The interaction of circRNAs and RNA binding proteins: An important part of circRNA maintenance and function

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Abstract

The widespread expression of circular RNAs (circRNAs) is regarded as a feature of gene expression in highly diverged eukaryotes. Recent studies have shown that circRNAs can act as a miRNA sponge to repress miRNA function, participate in splicing of target genes, translate genes into protein and interact with RNA binding proteins (RBPs). RBPs are a broad class of proteins involved in gene transcription and translation, and interaction with RBPs is considered an important part of circRNA function, which can serve as an essential element underlying the functions of circRNAs, including genesis, translation, transcriptional regulation of target genes, and extracellular transport. In this mini-review, we attempt to explore in detail the relationship between circRNAs and RBPs, and the interactions between the two factors. The goal of this review is to investigate the emerging studies of RBPs and circRNAs to better understand how their interaction alters cellular function.

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Coordinated circRNA Biogenesis and Function with NF90/NF110 in Viral Infection

Xiang Li, Chu-Xiao Liu, Wei Xue … (2017)

Circular RNAs (circRNAs) generated via back-splicing are enhanced by flanking complementary sequences. Expression levels of circRNAs vary under different conditions, suggesting participation of protein factors in their biogenesis. Using genome-wide siRNA screening that targets all human unique genes and an efficient circRNA expression reporter, we identify double-stranded RNA-binding domain containing immune factors NF90/NF110 as key regulators in circRNA biogenesis. NF90/NF110 promote circRNA production in the nucleus by associating with intronic RNA pairs juxtaposing the circRNA-forming exon(s); they also interact with mature circRNAs in the cytoplasm. Upon viral infection, circRNA expression is decreased, in part owing to the nuclear export of NF90/NF110 to the cytoplasm. Meanwhile, NF90/NF110 released from circRNP complexes bind to viral mRNAs as part of their functions in antiviral immune response. Our results therefore implicate a coordinated regulation of circRNA biogenesis and function by NF90/NF110 in viral infection.

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FUS affects circular RNA expression in murine embryonic stem cell-derived motor neurons

Lorenzo Errichelli, Stefano Dini Modigliani, Pietro Laneve … (2017)

The RNA-binding protein FUS participates in several RNA biosynthetic processes and has been linked to the pathogenesis of amyotrophic lateral sclerosis (ALS) and frontotemporal dementia. Here we report that FUS controls back-splicing reactions leading to circular RNA (circRNA) production. We identified circRNAs expressed in in vitro-derived mouse motor neurons (MNs) and determined that the production of a considerable number of these circRNAs is regulated by FUS. Using RNAi and overexpression of wild-type and ALS-associated FUS mutants, we directly correlate the modulation of circRNA biogenesis with alteration of FUS nuclear levels and with putative toxic gain of function activities. We also demonstrate that FUS regulates circRNA biogenesis by binding the introns flanking the back-splicing junctions and that this control can be reproduced with artificial constructs. Most circRNAs are conserved in humans and specific ones are deregulated in human-induced pluripotent stem cell-derived MNs carrying the FUSP525L mutation associated with ALS.