt) or 22-to 23-nt processed fragments of an 83-nt primary transcript of the human RNY5 gene that are highly likely to be formed within the EVs. Primary cells treated with either cancer cell EVs, deproteinized total RNA from either primary or cancer cell EVs, or synthetic versions of 31-and 23-nt fragments trigger rapid cell death in a dose-dependent manner. The transfer of processed RNY5 fragments through EVs may reflect a novel strategy used by cancer cells toward the establishment of a favorable microenvironment for their proliferation and invasion.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Processing Of Rny5 Rnas In Evsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 98%

See 2 more Smart Citations

Extracellular vesicle-mediated transfer of processed and functional RNY5 RNA

Chakrabortty

Prakash

Nechooshtan

et al. 2015

RNA

View full text Add to dashboard Cite

show abstract

“…In extracts from human somatic cells, reconstitution of chromosomal DNA replication in isolated cell nuclei requires a class of non-coding RNAs termed Y RNAs (Christov et al, 2006;Gardiner et al, 2009;Krude et al, 2009). These are small, structured stem-loop RNAs of between 69-112 nucleotides in length, which are conserved in vertebrate evolution Farris et al, 1995;Mosig et al, 2007;Perreault et al, 2007).…”

Section: Introductionmentioning

confidence: 99%

Dynamic interaction of Y RNAs with chromatin and initiation proteins during human DNA replication

Zhang

Langley

Christov

et al. 2011

Journal of Cell Science

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SummaryNon-coding Y RNAs are required for the initiation of chromosomal DNA replication in mammalian cells. It is unknown how they perform this function or if they associate with a nuclear structure during DNA replication. Here, we investigate the association of Y RNAs with chromatin and their interaction with replication proteins during DNA replication in a human cell-free system. Our results show that fluorescently labelled Y RNAs associate with unreplicated euchromatin in late G1 phase cell nuclei before the initiation of DNA replication. Following initiation, Y RNAs are displaced locally from nascent and replicated DNA present in replication foci. In intact human cells, a substantial fraction of endogenous Y RNAs are associated with G1 phase nuclei, but not with G2 phase nuclei. Y RNAs interact and colocalise with the origin recognition complex (ORC), the pre-replication complex (pre-RC) protein Cdt1, and other proteins implicated in the initiation of DNA replication. These data support a molecular 'catch and release' mechanism for Y RNA function during the initiation of chromosomal DNA replication, which is consistent with Y RNAs acting as replication licensing factors.

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Are the Ro RNP‐associated Y RNAs concealing microRNAs? Y RNA‐derived miRNAs may be involved in autoimmunity

Verhagen

Pruijn

2011

BioEssays

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Here we discuss the hypothesis that the RNA components of the Ro ribonucleoproteins (RNPs), the Y RNAs, can be processed into microRNAs (miRNAs). Although Ro RNPs, whose main protein components Ro60 and La are targeted by the immune system in several autoimmune diseases, were discovered many years ago, their function is still poorly understood. Indeed, recent data show that miRNA-sized small RNAs can be generated from Y RNAs. This hypothesis leads also to a model in which Ro60 acts as a modulator in the Y RNA-derived miRNA biogenesis pathway. The implications of these Y RNA-derived miRNAs, which may be specifically produced under pathological circumstances such as in autoimmunity or during viral infections, for the enigmatic function of Ro RNPs are discussed.

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A conserved motif of vertebrate Y RNAs essential for chromosomal DNA replication

Cited by 41 publications

References 47 publications

Extracellular vesicle-mediated transfer of processed and functional RNY5 RNA

Extracellular vesicle-mediated transfer of processed and functional RNY5 RNA

Dynamic interaction of Y RNAs with chromatin and initiation proteins during human DNA replication

Are the Ro RNP‐associated Y RNAs concealing microRNAs? Y RNA‐derived miRNAs may be involved in autoimmunity

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