Knowledge about the presence or absence of miRNA isoforms (isomiRs) can successfully discriminate amongst 32 TCGA cancer types

Telonis, Aristeidis G.; Magee, Rogan; Loher, Phillipe; Chervoneva, Inna; Londin, Eric; Rigoutsos, Isidore

doi:10.1093/nar/gkx082

Cited by 172 publications

(198 citation statements)

References 96 publications

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“…However, it has already been shown that, in humans, these endpoint variations are constitutive in both healthy individuals and patients [10,24,25]. In fact, isomiRs have been shown to depend on a person's sex, population origin, and ethnicity [10,24], as well as on tissue, tissue state, and disease subtype [26,27]. Nontemplated nucleotide additions at the 3'-end can be due to nucleotide transferases (TUTase) that generally add adenine or uridine nucleotides [28].…”

Section: Resultsmentioning

confidence: 99%

“…Finally, post-transcriptional processing of miRNAs can generate nucleotide changes at any position of the sequence by RNA processing enzymes, such as A-to-I editing by ADAR enzymes [30]. The specific function of isomiRs is still not well understood, but multiple studies have suggested a context-specific effect of isomiRs on gene regulation [26,28,31,32]. This is further supported by the fact that different isomiRs from the same mature miRNA can target virtually non-overlapping sets of transcripts [10,[33][34][35].…”

Section: Resultsmentioning

confidence: 99%

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Unification of miRNA and isomiR research: the mirGFF3 format and the mirtop API

Desvignes

Loher

Eilbeck

et al. 2018

Preprint

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Background:MicroRNAs (miRNAs) are small RNA molecules (~22 nucleotide long) involved in posttranscriptional gene regulation. Advances in high-throughput sequencing technologies led to the discovery of isomiRs, which are miRNA sequence variants. While many miRNA-seq analysis tools exist, a lack of consensus on miRNA/isomiR analyses exists, and the resulting diversity of output formats hinders accurate comparisons between tools and precludes data sharing and the development of common downstream analysis methods. Conclusions:Collectively a comprehensive isomiR categorization system, along with the accompanying mirGFF3 and mirtop API provide a complete solution for the standardization of miRNA and isomiR analysis, enabling data sharing, reporting, comparative analyses, and benchmarking, while promoting the development of common miRNA methods focusing on downstream steps to miRNA detection, annotation, and quantification.

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Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

Unification of miRNA and isomiR research: the mirGFF3 format and the mirtop API

Desvignes

Loher

Eilbeck

et al. 2018

Preprint

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“…Growing evidence suggests that isomiRs are generated in a context-dependent manner and play physiologically relevant roles during developmental and pathological processes (Hinton et al 2014;Tan et al 2014;Guo et al 2016;Wang et al 2016). Notably, it was shown that isomiR profiles successfully classify diverse cancer types and, when combined with miRNA profiles, improve discrimination between cancer and normal tissues (Telonis et al 2015;Koppers-Lalic et al 2016;Telonis et al 2017), highlighting isomiRs as potential diagnostic biomarkers. Therefore, applying AQ-seq to biosamples may enhance the diagnostic power of sRNA-seq.…”

Section: Discussionmentioning

confidence: 99%

AQ-seq: Accurate quantification of microRNAs and their variants

Kim

et al. 2018

Preprint

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MicroRNAs (miRNAs) modulate diverse biological and pathological processes via posttranscriptional gene silencing. High-throughput small RNA sequencing (sRNA-seq) has been widely adopted to investigate the functions and regulatory mechanisms of miRNAs. However, accurate quantification has been limited owing to the severe ligation bias in conventional sRNAseq methods. Here we present a high-throughput protocol, termed AQ-seq (accurate quantification by sequencing), that utilizes adapters with terminal degenerate sequences and a high concentration of polyethylene glycol (PEG), which removes the ligation bias during library preparation. By accurately measuring miRNAs and their variants (known as isomiRs), we identify alternatively processed miRNAs and correct the 5′ end usage and strand preference that have been misannotated. We also uncover highly modified miRNAs that are uridylated and adenylated.Taken together, AQ-seq reveals the complexity of the miRNA isoform landscape, allowing us to refine miRNA annotation and to advance our understanding of miRNA regulation. Furthermore, AQ-seq can be adopted to improve other ligation-based sequencing methods including crosslinking-immunoprecipitation-sequencing (CLIP-seq) and ribosome profiling (Ribo-seq).

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“…These isomiRs increase the complexity of correctly identifying and quantifying specific microRNA species. Specific isomiR patterns have been reported to stratify diseases, such as cancer 6 , suggesting that accurate measurement of specific isomiRs may have clinical utility. At present, RNA sequencing is the only technique able to accurately detect and quantify isomiRs.…”

Section: Introductionmentioning

confidence: 99%

Direct detection of circulating microRNA-122 using dynamic chemical labelling with single molecule detection overcomes stability and isomiR challenges for biomarker qualification

López‐Longarela

Morrison

Tranter

et al. 2019

Preprint

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Circulating microRNAs are biomarkers reported to be stable and translational across species. miR--122 (miR--122--5p) is a hepatocyte--specific microRNA biomarker for drug-induced liver injury (DILI). Our objective was to develop an extraction--free and amplification--free detection method for measuring miR--122 that has translational utility in context of DILI. We developed a single molecule dynamic chemical labelling (DCL) assay based on miR--122 hybridization to an abasic peptide nucleic acid probe that contained a reactive amine instead of a nucleotide at a specific position in the sequence. The single molecule DCL assay specifically measured miR--122 directly from 10 μL of serum or plasma without any extraction steps, with a fit--for--purpose limit of detection of 1.32 pM. In 192 human serum samples, DCL accurately identified patients at risk of DILI (area under ROC curve 0.98 (95%CI 0.96--1), P<0.0001). The miR--122 assay also quantified liver injury in rats and dogs. When DCL beads were added to serum, the miR--122 signal was stabilised (no loss of signal after 14 days at room temperature). By contrast, there was substantial degradation of miR--122 in the absence of beads (≈60% lost in 1 day). RNA sequencing demonstrated the presence of multiple miR--122 isomiRs with DILI that were at low concentration or not present in healthy patient serum. Sample degradation over time produced more isomiRs, particularly rapidly with DILI. PCR was inaccurate when analysing miR--122 isomiRs, whereas the DCL assay demonstrated accurate quantification. In summary, the DCL assay can accurately measure miR--122 directly from serum and plasma to diagnose liver injury in humans and other species, and can overcome important microRNA biomarker analytical and biological challenges.

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Knowledge about the presence or absence of miRNA isoforms (isomiRs) can successfully discriminate amongst 32 TCGA cancer types

Cited by 172 publications

References 96 publications

Unification of miRNA and isomiR research: the mirGFF3 format and the mirtop API

Unification of miRNA and isomiR research: the mirGFF3 format and the mirtop API

AQ-seq: Accurate quantification of microRNAs and their variants

Direct detection of circulating microRNA-122 using dynamic chemical labelling with single molecule detection overcomes stability and isomiR challenges for biomarker qualification

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