Influence of surface plasmon resonance on the emission intermittency of photoluminescence from gold nano-sea-urchins

Circular RNAs (circRNAs) are a novel class of non-coding RNA characterized by a covalently closed-loop structure generated through a special type of alternative splicing termed backsplicing. CircRNAs are emerging as a heterogeneous class of molecules involved in modulating gene expression by regulation of transcription, protein and miRNA functions. CircRNA expression is cell type and tissue specific and can be largely independent of the expression level of the linear host gene, indicating that regulation of expression might be an important aspect with regard to control of circRNA function. In this review, a brief introduction to the characteristics that define a circRNA will be given followed by a discussion of putative biogenesis pathways and modulators of circRNA expression as well as of the stage at which circRNA formation takes place. A brief summary of circRNA functions will also be provided and lastly, an outlook with a focus on unanswered questions regarding circRNA biology will be included.

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Spatial expression analyses of the putative oncogene ciRS-7 in cancer reshape the microRNA sponge theory

Kristensen

Ebbesen

Sokol

et al. 2020

Nat Commun

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Circular RNAs (circRNAs) have recently gained substantial attention in the cancer research field where most, including the putative oncogene ciRS-7 (CDR1as), have been proposed to function as competitive endogenous RNAs (ceRNAs) by sponging specific microRNAs. Here, we report the first spatially resolved cellular expression patterns of ciRS-7 in colon cancer and show that ciRS-7 is completely absent in the cancer cells, but highly expressed in stromal cells within the tumor microenvironment. Additionally, our data suggest that this generally apply to classical oncogene-driven adenocarcinomas, but not to other cancers, including malignant melanoma. Moreover, we find that correlations between circRNA and mRNA expression, which are commonly interpreted as evidence of a ceRNA function, can be explained by different cancer-to-stromal cell ratios among the studied tumor specimens. Together, these results have wide implications for future circRNA studies and highlight the importance of spatially resolving expression patterns of circRNAs proposed to function as ceRNAs.

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The RNA-binding protein SFPQ preserves long-intron splicing and regulates circRNA biogenesis in mammals

Stagsted

O’Leary

Ebbesen

2021

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Circular RNAs (circRNAs) represent an abundant and conserved entity of non-coding RNAs; however, the principles of biogenesis are currently not fully understood. Here, we identify two factors, splicing factor proline/glutamine rich (SFPQ) and non-POU domain-containing octamer-binding protein (NONO), to be enriched around circRNA loci. We observe a subclass of circRNAs, coined DALI circRNAs, with distal inverted Alu elements and long flanking introns to be highly deregulated upon SFPQ knockdown. Moreover, SFPQ depletion leads to increased intron retention with concomitant induction of cryptic splicing, premature transcription termination, and polyadenylation, particularly prevalent for long introns. Aberrant splicing in the upstream and downstream regions of circRNA producing exons are critical for shaping the circRNAome, and specifically, we identify missplicing in the immediate upstream region to be a conserved driver of circRNA biogenesis. Collectively, our data show that SFPQ plays an important role in maintaining intron integrity by ensuring accurate splicing of long introns, and disclose novel features governing Alu-independent circRNA production.

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Distinct circular RNA expression profiles in pediatric ependymomas

et al. 2021

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Pediatric ependymomas frequently develop in the cerebellum and are currently treated using non-specific therapies, in part, because few somatically mutated driver genes are present, and the underlying pathobiology is poorly described. Circular RNAs (circRNAs) constitute as a large class of primarily non-coding RNAs with important roles in tumorigenesis, but they have not been described in pediatric ependymomas. To advance our molecular understanding of ependymomas, we performed Next Generation Sequencing of rRNA-depleted total RNA of 10 primary ependymoma and three control samples. CircRNA expression patterns were correlated to disease stage, outcome, age, and gender. We found a profound global downregulation of circRNAs in ependymoma relative to control samples. Many differentially expressed circRNAs were discovered and circSMARCA5 and circ-FBXW7, which are described as tumor suppressors in glioma and glioblastomas in adults, were among the most downregulated. Moreover, patients with a dismal outcome clustered separately from patients with a good prognosis in unsupervised hierarchical cluster analyses. Next, NanoString nCounter experiments were performed, using a custom-designed panel targeting 66 selected circRNAs, on a larger cohort that also in

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microRNA sponging by a new hearty circRNA

Ebbesen¹,

Kjems²

2017

Non-coding RNA Investig

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circPVT1 and PVT1/AKT3 show a role in cell proliferation, apoptosis, and tumor subtype‐definition in small cell lung cancer

Tolomeo

Traversa

Venuto

et al. 2023

Genes Chromosomes & Cancer

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Karoline K Ebbesen

The biogenesis, biology and characterization of circular RNAs

Circular RNAs: Identification, biogenesis and function

Insights into circular RNA biology

Spatial expression analyses of the putative oncogene ciRS-7 in cancer reshape the microRNA sponge theory

The RNA-binding protein SFPQ preserves long-intron splicing and regulates circRNA biogenesis in mammals

Distinct circular RNA expression profiles in pediatric ependymomas

microRNA sponging by a new hearty circRNA

circPVT1 and PVT1/AKT3 show a role in cell proliferation, apoptosis, and tumor subtype‐definition in small cell lung cancer

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