Your search keyword '"IsomiRs"' showing total 216 results

1. The subcellular distribution of miRNA isoforms, tRNA-derived fragments, and rRNA-derived fragments depends on nucleotide sequence and cell type

Author

Tess Cherlin, Yi Jing, Siddhartha Shah, Anne Kennedy, Aristeidis G. Telonis, Venetia Pliatsika, Haley Wilson, Lily Thompson, Panagiotis I. Vlantis, Phillipe Loher, Benjamin Leiby, and Isidore Rigoutsos

Subjects

Small non-coding RNAs, sncRNAs, microRNAs, miRNAs, miRNA isoforms, isomiRs, Biology (General), QH301-705.5

Abstract

Abstract Background MicroRNA isoforms (isomiRs), tRNA-derived fragments (tRFs), and rRNA-derived fragments (rRFs) represent most of the small non-coding RNAs (sncRNAs) found in cells. Members of these three classes modulate messenger RNA (mRNA) and protein abundance and are dysregulated in diseases. Experimental studies to date have assumed that the subcellular distribution of these molecules is well-understood, independent of cell type, and the same for all isoforms of a sncRNA. Results We tested these assumptions by investigating the subcellular distribution of isomiRs, tRFs, and rRFs in biological replicates from three cell lines from the same tissue and same-sex donors that model the same cancer subtype. In each cell line, we profiled the isomiRs, tRFs, and rRFs in the nucleus, cytoplasm, whole mitochondrion (MT), mitoplast (MP), and whole cell. Using a rigorous mathematical model we developed, we accounted for cross-fraction contamination and technical errors and adjusted the measured abundances accordingly. Analyses of the adjusted abundances show that isomiRs, tRFs, and rRFs exhibit complex patterns of subcellular distributions. These patterns depend on each sncRNA’s exact sequence and the cell type. Even in the same cell line, isoforms of the same sncRNA whose sequences differ by a few nucleotides (nts) can have different subcellular distributions. Conclusions SncRNAs with similar sequences have different subcellular distributions within and across cell lines, suggesting that each isoform could have a different function. Future computational and experimental studies of isomiRs, tRFs, and rRFs will need to distinguish among each molecule’s various isoforms and account for differences in each isoform’s subcellular distribution in the cell line at hand. While the findings add to a growing body of evidence that isomiRs, tRFs, rRFs, tRNAs, and rRNAs follow complex intracellular trafficking rules, further investigation is needed to exclude alternative explanations for the observed subcellular distribution of sncRNAs.

Published

2024

2. The subcellular distribution of miRNA isoforms, tRNA-derived fragments, and rRNA-derived fragments depends on nucleotide sequence and cell type.

Author

Cherlin, Tess, Jing, Yi, Shah, Siddhartha, Kennedy, Anne, Telonis, Aristeidis G., Pliatsika, Venetia, Wilson, Haley, Thompson, Lily, Vlantis, Panagiotis I., Loher, Phillipe, Leiby, Benjamin, and Rigoutsos, Isidore

Subjects

*NUCLEOTIDE sequence, *MESSENGER RNA, *NON-coding RNA, *CELL lines, *NUCLEOTIDES

Abstract

Background: MicroRNA isoforms (isomiRs), tRNA-derived fragments (tRFs), and rRNA-derived fragments (rRFs) represent most of the small non-coding RNAs (sncRNAs) found in cells. Members of these three classes modulate messenger RNA (mRNA) and protein abundance and are dysregulated in diseases. Experimental studies to date have assumed that the subcellular distribution of these molecules is well-understood, independent of cell type, and the same for all isoforms of a sncRNA. Results: We tested these assumptions by investigating the subcellular distribution of isomiRs, tRFs, and rRFs in biological replicates from three cell lines from the same tissue and same-sex donors that model the same cancer subtype. In each cell line, we profiled the isomiRs, tRFs, and rRFs in the nucleus, cytoplasm, whole mitochondrion (MT), mitoplast (MP), and whole cell. Using a rigorous mathematical model we developed, we accounted for cross-fraction contamination and technical errors and adjusted the measured abundances accordingly. Analyses of the adjusted abundances show that isomiRs, tRFs, and rRFs exhibit complex patterns of subcellular distributions. These patterns depend on each sncRNA's exact sequence and the cell type. Even in the same cell line, isoforms of the same sncRNA whose sequences differ by a few nucleotides (nts) can have different subcellular distributions. Conclusions: SncRNAs with similar sequences have different subcellular distributions within and across cell lines, suggesting that each isoform could have a different function. Future computational and experimental studies of isomiRs, tRFs, and rRFs will need to distinguish among each molecule's various isoforms and account for differences in each isoform's subcellular distribution in the cell line at hand. While the findings add to a growing body of evidence that isomiRs, tRFs, rRFs, tRNAs, and rRNAs follow complex intracellular trafficking rules, further investigation is needed to exclude alternative explanations for the observed subcellular distribution of sncRNAs. [ABSTRACT FROM AUTHOR]

Published

2024

3. MicroRNA Transcriptomes Reveal Prevalence of Rare and Species-Specific Arm Switching Events During Zebrafish Ontogenesis.

Author

Oliveira, Arthur Casulli de, Bovolenta, Luiz Augusto, Figueiredo, Lucas, Ribeiro, Amanda De Oliveira, Pereira, Beatriz Jacinto Alves, de Almeida, Talita Roberto Aleixo, Campos, Vinicius Farias, Patton, James G, and Pinhal, Danillo

Subjects

*TRANSCRIPTOMES, *GENETIC regulation, *MICRORNA, *GENE expression, *BRACHYDANIO, *HOMEOSTASIS

Abstract

In metazoans, microRNAs (miRNAs) are essential regulators of gene expression, affecting critical cellular processes from differentiation and proliferation, to homeostasis. During miRNA biogenesis, the miRNA strand that loads onto the RNA-induced Silencing Complex (RISC) can vary, leading to changes in gene targeting and modulation of biological pathways. To investigate the impact of these "arm switching" events on gene regulation, we analyzed a diverse range of tissues and developmental stages in zebrafish by comparing 5p and 3p arms accumulation dynamics between embryonic developmental stages, adult tissues, and sexes. We also compared variable arm usage patterns observed in zebrafish to other vertebrates including arm switching data from fish, birds, and mammals. Our comprehensive analysis revealed that variable arm usage events predominantly take place during embryonic development. It is also noteworthy that isomiR occurrence correlates to changes in arm selection evidencing an important role of microRNA distinct isoforms in reinforcing and modifying gene regulation by promoting dynamics switches on miRNA 5p and 3p arms accumulation. Our results shed new light on the emergence and coordination of gene expression regulation and pave the way for future investigations in this field. [ABSTRACT FROM AUTHOR]

Published

2024

4. Dual Role of microRNA-146a in Experimental Inflammation in Human Pulmonary Epithelial and Immune Cells and Expression in Inflammatory Lung Diseases.

Author

Gronau, Lucia, Duecker, Ruth P., Jerkic, Silvija-Pera, Eickmeier, Olaf, Trischler, Jordis, Chiocchetti, Andreas G., Blumchen, Katharina, Zielen, Stefan, and Schubert, Ralf

Subjects

*LUNG diseases, *EPITHELIAL cells, *BRONCHIOLITIS obliterans, *INFLAMMATION, *CYSTIC fibrosis

Abstract

microRNA (miR)-146a emerges as a promising post-transcriptional regulator in various inflammatory diseases with different roles for the two isoforms miR-146a-5p and miR-146a-3p. The present study aimed to examine the dual role of miR-146a-5p and miR-146a 3p in the modulation of inflammation in human pulmonary epithelial and immune cells in vitro as well as their expression in patients with inflammatory lung diseases. Experimental inflammation in human A549, HL60, and THP1 via the NF-kB pathway resulted in the major upregulation of miR-146a-5p and miR-146a-3p expression, which was partly cell-specific. Modulation by transfection with miRNA mimics and inhibitors demonstrated an anti-inflammatory effect of miR-146a-5p and a pro-inflammatory effect of miR-146a-3p, respectively. A mutual interference between miR-146a-5p and miR-146a-3p was observed, with miR-146a-5p exerting a predominant influence. In vivo NGS analyses revealed an upregulation of miR-146a-3p in the blood of patients with cystic fibrosis and bronchiolitis obliterans, while miR-146a-5p levels were downregulated or unchanged compared to controls. The reverse pattern was observed in patients with SARS-CoV-2 infection. In conclusion, miR-146a-5p and miR-146a-3p are two distinct but interconnected miRNA isoforms with opposing functions in inflammation regulation. Understanding their interaction provides important insights into the progression and persistence of inflammatory lung diseases and might provide potential therapeutic options. [ABSTRACT FROM AUTHOR]

Published

2024

5. Versatile RNA: overlooked gems of the transcriptome.

Author

Erdem, Murat, Cicek, Mustafa, and Erson‐Bensan, Ayse Elif

Subjects

*TRANSCRIPTOMES, *RNA, *NON-coding RNA, *FLEXIBLE structures, *RNA metabolism, *QUADRUPLEX nucleic acids

Abstract

The critical role of RNA, its use and targetability concerning different aspects of human health are gaining more attention because our understanding of the versatility of RNA has dramatically evolved over the last decades. We now appreciate that RNA is far more critical than a messenger molecule and possesses many complicated functions. As a multifunctional molecule with its sequence, flexible structures and enzymatic abilities, RNA is genuinely powerful. Mammalian transcriptomes consist of a dynamically regulated plethora of coding and noncoding RNA types. However, some aspects of RNA metabolism remain to be explored. In this Viewpoint, we focus on the transcriptome's unconventional and possibly overlooked aspects to emphasize the importance of RNA in mammalian systems. [ABSTRACT FROM AUTHOR]

Published

2023

6. 3′IsomiR Species Composition Affects Reliable Quantification of miRNA/isomiR Variants by Poly(A) RT-qPCR: Impact on Small RNA-Seq Profiling Validation.

Author

Ferre, Adriana, Santiago, Lucía, Sánchez-Herrero, José Francisco, López-Rodrigo, Olga, Sánchez-Curbelo, Josvany, Sumoy, Lauro, Bassas, Lluís, and Larriba, Sara

Subjects

*MICRORNA, *GENE expression, *RNA sequencing, *SPECIES, *AZOOSPERMIA

Abstract

Small RNA-sequencing (small RNA-seq) has revealed the presence of small RNA-naturally occurring variants such as microRNA (miRNA) isoforms or isomiRs. Due to their small size and the sequence similarity among miRNA isoforms, their validation by RT-qPCR is challenging. We previously identified two miR-31-5p isomiRs—the canonical and a 3′isomiR variant (3′ G addition)—which were differentially expressed between individuals with azoospermia of different origin. Here, we sought to determine the discriminatory capacity between these two closely-related miRNA isoforms of three alternative poly(A) based-RT-qPCR strategies in both synthetic and real biological context. We found that these poly(A) RT-qPCR strategies exhibit a significant cross-reactivity between these miR-31-5p isomiRs which differ by a single nucleotide, compromising the reliable quantification of individual miRNA isoforms. Fortunately, in the biological context, given that the two miRNA variants show changes in the same direction, RT-qPCR results were consistent with the findings of small RNA-seq study. We suggest that miRNA selection for RT-qPCR validation should be performed with care, prioritizing those canonical miRNAs that, in small RNA-seq, show parallel/homogeneous expression behavior with their most prevalent isomiRs, to avoid confounding RT-qPCR-based results. This is suggested as the current best strategy for robust biomarker selection to develop clinically useful tests. [ABSTRACT FROM AUTHOR]

Published

2023

7. MicroRNA-122 : release, uptake and isomiRs in drug-induced liver injury

Author

Tranter, John David, Dear, James, and Dhaun, Neeraj

Subjects

572.8, microRNAs, IsomiRs, miR-122, Extracellular vesicles, 3'-Dumbbell-PCR, Drug-induced liver injury, Paracetamol, Acetaminophen, Biomarkers

Abstract

microRNAs (miRNAs) are small, non-protein coding RNAs which post-transcriptionally downregulate gene expression. Circulating miRNAs are promising clinical biomarkers, and circulate either within extracellular vesicles (ECVs) or bound to proteins, both of which protect miRNAs against degradation. Recently, small RNA sequencing has demonstrated the existence of isomiRs, of which vary in length and/or sequence when compared to the parent (canonical) miRNA. microRNA-122 (miR-122) is a liver-specific, circulating biomarker of drug-induced liver injury (DILI), notably that caused by paracetamol (APAP; acetaminophen). It has been previously demonstrated by our group that miR-122 is present in circulating exosomes, a type of ECV. IsomiRs of miR-122 were identified in serum samples obtained from patients with paracetamol-DILI by small RNA sequencing. We observed that certain isomiRs are DILI-specific. Clinically relevant isomiRs of miR-122 underwent reverse transcription quantitative PCR (RT-qPCR) using two commercially available assays for miR-122. We demonstrated that these systems are not specific for canonical miR-122, and additionally that the presence of different isomiRs interferes with the accurate quantification of miR-122. A previously published PCR-based assay termed 3'-Dumbbell-PCR (3'-Db-PCR) was adapted and optimised for the selective detection of a DILI-specific miR-122 isomiR. The 3'-Db-PCR assay was demonstrated to be more selective for the DILI-specific isomiR than standard RT-qPCR, and was applied in the subsequent in vivo study. Using a wild-type mouse model of paracetamol-DILI, we demonstrated that liver miR-122 decreased and, concurrently, circulating miR-122 increased. Over time, miR-122 increased in the renal cortex, renal medulla, and spleen. Fluorescence-activated cell sorting (FACS) of the kidney revealed that levels of miR-122 increased specifically in renal tubular cells. 3'-Db-PCR produced results which correlated to standard RT-qPCR of blood plasma, but these correlations were found to be less significant or completely insignificant in the tissues. Validation of PCR products by Sanger sequencing was inconclusive. Following this study, we utilised a genetically-modified mouse model containing a double-fluorescent Cre reporter allele in order to investigate the release of miR-122 in ECVs from the liver. These mice were administered a liver specific adeno-associated viral (AAV) vector expressing Cre recombinase, with the aim of causing the liver to produce enhanced green fluorescent protein (eGFP) tagged ECVs which could be identified in the blood, kidney, and spleen. Additionally, some of these mice were also administered paracetamol to increase ECV release. After paracetamol administration, miR-122 decreased in the liver and increased in the blood, kidney and spleen, as previously observed. Western blotting and confocal microscopy confirmed the expression of eGFP in the liver, however the expression of eGFP in the blood, kidney and spleen, was not detected. These results therefore confirm that certain isomiRs of miR-122 are DILI-specific, but current 'gold standard' RT-qPCR assays are unable to discriminate between canonical miR-122 and its isomiRs. Therefore, miR-122 cannot be quantified by RT-qPCR due to isomiR interference, which may also translate to other miRNAs under clinical investigation. 3'-Db-PCR is more selective than RT-qPCR assays for miR-122, but further investigations are required to validate its PCR products and therefore what the assay actually detects. miR-122 is released from the liver in paracetamol-DILI into the circulation, and is then taken up by both the spleen and renal tubular cells. The confirmation of ECV-dependent or independent miR-122 release and uptake into these organs in liver-derived ECVs must be investigated further by refining our current model, using a different model, and/or by use of different techniques.

Published

2021

8. Global profiling and annotation of templated isomiRs dynamics across Caenorhabditis elegans development

Author

Ganesh Panzade, Li Li, Shilpa Hebbar, Isana Veksler-Lublinsky, and Anna Zinovyeva

Subjects

micrornas, mirnas, isomirs, c. elegans, development, Genetics, QH426-470

Abstract

microRNAs (miRNAs) are small non-coding RNAs that regulate gene expression through translational repression and mRNA destabilization. During canonical miRNA biogenesis, several miRNA isoforms, or isomiRs, are produced from a single precursor miRNA. Templated isomiRs are generated through Drosha or Dicer cleavage at alternate positions on either the primary or the precursor miRNAs, generating truncated or extended 5’ and/or 3’ miRNA ends. As changes to the mature miRNA sequence can alter miRNA gene target repertoire, we investigated the extent of templated isomiR prevalence, providing a profiling map for templated isomiRs across stages of C. elegans development. While most miRNA loci did not produce abundant templated isomiRs, a substantial number of miRNA loci produced isomiRs were just as, or more, abundant than their annotated canonical mature miRNAs. 3’ end miRNA alterations were more frequent than the seed-altering 5’ end extensions or truncations. However, we identified several miRNA loci that produced a considerable amount of isomiRs with 5’ end alterations, predicted to target new, distinct sets of genes. Overall, the presented annotation of templated isomiR dynamics across C. elegans developmental stages provides a basis for further studies into miRNA biogenesis and the intriguing potential of functional miRNA diversification through isomiR production.

Published

2022

9. A Review of IsomiRs in Colorectal Cancer.

Author

Lausten, Molly A. and Boman, Bruce M.

Subjects

*COLORECTAL cancer, *LITERATURE reviews, *COLON cancer, *MICRORNA, *CLINICAL medicine

Abstract

As advancements in sequencing technology rapidly continue to develop, a new classification of microRNAs has occurred with the discovery of isomiRs, which are relatively common microRNAs with sequence variations compared to their established template microRNAs. This review article seeks to compile all known information about isomiRs in colorectal cancer (CRC), which has not, to our knowledge, been gathered previously to any great extent. A brief overview is given of the history of microRNAs, their implications in colon cancer, the canonical pathway of biogenesis and isomiR classification. This is followed by a comprehensive review of the literature that is available on microRNA isoforms in CRC. The information on isomiRs presented herein shows that isomiRs hold great promise for translation into new diagnostics and therapeutics in clinical medicine. [ABSTRACT FROM AUTHOR]

Published

2023

10. MicroRNA 3' ends shorten during adolescent brain maturation.

Author

Thomas, Kristen T., Vermare, Anaïs, Egleston, Suzannah O., Yong-Dong Wang, Mishra, Ashutosh, Tong Lin, Junmin Peng, and Zakharenko, Stanislav S.

Subjects

MICRORNA, RNA sequencing, MASS spectrometry, MESSENGER RNA, MENTAL illness

Abstract

MicroRNA (miRNA) dysregulation is well-documented in psychiatric disease, but miRNA dynamics remain poorly understood during adolescent and early adult brain maturation, when symptoms often first appear. Here, we use RNA sequencing to examine miRNAs and their mRNA targets in cortex and hippocampus from early-, mid-, and late-adolescent and adult mice. Furthermore, we use quantitative proteomics by tandem mass tag mass spectrometry (TMT-MS) to examine protein dynamics in cortex from the same subjects. We found that ~25% of miRNAs' 3' ends shorten with age due to increased 3' trimming and decreased U tailing. Particularly, shorter but functionally competent isoforms (isomiRs) of miR-338-3p increase up to 10-fold during adolescence and only in brain. MiRNAs that undergo 3' shortening exhibit stronger negative correlations with targets that decrease with age and stronger positive correlations with targets that increase with age, than miRNAs with stable 3' ends. Increased 3' shortening with age was also observed in available mouse and human miRNA-seq data sets, and stronger correlations between miRNAs that undergo shortening and their mRNA targets were observed in two of the three available data sets. We conclude that ageassociated miRNA 3' shortening is a well-conserved feature of postnatal brain maturation. [ABSTRACT FROM AUTHOR]

Published

2023

11. MicroRNA 3′ ends shorten during adolescent brain maturation

Author

Kristen T. Thomas, Anaïs Vermare, Suzannah O. Egleston, Yong-Dong Wang, Ashutosh Mishra, Tong Lin, Junmin Peng, and Stanislav S. Zakharenko

Subjects

microRNA, adolescence, neurodevelopment, brain maturation, isomiRs, miR-338-3p, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

MicroRNA (miRNA) dysregulation is well-documented in psychiatric disease, but miRNA dynamics remain poorly understood during adolescent and early adult brain maturation, when symptoms often first appear. Here, we use RNA sequencing to examine miRNAs and their mRNA targets in cortex and hippocampus from early-, mid-, and late-adolescent and adult mice. Furthermore, we use quantitative proteomics by tandem mass tag mass spectrometry (TMT-MS) to examine protein dynamics in cortex from the same subjects. We found that ~25% of miRNAs’ 3′ ends shorten with age due to increased 3′ trimming and decreased U tailing. Particularly, shorter but functionally competent isoforms (isomiRs) of miR-338-3p increase up to 10-fold during adolescence and only in brain. MiRNAs that undergo 3′ shortening exhibit stronger negative correlations with targets that decrease with age and stronger positive correlations with targets that increase with age, than miRNAs with stable 3′ ends. Increased 3′ shortening with age was also observed in available mouse and human miRNA-seq data sets, and stronger correlations between miRNAs that undergo shortening and their mRNA targets were observed in two of the three available data sets. We conclude that age-associated miRNA 3′ shortening is a well-conserved feature of postnatal brain maturation.

Published

2023

12. The Dynamics of miR-449a/c Expression during Uterine Cycles Are Associated with Endometrial Development.

Author

Naydenov, Mladen, Nikolova, Maria, Apostolov, Apostol, Glogovitis, Ilias, Salumets, Andres, Baev, Vesselin, and Yahubyan, Galina

Subjects

*ENDOMETRIUM, *MENSTRUAL cycle, *NON-coding RNA, *MICRORNA, *RNA sequencing, *CLINICAL medicine

Abstract

Simple Summary: The human endometrium is a highly dynamic tissue. Increasing evidence has shown that microRNAs play essential roles in human endometrium development during the menstrual cycle. Here, we applied small RNA-sequencing to demonstrate that miR-449a/c and their sequence variants (isomiRs) may participate in the genetic control of human endometrial receptivity. Stem-looped RT-qPCR analysis of miR expression at four time-points of the endometrial cycle verified the increased expression of the miR-449a/c family members in receptive endometrium, among which the 5′ isoform of miR-449c–miR-449c.1 was the most strongly up-regulated. Moreover, we found in a case study that the expression of miR-449c.1 and its precursor (pre-miR-449c) correlated with the histological assessment of the endometrial phase and patient age. We believe this study will promote the clinical investigation and application of the miR-449 family in the diagnosis and prognosis of human reproductive diseases. The human endometrium is a highly dynamic tissue. Increasing evidence has shown that microRNAs (miRs) play essential roles in human endometrium development. Our previous assay, based on small RNA-sequencing (sRNA-seq) indicated the complexity and dynamics of numerous sequence variants of miRs (isomiRs) that can act together to control genes of functional relevance to the receptive endometrium (RE). Here, we used a greater average depth of sRNA-seq to detect poorly expressed small RNAs. The sequencing data confirmed the up-regulation of miR-449c and uncovered other members of the miR-449 family up-regulated in RE—among them miR-449a, as well as several isoforms of both miR-449a and miR-449c, while the third family member, miR-449b, was not identified. Stem-looped RT-qPCR analysis of miR expression at four-time points of the endometrial cycle verified the increased expression of the miR-449a/c family members in RE, among which the 5′ isoform of miR-449c–miR-449c.1 was the most strongly up-regulated. Moreover, we found in a case study that the expression of miR-449c.1 and its precursor correlated with the histological assessment of the endometrial phase and patient age. We believe this study will promote the clinical investigation and application of the miR-449 family in the diagnosis and prognosis of human reproductive diseases. [ABSTRACT FROM AUTHOR]

Published

2023

13. 5’isomiR-183-5p|+2 elicits tumor suppressor activity in a negative feedback loop with E2F1

Author

Xiaoya Li, Birgitta Elisabeth Michels, Oyku Ece Tosun, Janine Jung, Jolane Kappes, Susanne Ibing, Nishanth Belugali Nataraj, Shashwat Sahay, Martin Schneider, Angelika Wörner, Corinna Becki, Naveed Ishaque, Lars Feuerbach, Bernd Heßling, Dominic Helm, Rainer Will, Yosef Yarden, Karin Müller-Decker, Stefan Wiemann, and Cindy Körner

Subjects

MicroRNAs, IsomiRs, MiR-183-5p, Cell cycle, E2F1, Triple-negative breast cancer, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background MicroRNAs (miRNAs) and isomiRs play important roles in tumorigenesis as essential regulators of gene expression. 5’isomiRs exhibit a shifted seed sequence compared to the canonical miRNA, resulting in different target spectra and thereby extending the phenotypic impact of the respective common pre-miRNA. However, for most miRNAs, expression and function of 5’isomiRs have not been studied in detail yet. Therefore, this study aims to investigate the functions of miRNAs and their 5’isomiRs. Methods The expression of 5’isomiRs was assessed in The Cancer Genome Atlas (TCGA) breast cancer patient dataset. Phenotypic effects of miR-183 overexpression in triple-negative breast cancer (TNBC) cell lines were investigated in vitro and in vivo by quantifying migration, proliferation, tumor growth and metastasis. Direct targeting of E2F1 by miR-183-5p|+2 was validated with a 3’UTR luciferase assay and linked to the phenotypes of isomiR overexpression. Results TCGA breast cancer patient data indicated that three variants of miR-183-5p are highly expressed and upregulated, namely miR-183-5p|0, miR-183-5p|+1 and miR-183-5p|+2. However, TNBC cell lines displayed reduced proliferation and invasion upon overexpression of pre-miR-183. While invasion was reduced individually by all three isomiRs, proliferation and cell cycle progression were specifically inhibited by overexpression of miR-183-5p|+2. Proteomic analysis revealed reduced expression of E2F target genes upon overexpression of this isomiR, which could be attributed to direct targeting of E2F1, specifically by miR-183-5p|+2. Knockdown of E2F1 partially phenocopied the effect of miR-183-5p|+2 overexpression on cell proliferation and cell cycle. Gene set enrichment analysis of TCGA and METABRIC patient data indicated that the activity of E2F strongly correlated with the expression of miR-183-5p, suggesting transcriptional regulation of the miRNA by a factor of the E2F family. Indeed, in vitro, expression of miR-183-5p was regulated by E2F1. Hence, miR-183-5p|+2 directly targeting E2F1 appears to be part of a negative feedback loop potentially fine-tuning its activity. Conclusions This study demonstrates that 5’isomiRs originating from the same arm of the same pre-miRNA (i.e. pre-miR-183-5p) may exhibit different functions and thereby collectively contribute to the same phenotype. Here, one of three isomiRs was shown to counteract expression of the pre-miRNA by negatively regulating a transcriptional activator (i.e. E2F1). We speculate that this might be part of a regulatory mechanism to prevent uncontrolled cell proliferation, which is disabled during cancer progression. Graphical Abstract

Published

2022

14. A three-layer perspective on miRNA regulation in β cell inflammation.

Author

Auddino S, Aiello E, Grieco GE, Dotta F, and Sebastiani G

Abstract

MicroRNAs (miRNAs) are noncoding RNA molecules that regulate gene expression post-transcriptionally and influence numerous biological processes. Aberrant miRNA expression is linked to diseases such as diabetes mellitus; indeed, miRNAs regulate pancreatic islet inflammation in both type 1 (T1D) and type 2 diabetes (T2D). Traditionally, miRNA research has focused on canonical sequences and offers a two-layer view - from expression to function. However, advances in RNA sequencing have revealed miRNA variants, called isomiRs, that arise from alternative processing or modifications of canonical sequences. This introduces a three-layer view - from expression, through sequence modifications, to function. We discuss the potential link between cellular stresses and isomiR biogenesis, and how this association could improve our knowledge of islet inflammation and dysfunction., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2024 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2024

15. A Review of IsomiRs in Colorectal Cancer

Author

Molly A. Lausten and Bruce M. Boman

Subjects

colorectal cancer, microRNAs, isomiRs, Genetics, QH426-470

Abstract

As advancements in sequencing technology rapidly continue to develop, a new classification of microRNAs has occurred with the discovery of isomiRs, which are relatively common microRNAs with sequence variations compared to their established template microRNAs. This review article seeks to compile all known information about isomiRs in colorectal cancer (CRC), which has not, to our knowledge, been gathered previously to any great extent. A brief overview is given of the history of microRNAs, their implications in colon cancer, the canonical pathway of biogenesis and isomiR classification. This is followed by a comprehensive review of the literature that is available on microRNA isoforms in CRC. The information on isomiRs presented herein shows that isomiRs hold great promise for translation into new diagnostics and therapeutics in clinical medicine.

Published

2023

16. 5'isomiR-183-5p|+2 elicits tumor suppressor activity in a negative feedback loop with E2F1.

Author

Li, Xiaoya, Michels, Birgitta Elisabeth, Tosun, Oyku Ece, Jung, Janine, Kappes, Jolane, Ibing, Susanne, Nataraj, Nishanth Belugali, Sahay, Shashwat, Schneider, Martin, Wörner, Angelika, Becki, Corinna, Ishaque, Naveed, Feuerbach, Lars, Heßling, Bernd, Helm, Dominic, Will, Rainer, Yarden, Yosef, Müller-Decker, Karin, Wiemann, Stefan, and Körner, Cindy

Subjects

*CANCER patients, *TRIPLE-negative breast cancer, *GENETIC overexpression, *GENE expression, *CELL cycle, *RNA regulation

Abstract

Background: MicroRNAs (miRNAs) and isomiRs play important roles in tumorigenesis as essential regulators of gene expression. 5'isomiRs exhibit a shifted seed sequence compared to the canonical miRNA, resulting in different target spectra and thereby extending the phenotypic impact of the respective common pre-miRNA. However, for most miRNAs, expression and function of 5'isomiRs have not been studied in detail yet. Therefore, this study aims to investigate the functions of miRNAs and their 5'isomiRs. Methods: The expression of 5'isomiRs was assessed in The Cancer Genome Atlas (TCGA) breast cancer patient dataset. Phenotypic effects of miR-183 overexpression in triple-negative breast cancer (TNBC) cell lines were investigated in vitro and in vivo by quantifying migration, proliferation, tumor growth and metastasis. Direct targeting of E2F1 by miR-183-5p|+2 was validated with a 3'UTR luciferase assay and linked to the phenotypes of isomiR overexpression. Results: TCGA breast cancer patient data indicated that three variants of miR-183-5p are highly expressed and upregulated, namely miR-183-5p|0, miR-183-5p|+1 and miR-183-5p|+2. However, TNBC cell lines displayed reduced proliferation and invasion upon overexpression of pre-miR-183. While invasion was reduced individually by all three isomiRs, proliferation and cell cycle progression were specifically inhibited by overexpression of miR-183-5p|+2. Proteomic analysis revealed reduced expression of E2F target genes upon overexpression of this isomiR, which could be attributed to direct targeting of E2F1, specifically by miR-183-5p|+2. Knockdown of E2F1 partially phenocopied the effect of miR-183-5p|+2 overexpression on cell proliferation and cell cycle. Gene set enrichment analysis of TCGA and METABRIC patient data indicated that the activity of E2F strongly correlated with the expression of miR-183-5p, suggesting transcriptional regulation of the miRNA by a factor of the E2F family. Indeed, in vitro, expression of miR-183-5p was regulated by E2F1. Hence, miR-183-5p|+2 directly targeting E2F1 appears to be part of a negative feedback loop potentially fine-tuning its activity. Conclusions: This study demonstrates that 5'isomiRs originating from the same arm of the same pre-miRNA (i.e. pre-miR-183-5p) may exhibit different functions and thereby collectively contribute to the same phenotype. Here, one of three isomiRs was shown to counteract expression of the pre-miRNA by negatively regulating a transcriptional activator (i.e. E2F1). We speculate that this might be part of a regulatory mechanism to prevent uncontrolled cell proliferation, which is disabled during cancer progression. [ABSTRACT FROM AUTHOR]

Published

2022

17. miR-155-3p: processing by-product or rising star in immunity and cancer?

Author

Owen Dawson and Anna Maria Piccinini

Subjects

miRNA strand selection, miRNA arm switching, isomiRs, miR-155-5p, miR-155-3p, immunity and cancer, Biology (General), QH301-705.5

Abstract

MicroRNAs (miRNAs) are key players in gene regulation that target specific mRNAs for degradation or translational repression. Each miRNA is synthesized as a miRNA duplex comprising two strands (5p and 3p). However, only one of the two strands becomes active and is selectively incorporated into the RNA-induced silencing complex in a process known as miRNA strand selection. Recently, significant progress has been made in understanding the factors and processes involved in strand selection. Here, we explore the selection and functionality of the miRNA star strand (either 5p or 3p), which is generally present in the cell at low levels compared to its partner strand and, historically, has been thought to possess no biological activity. We also highlight the concepts of miRNA arm switching and miRNA isomerism. Finally, we offer insights into the impact of aberrant strand selection on immunity and cancer. Leading us through this journey is miR-155, a well-established regulator of immunity and cancer, and the increasing evidence that its 3p strand plays a role in these arenas. Interestingly, the miR-155-5p/-3p ratio appears to vary dependent on the timing of the immune response, and the 3p strand seems to play a regulatory role upon its partner 5p strand.

Published

2022

18. Global profiling and annotation of templated isomiRs dynamics across Caenorhabditis elegans development.

Author

Panzade, Ganesh, Li Li, Hebbar, Shilpa, Veksler-Lublinsky, Isana, and Zinovyeva, Anna

Subjects

CAENORHABDITIS elegans, NON-coding RNA, CAENORHABDITIS, MICRORNA, GENE targeting, GENE expression, ANNOTATIONS

Abstract

microRNAs (miRNAs) are small non-coding RNAs that regulate gene expression through translational repression and mRNA destabilization. During canonical miRNA biogenesis, several miRNA isoforms, or isomiRs, are produced from a single precursor miRNA. Templated isomiRs are generated through Drosha or Dicer cleavage at alternate positions on either the primary or the precursor miRNAs, generating truncated or extended 5' and/or 3' miRNA ends. As changes to the mature miRNA sequence can alter miRNA gene target repertoire, we investigated the extent of templated isomiR prevalence, providing a profiling map for templated isomiRs across stages of C. elegans development. While most miRNA loci did not produce abundant templated isomiRs, a substantial number of miRNA loci produced isomiRs were just as, or more, abundant than their annotated canonical mature miRNAs. 3' end miRNA alterations were more frequent than the seed-altering 5' end extensions or truncations. However, we identified several miRNA loci that produced a considerable amount of isomiRs with 5' end alterations, predicted to target new, distinct sets of genes. Overall, the presented annotation of templated isomiR dynamics across C. elegans developmental stages provides a basis for further studies into miRNA biogenesis and the intriguing potential of functional miRNA diversification through isomiR production. [ABSTRACT FROM AUTHOR]

Published

2022

19. MicroRNA Transcriptomes Reveal Prevalence of Rare and Species-Specific Arm Switching Events During Zebrafish Ontogenesis.

Author

de Oliveira AC, Bovolenta LA, Figueiredo L, Ribeiro AO, Pereira BJA, de Almeida TRA, Campos VF, Patton JG, and Pinhal D

Abstract

In metazoans, microRNAs (miRNAs) are essential regulators of gene expression, affecting critical cellular processes from differentiation and proliferation, to homeostasis. During miRNA biogenesis, the miRNA strand that loads onto the RNA-induced Silencing Complex (RISC) can vary, leading to changes in gene targeting and modulation of biological pathways. To investigate the impact of these "arm switching" events on gene regulation, we analyzed a diverse range of tissues and developmental stages in zebrafish by comparing 5p and 3p arms accumulation dynamics between embryonic developmental stages, adult tissues, and sexes. We also compared variable arm usage patterns observed in zebrafish to other vertebrates including arm switching data from fish, birds, and mammals. Our comprehensive analysis revealed that variable arm usage events predominantly take place during embryonic development. It is also noteworthy that isomiR occurrence correlates to changes in arm selection evidencing an important role of microRNA distinct isoforms in reinforcing and modifying gene regulation by promoting dynamics switches on miRNA 5p and 3p arms accumulation. Our results shed new light on the emergence and coordination of gene expression regulation and pave the way for future investigations in this field., Competing Interests: The author(s) declared no potential conflicts of interest with respect to the research, authorship, and/or publication of this article., (© The Author(s) 2024.)

Published

2024

20. The Dynamics of miR-449a/c Expression during Uterine Cycles Are Associated with Endometrial Development

Author

Mladen Naydenov, Maria Nikolova, Apostol Apostolov, Ilias Glogovitis, Andres Salumets, Vesselin Baev, and Galina Yahubyan

Subjects

microRNAs, isomiRs, miR-449 family, endometrial receptivity, Biology (General), QH301-705.5

Abstract

The human endometrium is a highly dynamic tissue. Increasing evidence has shown that microRNAs (miRs) play essential roles in human endometrium development. Our previous assay, based on small RNA-sequencing (sRNA-seq) indicated the complexity and dynamics of numerous sequence variants of miRs (isomiRs) that can act together to control genes of functional relevance to the receptive endometrium (RE). Here, we used a greater average depth of sRNA-seq to detect poorly expressed small RNAs. The sequencing data confirmed the up-regulation of miR-449c and uncovered other members of the miR-449 family up-regulated in RE—among them miR-449a, as well as several isoforms of both miR-449a and miR-449c, while the third family member, miR-449b, was not identified. Stem-looped RT-qPCR analysis of miR expression at four-time points of the endometrial cycle verified the increased expression of the miR-449a/c family members in RE, among which the 5′ isoform of miR-449c–miR-449c.1 was the most strongly up-regulated. Moreover, we found in a case study that the expression of miR-449c.1 and its precursor correlated with the histological assessment of the endometrial phase and patient age. We believe this study will promote the clinical investigation and application of the miR-449 family in the diagnosis and prognosis of human reproductive diseases.

Published

2022

21. Extensive downregulation of immune gene expression by microRNA-140-3p 5′ isomiR in an in vitro model of osteoarthritis

Author

Rua Nader Al-Modawi, Jan E. Brinchmann, and Tommy A. Karlsen

Subjects

miR-140-3p, IsomiRs, Osteoarthritis, Immune regulation, HLA, Diseases of the musculoskeletal system, RC925-935

Abstract

Objective: MicroRNA-140-3p is the most prevalent form of canonical miR-140 in native chondrocytes. IsomiRs are sequence variants of microRNAs with potentially distinct functionalities. Here we present functional studies of canonical microRNA-140-3p and two of its most prevalent isomiRs, a 5′ isomiR and a 3′ isomiR, in an inflammation-induced model of osteoarthritis (OA). Method: Canonical miR-140-3p, the 5′ isomiR and the 3′ isomiR were overexpressed separately in chondrocytes from three donors and subsequently subjected to an inflammatory milieu mediated by interleukin 1 beta and tumor necrosis factor alpha. RNA sequencing was performed on the cells to investigate the altered transcriptomes, RT-qPCR was performed to validate important observations, and western blot analysis was carried out to further study key inflammatory molecules. Results: The three microRNAs downregulated many of the same genes. However, the 5′ isomiR showed a much greater target spectrum compared to the other two miRNAs, and downregulated cascades of genes downstream of interferon beta, interferon gamma and interleukin 1 beta as well as genes involved in several other inflammatory and antiviral pathways. In addition the 5′ isomiR downregulated practically all HLA class II and class I genes. Conclusion: Introduction of the 5′ isomiR led to downregulation of genes essential for some of the most important inflammation cascades and virtual silencing of genes responsible for antigen presentation. These observations may indicate a very promising therapeutic potential for the 5′ isomiR for OA and several inflammatory conditions, particularly HLA associated immune conditions including many arthritic diseases.

Published

2021

22. Circulating miR‐19a‐3p and miR‐19b‐3p characterize the human aging process and their isomiRs associate with healthy status at extreme ages.

Author

Morsiani, Cristina, Terlecki‐Zaniewicz, Lucia, Skalicky, Susanna, Bacalini, Maria Giulia, Collura, Salvatore, Conte, Maria, Sevini, Federica, Garagnani, Paolo, Salvioli, Stefano, Hackl, Matthias, Grillari, Johannes, Franceschi, Claudio, and Capri, Miriam

Subjects

*LONGEVITY, *AGING, *DRUG target, *AGE of onset, *OLD age, *CENTENARIANS, *NON-coding RNA

Abstract

Blood circulating microRNAs (c‐miRs) are potential biomarkers to trace aging and longevity trajectories to identify molecular targets for anti‐aging therapies. Based on a cross‐sectional study, a discovery phase was performed on 12 donors divided into four groups: young, old, healthy, and unhealthy centenarians. The identification of healthy and unhealthy phenotype was based on cognitive performance and capabilities to perform daily activities. Small RNA sequencing identified 79 differentially expressed c‐miRs when comparing young, old, healthy centenarians, and unhealthy centenarians. Two miRs, that is, miR‐19a‐3p and miR‐19b‐3p, were found increased at old age but decreased at extreme age, as confirmed by RT‐qPCR in 49 donors of validation phase. The significant decrease of those miR levels in healthy compared to unhealthy centenarians appears to be due to the presence of isomiRs, not detectable with RT‐qPCR, but only with a high‐resolution technique such as deep sequencing. Bioinformatically, three main common targets of miR‐19a/b‐3p were identified, that is, SMAD4, PTEN, and BCL2L11, converging into the FoxO signaling pathway, known to have a significant role in aging mechanisms. For the first time, this study shows the age‐related increase of plasma miR‐19a/b‐3p in old subjects but a decrease in centenarians. This decrease is more pronounced in healthy centenarians and was confirmed by the modified pattern of isomiRs comparing healthy and unhealthy centenarians. Thus, our study paves the way for functional studies using c‐miRs and isomiRs as additional parameter to track the onset of aging and age‐related diseases using new potential biomarkers. [ABSTRACT FROM AUTHOR]

Published

2021

23. Regulatory non-coding RNAs: a new frontier in regulation of plant biology.

Author

Bhogireddy, Sailaja, Mangrauthia, Satendra K., Kumar, Rakesh, Pandey, Arun K., Singh, Sadhana, Jain, Ankit, Budak, Hikmet, Varshney, Rajeev K., and Kudapa, Himabindu

Subjects

*NON-coding RNA, *SMALL interfering RNA, *LINCRNA, *TRANSFER RNA, *NUCLEIC acids, *CIRCULAR RNA, *RIBOSOMAL proteins

Abstract

Beyond the most crucial roles of RNA molecules as a messenger, ribosomal, and transfer RNAs, the regulatory role of many non-coding RNAs (ncRNAs) in plant biology has been recognized. ncRNAs act as riboregulators by recognizing specific nucleic acid targets through homologous sequence interactions to regulate plant growth, development, and stress responses. Regulatory ncRNAs, ranging from small to long ncRNAs (lncRNAs), exert their control over a vast array of biological processes. Based on the mode of biogenesis and their function, ncRNAs evolved into different forms that include microRNAs (miRNAs), small interfering RNAs (siRNAs), miRNA variants (isomiRs), lncRNAs, circular RNAs (circRNAs), and derived ncRNAs. This article explains the different classes of ncRNAs and their role in plant development and stress responses. Furthermore, the applications of regulatory ncRNAs in crop improvement, targeting agriculturally important traits, have been discussed. [ABSTRACT FROM AUTHOR]

Published

2021

24. Comprehensive assessment of multiple biases in small RNA sequencing reveals significant differences in the performance of widely used methods

Author

Carrie Wright, Anandita Rajpurohit, Emily E. Burke, Courtney Williams, Leonardo Collado-Torres, Martha Kimos, Nicholas J. Brandon, Alan J. Cross, Andrew E. Jaffe, Daniel R. Weinberger, and Joo Heon Shin

Subjects

Small RNA sequencing, microRNA, isomiRs, Library preparation, Unique molecular identifiers, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background RNA sequencing offers advantages over other quantification methods for microRNA (miRNA), yet numerous biases make reliable quantification challenging. Previous evaluations of these biases have focused on adapter ligation bias with limited evaluation of reverse transcription bias or amplification bias. Furthermore, evaluations of the quantification of isomiRs (miRNA isoforms) or the influence of starting amount on performance have been very limited. No study had yet evaluated the quantification of isomiRs of altered length or compared the consistency of results derived from multiple moderate starting inputs. We therefore evaluated quantifications of miRNA and isomiRs using four library preparation kits, with various starting amounts, as well as quantifications following removal of duplicate reads using unique molecular identifiers (UMIs) to mitigate reverse transcription and amplification biases. Results All methods resulted in false isomiR detection; however, the adapter-free method tested was especially prone to false isomiR detection. We demonstrate that using UMIs improves accuracy and we provide a guide for input amounts to improve consistency. Conclusions Our data show differences and limitations of current methods, thus raising concerns about the validity of quantification of miRNA and isomiRs across studies. We advocate for the use of UMIs to improve accuracy and reliability of miRNA quantifications.

Published

2019

25. The MicroRNA Family Gets Wider: The IsomiRs Classification and Role

Author

Luisa Tomasello, Rosario Distefano, Giovanni Nigita, and Carlo M. Croce

Subjects

microRNA, variants, isomiRs, microRNA biogenesis, novel microRNA in cancer, Biology (General), QH301-705.5

Abstract

MicroRNAs (miRNAs or miRs) are the most characterized class of non-coding RNAs and are engaged in many cellular processes, including cell differentiation, development, and homeostasis. MicroRNA dysregulation was observed in several diseases, cancer included. Epitranscriptomics is a branch of epigenomics that embraces all RNA modifications occurring after DNA transcription and RNA synthesis and involving coding and non-coding RNAs. The development of new high-throughput technologies, especially deep RNA sequencing, has facilitated the discovery of miRNA isoforms (named isomiRs) resulting from RNA modifications mediated by enzymes, such as deaminases and exonucleases, and differing from the canonical ones in length, sequence, or both. In this review, we summarize the distinct classes of isomiRs, their regulation and biogenesis, and the active role of these newly discovered molecules in cancer and other diseases.

Published

2021

26. Growing Diversity of Plant MicroRNAs and MIR-Derived Small RNAs

Author

Gozmanova, Mariyana, Baev, Vesselin, Apostolova, Elena, Sablok, Gaurav, Yahubyan, Galina, Barciszewski, Jan, Series editor, Rajewsky, Nikolaus, Series editor, Erdmann, Volker A., Founding editor, and Jurga, Stefan, editor

Published

2017

27. Small RNA-seq analysis of single porcine blastocysts revealed that maternal estradiol-17beta exposure does not affect miRNA isoform (isomiR) expression

Author

Jochen T. Bick, Veronika L. Flöter, Mark D. Robinson, Stefan Bauersachs, and Susanne E. Ulbrich

Subjects

miRNAs, isomiRs, Small RNA-seq, Pig embryos, Estradiol treatment, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background The expression of microRNAs (miRNAs) is essential for the proper development of the mammalian embryo. A maternal exposure to endocrine disrupting chemicals during preimplantation bears the potential for transgenerational inheritance of disease through the epigenetic perturbation of the developing embryo. A comprehensive assembly of embryo-specific miRNAs and respective isoforms (isomiR) is lacking to date. We aimed at revealing the sex-specific miRNA expression profile of single porcine blastocysts developing in gilts orally exposed to exogenous estradiol-17 β (E2). Therefore we analyzed the miRNA profile specifically focusing on isomiRs and potentially embryo-specific miRNAs. Results Deep sequencing of small RNA (small RNA-seq) result in the detection of miRNA sequences mapping to known and predicted porcine miRNAs as well as novel miRNAs highly conserved in human and cattle. A set of highly abundant miRNAs and a large number of rarely expressed miRNAs were identified by using a small RNA analysis pipeline, which was integrated into a novel Galaxy workflow specifically benefits incompletely annotated species. In particular, orthologue species information increased the total number of annotated miRNAs, while mapping to other non-coding RNAs avoided falsely annotated miRNAs. Neither the low nor the high dose of E2 treatment (10 and 1000 µE2/kg body weight daily, respectively) affected the miRNA profile in blastocysts despite the distinct differential mRNA expression and DNA methylation found in previous studies. The high number of generated sequence reads enabled a comprehensive analysis of the isomiR repertoire showing various templated and non-templated modifications. Furthermore, potentially blastocyst-specific miRNAs were identified. Conclusions In pre-implantation embryos, numerous distinct isomiRs were discovered indicating a high complexity of miRNA expression. Neither the sex of the embryo nor a maternal E2 exposure affected the miRNA expression profile of developing porcine blastocysts. The adaptation to the continuous duration of the E2 treatment might explain the lack of an effect.

Published

2018

28. Ribosomal RNA fragmentation into short RNAs (rRFs) is modulated in a sex- and population of origin-specific manner.

Author

Cherlin, Tess, Magee, Rogan, Jing, Yi, Pliatsika, Venetia, Loher, Phillipe, and Rigoutsos, Isidore

Subjects

*LYMPHOBLASTOID cell lines, *POPULATION, *NON-coding RNA, *RNA, *REVERSE genetics, *LINCRNA, *RIBOSOMAL RNA

Abstract

Background: The advent of next generation sequencing (NGS) has allowed the discovery of short and long non-coding RNAs (ncRNAs) in an unbiased manner using reverse genetics approaches, enabling the discovery of multiple categories of ncRNAs and characterization of the way their expression is regulated. We previously showed that the identities and abundances of microRNA isoforms (isomiRs) and transfer RNA-derived fragments (tRFs) are tightly regulated, and that they depend on a person's sex and population origin, as well as on tissue type, tissue state, and disease type. Here, we characterize the regulation and distribution of fragments derived from ribosomal RNAs (rRNAs). rRNAs form a group that includes four (5S, 5.8S, 18S, 28S) rRNAs encoded by the human nuclear genome and two (12S, 16S) by the mitochondrial genome. rRNAs constitute the most abundant RNA type in eukaryotic cells. Results: We analyzed rRNA-derived fragments (rRFs) across 434 transcriptomic datasets obtained from lymphoblastoid cell lines (LCLs) derived from healthy participants of the 1000 Genomes Project. The 434 datasets represent five human populations and both sexes. We examined each of the six rRNAs and their respective rRFs, and did so separately for each population and sex. Our analysis shows that all six rRNAs produce rRFs with unique identities, normalized abundances, and lengths. The rRFs arise from the 5′-end (5′-rRFs), the interior (i-rRFs), and the 3′-end (3′-rRFs) or straddle the 5′ or 3′ terminus of the parental rRNA (x-rRFs). Notably, a large number of rRFs are produced in a population-specific or sex-specific manner. Preliminary evidence suggests that rRF production is also tissue-dependent. Of note, we find that rRF production is not affected by the identity of the processing laboratory or the library preparation kit. Conclusions: Our findings suggest that rRFs are produced in a regimented manner by currently unknown processes that are influenced by both ubiquitous as well as population-specific and sex-specific factors. The properties of rRFs mirror the previously reported properties of isomiRs and tRFs and have implications for the study of homeostasis and disease. [ABSTRACT FROM AUTHOR]

Published

2020

29. Sequence variation in genes encoding miRNAs/targets and other related approaches for possible use in crop improvement.

Author

Gautam, Tinku, Gupta, Pushpendra Kumar, and Varshney, Rajeev

Subjects

*CROP improvement, *MICRORNA, *GENETIC regulation, *NON-coding RNA, *CROPS

Abstract

MicroRNAs (miRNAs) are small non‐coding RNAs (ncRNAs), which are involved in regulation of gene expression in almost all plant and animal systems. In crop plants, a large number of miRNAs are now known, which regulate expression of genes controlling a variety of traits including yield and tolerance to biotic and abiotic stresses. Like protein‐coding genes, miRNA genes (MIRs) and their products (including pri‐miRNAs, pre‐miRNAs or miRNAs themselves) also exhibit sequence variation. This variation affects the corresponding miRNAs in a variety of ways including their own transcription, maturation and target specificity. In this review, we summarize the available information on markers based on sequence variations in MIRs and the corresponding target genes. The association of these markers with agronomic traits of value and their possible use in crop improvement is also discussed using suitable examples. [ABSTRACT FROM AUTHOR]

Published

2020

30. An Emerging Role for isomiRs and the microRNA Epitranscriptome in Neovascularization.

Author

van der Kwast, Reginald V. C. T., Quax, Paul H. A., and Yaël Nossent, A.

Subjects

*MICRORNA, *VASCULAR remodeling, *COLLATERAL circulation, *BLOOD flow, *NEOVASCULARIZATION, *RNA methylation, *CAUSES of death

Abstract

Therapeutic neovascularization can facilitate blood flow recovery in patients with ischemic cardiovascular disease, the leading cause of death worldwide. Neovascularization encompasses both angiogenesis, the sprouting of new capillaries from existing vessels, and arteriogenesis, the maturation of preexisting collateral arterioles into fully functional arteries. Both angiogenesis and arteriogenesis are highly multifactorial processes that require a multifactorial regulator to be stimulated simultaneously. MicroRNAs can regulate both angiogenesis and arteriogenesis due to their ability to modulate expression of many genes simultaneously. Recent studies have revealed that many microRNAs have variants with altered terminal sequences, known as isomiRs. Additionally, endogenous microRNAs have been identified that carry biochemically modified nucleotides, revealing a dynamic microRNA epitranscriptome. Both types of microRNA alterations were shown to be dynamically regulated in response to ischemia and are able to influence neovascularization by affecting the microRNA’s biogenesis, or even its silencing activity. Therefore, these novel regulatory layers influence microRNA functioning and could provide new opportunities to stimulate neovascularization. In this review we will highlight the formation and function of isomiRs and various forms of microRNA modifications, and discuss recent findings that demonstrate that both isomiRs and microRNA modifications directly affect neovascularization and vascular remodeling. [ABSTRACT FROM AUTHOR]

Published

2020

31. Large-Scale Transcriptomic Approaches for Characterization of Post-Transcriptional Control of Gene Expression

Author

Do Souto, Laura, González-Briones, Alfonso, Amaral, Andreia J., Gama-Carvalho, Margarida, De Paz, Juan F., Kacprzyk, Janusz, Series editor, Saberi Mohamad, Mohd, editor, Rocha, Miguel P., editor, Fdez-Riverola, Florentino, editor, Domínguez Mayo, Francisco J., editor, and De Paz, Juan F., editor

Published

2016

32. Coupling miR/isomiR and mRNA Expression Signatures Unveils New Molecular Layers of Endometrial Receptivity

Author

Maria Nikolova, Mladen Naydenov, Ilias Glogovitis, Apostol Apostolov, Merli Saare, Nageswara Boggavarapu, Andres Salumets, Vesselin Baev, and Galina Yahubyan

Subjects

microRNAs, isomiRs, endometrial receptivity, transcription factors, Science

Abstract

Embryo implantation depends on endometrial receptivity (ER). To achieve ER, the preparation of the uterine lining requires controlled priming by ovarian hormones and the expression of numerous genes in the endometrial tissue. microRNAs (miRs) have emerged as critical genetic regulators of ER in fertility and of the diseases that are associated with infertility. With the rapid development of next-generation sequencing technologies, it has become clear that miR genes can produce canonical miRs and variants—isomiRs. Here, we describe miR/isomiR expression dynamics across the four time points of natural chorionic gonadotropin (hCG)-administered cycles. Sequencing of the small RNAs (sRNA-seq) revealed that the most significant expression changes during the transition from the pre-receptive to the receptive phase occurred in the isomiR families of miR-125a, miR-125b, miR-10a, miR-10b, miR-449c, miR-92a, miR-92b, and miR-99a. Pairing the analysis of the differentially expressed (DE) miRs/isomiRs and their predicted DE mRNA targets uncovered 280 negatively correlating pairs. In the receptive endometrium, the 5′3′-isomiRs of miR-449c, which were among the most highly up-regulated isomiRs, showed a negative correlation with their target, transcription factor (TF) MYCN, which was down-regulated. Joint analysis of the miR/isomiR and TF expression identified several regulatory interactions. Based on these data, a regulatory TF-miR/isomiR gene-target circuit including let7g-5p and miR-345; the isomiR families of miR-10a, miR-10b, miR-92a, and miR-449c; and MYCN and TWIST1 was proposed to play a key role in the establishment of ER. Our work uncovers the complexity and dynamics of the endometrial isomiRs that can act cooperatively with miRs to control the functionally important genes that are critical to ER. Further studies of miR/isomiR expression patterns that are paired with those of their target mRNAs may provide a more in-depth picture of the endometrial pathologies that are associated with implantation failure.

Published

2021

33. Comparative miRomics of Salt-Tolerant and Salt-Sensitive Rice

Author

Goswami Kavita, Tripathi Anita, and Sanan-Mishra Neeti

Subjects

mirna, end modifications, salt-stress, isomirs, workflow, data integration, Biotechnology, TP248.13-248.65

Abstract

Increase in soil salt causes osmotic and ionic stress to plants, which inhibits their growth and productivity. Rice production is also hampered by salinity and the effect of salt is most severe at the seedling and reproductive stages. Salainity tolerance is a quantitative property controlled by multiple genes coding for signaling molecules, ion transporters, metabolic enzymes and transcription regulators. MicroRNAs are key modulators of gene-expression that act at the post-transcriptional level by translation repression or transcript cleavage. They also play an important role in regulating plant’s response to salt-stress. In this work we adopted the approach of comparative and integrated data-mining to understand the miRNA-mediated regulation of salt-stress in rice. We profiled and compared the miRNA regulations using natural varieties and transgenic lines with contrasting behaviors in response to salt-stress. The information obtained from sRNAseq, RNAseq and degradome datasets was integrated to identify the salt-deregulated miRNAs, their targets and the associated metabolic pathways. The analysis revealed the modulation of many biological pathways, which are involved in salt-tolerance and play an important role in plant phenotype and physiology. The end modifications of the miRNAs were also studied in our analysis and isomiRs having a dynamic role in salt-tolerance mechanism were identified.

Published

2017

34. Plant IsomiR Atlas: Large Scale Detection, Profiling, and Target Repertoire of IsomiRs in Plants

Author

Kun Yang, Xiaopeng Wen, Suresh B. Mudunuri, and Gaurav Sablok

Subjects

isomiRs, microRNAs, plants, post-transcriptional machinery, functional targets, Plant culture, SB1-1110

Abstract

microRNAs (miRNAs) play an important role as key regulators controlling the post-transcriptional events in plants across development, abiotic and biotic stress, tissue polarity and also in defining the evolutionary basis of the origin of the post-transcriptional machinery. Identifying patterns of regulated and co-regulated small RNAs, in particular miRNAs and their sequence variants with the availability of next generation sequencing approaches has widely demonstrated the role of miRNAs and their temporal regulation in maintaining plant development and their response to stress conditions. Although the role of canonical miRNAs has been widely explored and functional diversity is revealed, those works for isomiRs are still limited and urgent to be carried out across plants. This relative lack of information with respect to isomiRs might be attributed to the non-availability of large-scale detection of isomiRs across wide plant species. In the present research, we addressed this by developing Plant isomiR Atlas, which provides large-scale detection of isomiRs across 23 plant species utilizing 677 smallRNAs datasets and reveals a total of 98,374 templated and non-templated isomiRs from 6,167 precursors. Plant isomiR Atlas provides several visualization features such as species specific isomiRs, isomiRs and canonical miRNAs overlap, terminal modification classifications, target identification using psRNATarget and TargetFinder and also canonical miRNAs:target interactions. Plant isomiR Atlas will play a key role in understanding the regulatory nature of miRNAome and will accelerate to understand the functional role of isomiRs. Plant isomiR Atlas is available at www.mcr.org.in/isomir.One Sentence Summary Plant isomiR Atlas will play a key role in understanding the regulatory nature of miRNAome and will accelerate the understanding and diversity of functional targets of plants isomiRs.

Published

2019

35. A survey of software tools for microRNA discovery and characterization using RNA-seq.

Author

Bortolomeazzi, Michele, Gaffo, Enrico, and Bortoluzzi, Stefania

Subjects

*SOFTWARE development tools, *NON-coding RNA, *TECHNOLOGY, *MICRORNA, *CHARACTERISTIC functions, *BIOLOGICAL databases

Abstract

Since the small RNA-sequencing (sRNA-seq) technology became available, it allowed the discovery of thousands new microRNAs (miRNAs) in humans and many other species, providing new data on these small RNAs (sRNAs) of high biological and translational relevance. MiRNA discovery has not yet reached saturation, even in the most studied model organisms, and many researchers are using sRNA-seq in studies with different aims in biomedicine, fundamental research and in applied animal sciences. We review several miRNA discovery and characterization software tools that implement different strategies, providing a useful guide for researchers to select the programs best suiting their study objectives and data. After a brief introduction on miRNA biogenesis, function and characteristics, useful to understand the biological background considered by the algorithms, we survey the current state of miRNA discovery bioinformatics discussing 26 different sRNA-seq-based miRNA prediction software and toolkits released in the past 6 years, including 15 methods specific for miRNA prediction and 11 more general-purpose software suites for sRNA-seq data analysis. We highlight the main features of mature miRNAs and miRNA precursors considered by the methods categorizing them according to prediction strategy and implementation. In addition, we describe a typical miRNA prediction and analysis workflow by delineating the objectives, potentialities and main steps of sRNA-seq data analysis projects, from preparatory data processing to miRNA prediction, quantification and diverse downstream analyses. Finally, we outline the caveats affecting sRNA-seq-based prediction tools, and we indicate the possibilities offered by data set pooling and by integration with other types of high-throughput sequencing data. [ABSTRACT FROM AUTHOR]

Published

2019

36. Plant IsomiR Atlas: Large Scale Detection, Profiling, and Target Repertoire of IsomiRs in Plants.

Author

Yang, Kun, Wen, Xiaopeng, Mudunuri, Suresh B., and Sablok, Gaurav

Subjects

MICRORNA, PLANT development, ABIOTIC stress

Abstract

microRNAs (miRNAs) play an important role as key regulators controlling the post-transcriptional events in plants across development, abiotic and biotic stress, tissue polarity and also in defining the evolutionary basis of the origin of the post-transcriptional machinery. Identifying patterns of regulated and co-regulated small RNAs, in particular miRNAs and their sequence variants with the availability of next generation sequencing approaches has widely demonstrated the role of miRNAs and their temporal regulation in maintaining plant development and their response to stress conditions. Although the role of canonical miRNAs has been widely explored and functional diversity is revealed, those works for isomiRs are still limited and urgent to be carried out across plants. This relative lack of information with respect to isomiRs might be attributed to the non-availability of large-scale detection of isomiRs across wide plant species. In the present research, we addressed this by developing Plant isomiR Atlas, which provides large-scale detection of isomiRs across 23 plant species utilizing 677 smallRNAs datasets and reveals a total of 98,374 templated and non-templated isomiRs from 6,167 precursors. Plant isomiR Atlas provides several visualization features such as species specific isomiRs, isomiRs and canonical miRNAs overlap, terminal modification classifications, target identification using psRNATarget and TargetFinder and also canonical miRNAs:target interactions. Plant isomiR Atlas will play a key role in understanding the regulatory nature of miRNAome and will accelerate to understand the functional role of isomiRs. Plant isomiR Atlas is available at www.mcr.org.in/isomir. One Sentence Summary Plant isomiR Atlas will play a key role in understanding the regulatory nature of miRNAome and will accelerate the understanding and diversity of functional targets of plants isomiRs. [ABSTRACT FROM AUTHOR]

Published

2019

37. isomiRs–Hidden Soldiers in the miRNA Regulatory Army, and How to Find Them?

Author

Ilias Glogovitis, Galina Yahubyan, Thomas Würdinger, Danijela Koppers-Lalic, and Vesselin Baev

Subjects

isomiRs, microRNAs, NGS, tools, data analysis, Microbiology, QR1-502

Abstract

Numerous studies on microRNAs (miRNA) in cancer and other diseases have been accompanied by diverse computational approaches and experimental methods to predict and validate miRNA biological and clinical significance as easily accessible disease biomarkers. In recent years, the application of the next-generation deep sequencing for the analysis and discovery of novel RNA biomarkers has clearly shown an expanding repertoire of diverse sequence variants of mature miRNAs, or isomiRs, resulting from alternative post-transcriptional processing events, and affected by (patho)physiological changes, population origin, individual’s gender, and age. Here, we provide an in-depth overview of currently available bioinformatics approaches for the detection and visualization of both mature miRNA and cognate isomiR sequences. An attempt has been made to present in a systematic way the advantages and downsides of in silico approaches in terms of their sensitivity and accuracy performance, as well as used methods, workflows, and processing steps, and end output dataset overlapping issues. The focus is given to the challenges and pitfalls of isomiR expression analysis. Specifically, we address the availability of tools enabling research without extensive bioinformatics background to explore this fascinating corner of the small RNAome universe that may facilitate the discovery of new and more reliable disease biomarkers.

Published

2020

38. Factors Involved in miRNA Processing Change Its Expression Level during Imitation of Hypoxia in BeWo b30 Cells.

Author

Nersisyan, S. A., Shkurnikov, M. Yu., and Knyazev, E. N.

Subjects

*PREECLAMPSIA, *MICRORNA, *FETAL anoxia, *HYPOXEMIA, *PREGNANCY complications, *PERINATAL death

Abstract

One of the main complications of pregnancy and causes of maternal and perinatal mortality is preeclampsia. The pathophysiology of preeclampsia is associated with the development of placenta and fetal hypoxia and secretion of a number of effective molecules. The human choriocarcinoma cell line BeWo b30 is often used as a model of the placental barrier. It was shown that oxyquinoline derivatives can mimic hypoxia by suppressing HIF-prolyl hydroxylases and the accumulation of HIF-1α. This effect also leads to a change in the expression of microRNAs and their target genes. However, with hypoxia in cells, not only the level of individual miRNAs but also the ratio of miRNA isoforms (isomiRs) can change, presumably due to inaccuracies in the work of the Drosha and Dicer enzymes. In this work, we showed a change in the expression of the factors involved in the maturation of miRNAs when simulating hypoxia in BeWo b30 cells with an oxyquinoline derivative, which may be one of the causes for the change in the ratio of miRNA isoforms. [ABSTRACT FROM AUTHOR]

Published

2020

39. Small RNA-seq analysis of single porcine blastocysts revealed that maternal estradiol-17beta exposure does not affect miRNA isoform (isomiR) expression.

Author

Bick, Jochen T., Flöter, Veronika L., Robinson, Mark D., Bauersachs, Stefan, and Ulbrich, Susanne E.

Subjects

*BLASTOCYST, *RNA sequencing, *ESTRADIOL, *MICRORNA, *NON-coding RNA, *DNA methylation, *EMBRYO implantation, *LIVESTOCK embryos, *THERAPEUTICS

Abstract

Background: The expression of microRNAs (miRNAs) is essential for the proper development of the mammalian embryo. A maternal exposure to endocrine disrupting chemicals during preimplantation bears the potential for transgenerational inheritance of disease through the epigenetic perturbation of the developing embryo. A comprehensive assembly of embryo-specific miRNAs and respective isoforms (isomiR) is lacking to date. We aimed at revealing the sex-specific miRNA expression profile of single porcine blastocysts developing in gilts orally exposed to exogenous estradiol-17 (E2). Therefore we analyzed the miRNA profile specifically focusing on isomiRs and potentially embryo-specific miRNAs. Results: Deep sequencing of small RNA (small RNA-seq) result in the detection of miRNA sequences mapping to known and predicted porcine miRNAs as well as novel miRNAs highly conserved in human and cattle. A set of highly abundant miRNAs and a large number of rarely expressed miRNAs were identified by using a small RNA analysis pipeline, which was integrated into a novel Galaxy workflow specifically benefits incompletely annotated species. In particular, orthologue species information increased the total number of annotated miRNAs, while mapping to other non-coding RNAs avoided falsely annotated miRNAs. Neither the low nor the high dose of E2 treatment (10 and 1000 µ E2/kg body weight daily, respectively) affected the miRNA profile in blastocysts despite the distinct differential mRNA expression and DNA methylation found in previous studies. The high number of generated sequence reads enabled a comprehensive analysis of the isomiR repertoire showing various templated and non-templated modifications. Furthermore, potentially blastocyst-specific miRNAs were identified. Conclusions: In pre-implantation embryos, numerous distinct isomiRs were discovered indicating a high complexity of miRNA expression. Neither the sex of the embryo nor a maternal E2 exposure affected the miRNA expression profile of developing porcine blastocysts. The adaptation to the continuous duration of the E2 treatment might explain the lack of an effect. [ABSTRACT FROM AUTHOR]

Published

2018

40. The miRNAome dynamics during developmental and metabolic reprogramming of tomato root infected with potato cyst nematode.

Author

Koter, Marek D., Święcicka, Magdalena, Matuszkiewicz, Mateusz, Pacak, Andrzej, Derebecka, Natalia, and Filipecki, Marcin

Subjects

*CYST nematodes, *TOMATOES, *NEMATODE infections, *ROOT-knot, *PLANT parasites

Abstract

Cyst-forming plant-parasitic nematodes are pests threatening many crops. By means of their secretions cyst nematodes induce the developmental and metabolic reprogramming of host cells that lead to the formation of a syncytium, which is the sole food source for growing nematodes. The in depth micro RNA (miRNA) dynamics in the syncytia induced by Globodera rostochiensis in tomato roots was studied. The miRNAomes were obtained from syncytia covering the early and intermediate developmental stages, and were the subject of differential expression analysis. The expression of 1235 miRNAs was monitored. The fold change (log 2 FC) ranged from −7.36 to 8.38, indicating that this transcriptome fraction was very variable. Moreover, we showed that the DE (differentially expressed) miRNAs do not fully overlap between the selected time points, suggesting infection stage specific regulation by miRNA. The correctness of RNA-seq expression profiling was confirmed by qRT-PCR (quantitative Real Time Polymerase Chain Reaction) for seven miRNA species. Down- and up-regulated miRNA species, including their isomiRs, were further used to identify their potential targets. Among them there are a large number of transcription factors linked to different aspects of plant development belonging to gene families, such as APETALA2 (AP2), SQUAMOSA (MADS-box), MYB, GRAS, and AUXIN RESPONSE FACTOR (ARF). The substantial portion of potential target genes belong to the NB-LRR and RLK (RECEPTOR-LIKE KINASE) families, indicating the involvement of miRNA mediated regulation in defense responses. We also collected the evidence for target cleavage in the case of 29 miRNAs using one of three alternative methods: 5′ RACE (5′ Rapid Amplification of cDNA Ends), a search of tasiRNA within our datasets, and the meta-analysis of tomato degradomes in the GEO (Gene Expression Omnibus) database. Eight target transcripts showed a negative correlation with their respective miRNAs at two or three time points. These results indicate a large regulatory potential for miRNAs in tuning the development and defense responses. [ABSTRACT FROM AUTHOR]

Published

2018

41. IsomiR processing during differentiation of myelogenous leukemic cell line K562 by phorbol ester PMA.

Author

Muiwo, Pamchui, Pandey, Priyatama, Ahmad, Hafiz M., Ramachandran, Suganthi S., and Bhattacharya, Alok

Subjects

*MEGAKARYOCYTES, *PHORBOL esters, *MYELOID leukemia genetics, *MICRORNA, *SMALL interfering RNA

Abstract

Chronic myelocytic leukemia cell line K562 undergoes differentiation by phorbol esters to megakaryocytes and we have used this system to understand miRNA processing leading to isomiR generation. PMA treatment significantly altered the production of miRNA in K562 cells. Expression of 24.4% of miRNAs were found to be stimulated whereas expression of 10% miRNAs were inhibited by PMA treatment. Our results suggest that miRNA precursors are processed into isomiRs in a deterministic manner. The relative levels of different isomiRs of a miRNA remained mainly unchanged even after PMA treatment irrespective of overall changes in expression (either up-regulation or down-regulation). However, not all miRNAs behave in the same way, about 7% showed a variation of isomiR profiles after PMA treatment. Most of the later class of miRNAs were found to be oncogenic miRNAs. Further, it was also found that number of isomiRs was independent of abundance of a miRNA. Functional importance of different isomiRs was demonstrated using three different isomiRs of miR-22. Our results showed that different isomiRs could inhibit expression of targets genes with different efficiencies. Our study suggests that the heterogeneity of a miRNA population generated during processing is in general regulated and that variation in the generation of an isomiR can be a functionally important regulatory feature. [ABSTRACT FROM AUTHOR]

Published

2018

42. Regulatory non-coding RNAs: a new frontier in regulation of plant biology

Author

Sadhana Singh, Arun K. Pandey, Rajeev K. Varshney, Hikmet Budak, Rakesh Kumar, Satendra K. Mangrauthia, Ankit Jain, Sailaja Bhogireddy, and Himabindu Kudapa

Subjects

Small interfering RNA, RNA, Untranslated, Stress response, RNA, Review, Crop improvement, General Medicine, Computational biology, Plants, Ribosomal RNA, Biology, Plant biology, Degradation, MicroRNAs, microRNA, Genetics, Nucleic acid, RNA, Long Noncoding, Regulatory non-coding RNAs, RNA, Small Interfering, IsomiRs, Biogenesis, Function (biology)

Abstract

Beyond the most crucial roles of RNA molecules as a messenger, ribosomal, and transfer RNAs, the regulatory role of many non-coding RNAs (ncRNAs) in plant biology has been recognized. ncRNAs act as riboregulators by recognizing specific nucleic acid targets through homologous sequence interactions to regulate plant growth, development, and stress responses. Regulatory ncRNAs, ranging from small to long ncRNAs (lncRNAs), exert their control over a vast array of biological processes. Based on the mode of biogenesis and their function, ncRNAs evolved into different forms that include microRNAs (miRNAs), small interfering RNAs (siRNAs), miRNA variants (isomiRs), lncRNAs, circular RNAs (circRNAs), and derived ncRNAs. This article explains the different classes of ncRNAs and their role in plant development and stress responses. Furthermore, the applications of regulatory ncRNAs in crop improvement, targeting agriculturally important traits, have been discussed. Supplementary Information The online version contains supplementary material available at 10.1007/s10142-021-00787-8.

Published

2021

43. An Emerging Role for isomiRs and the microRNA Epitranscriptome in Neovascularization

Author

Reginald V.C.T. van der Kwast, Paul H.A. Quax, and A. Yaël Nossent

Subjects

microrna, isomirs, epitranscriptome, neovascularization, angiogenesis, arteriogenesis, a-to-i editing, m6a, rna modifications, rna methylation, Cytology, QH573-671

Abstract

Therapeutic neovascularization can facilitate blood flow recovery in patients with ischemic cardiovascular disease, the leading cause of death worldwide. Neovascularization encompasses both angiogenesis, the sprouting of new capillaries from existing vessels, and arteriogenesis, the maturation of preexisting collateral arterioles into fully functional arteries. Both angiogenesis and arteriogenesis are highly multifactorial processes that require a multifactorial regulator to be stimulated simultaneously. MicroRNAs can regulate both angiogenesis and arteriogenesis due to their ability to modulate expression of many genes simultaneously. Recent studies have revealed that many microRNAs have variants with altered terminal sequences, known as isomiRs. Additionally, endogenous microRNAs have been identified that carry biochemically modified nucleotides, revealing a dynamic microRNA epitranscriptome. Both types of microRNA alterations were shown to be dynamically regulated in response to ischemia and are able to influence neovascularization by affecting the microRNA’s biogenesis, or even its silencing activity. Therefore, these novel regulatory layers influence microRNA functioning and could provide new opportunities to stimulate neovascularization. In this review we will highlight the formation and function of isomiRs and various forms of microRNA modifications, and discuss recent findings that demonstrate that both isomiRs and microRNA modifications directly affect neovascularization and vascular remodeling.

Published

2019

44. isomiR2Function: An Integrated Workflow for Identifying MicroRNA Variants in Plants.

Author

Kun Yang, Sablok, Gaurav, Guang Qiao, Qiong Nie, and Xiaopeng Wen

Subjects

MICRORNA, PLANT variation

Abstract

In plants, post transcriptional regulation by non-coding RNAs (ncRNAs), in particular miRNAs (19-24 nt) has been involved in modulating the transcriptional landscape in developmental, biotic and abiotic interactions. In past few years, considerable focus has been leveraged on delineating and deciphering the role of miRNAs and their canonical isomiRs in plants. However, proper classification and accurate prediction of plant isomiRs taking into account the relative features by which we define isomiRs, such as templated or non-templated is still lacking. In the present research, we present isomiR2Function, a standalone easily deployable tool that allows for the robust and high-throughput discovery of templated and non-templated isomiRs. Additionally, isomiR2Function allows for identification of differentially expressed isomiRs and in parallel target prediction based on both transcripts or PARE-Seq either using Targetfinder or Cleaveland. isomiR2Function allows for the functional enrichment of the detected targets using TopGO package. Benchmarking of isomiR2Function revealed highly accurate prediction and classification of isomiRs as compared to the previously developed isomiR prediction tools. Additionally, the downstream implementation of additional features allows isomiR2Function to be classified as a single standalone tool for isomiR profiling from discovery to functional roles. All in all, isomiR2Function allows the streamline processing of the miRNA-seq for the identification and characterization of isomiRs with minimal efforts. isomiR2Function can be accessed through: https://gi thub.com/347033139/isomiR2Function. [ABSTRACT FROM AUTHOR]

Published

2017

45. MicroRNA biomarkers of pancreatic injury in a canine model.

Author

Rouse, Rodney, Rosenzweig, Barry, Shea, Katie, Knapton, Alan, Stewart, Sharron, Xu, Lin, Chockalingam, Ashok, Zadrozny, Leah, and Thompson, Karol

Subjects

MICRORNA, PANCREATIC acinar cells, AMYLASES, BIOMARKERS, DOG diseases

Abstract

Pancreas-enriched microRNAs have been experimentally investigated in rodents as candidate serum biomarkers of pancreatic injury with several different acute pancreatic injury models. In the present study, temporal and magnitude responses of exocrine pancreas-enriched miR-216a, miR-216b, and miR-217 and endocrine-enriched miR-375 and miR-148a were measured by droplet digital PCR in serum in a caerulein model of pancreatic injury in the dog. All 5 microRNAs followed a similar time course that mirrored the responses of the conventional serum pancreatic injury biomarkers, amylase and lipase. Detection was improved through the use of assays designed against microRNA isomers (isomirs) identified by sequencing. Serum biomarker increases were concordant with histopathology defined acinar cell injury. Minimal islet cell changes were noted. The pancreas-enriched microRNAs demonstrated similar or greater sensitivity, a larger range of response, and a higher correlation to acinar cell injury compared to amylase and lipase. Our results further support the translational potential of pancreas-enriched microRNAs as sensitive biomarkers of acinar cell injury with evidence from an additional non-clinical model system. [ABSTRACT FROM AUTHOR]

Published

2017

46. MicroRNA biogenesis and variability

Author

García-López Jesús, Brieño-Enríquez Miguel A., and del Mazo Jesús

Subjects

canonical biogenesis, editing, micrornas, noncanonical biogenesis, isomirs, Biology (General), QH301-705.5

Abstract

MicroRNAs (miRNAs) are cell-endogenous small noncoding RNAs that, through RNA interference, are involved in the posttranscriptional regulation of mRNAs. The biogenesis and function of miRNAs entail multiple elements with different alternative pathways. These confer a high versatility of regulation and a high variability to generate different miRNAs and hence possess a broad potential to regulate gene expression. Here we review the different mechanisms, both canonical and noncanonical, that generate miRNAs in animals. The ‘miRNome’ panorama enhances our knowledge regarding the fine regulation of gene expression and provides new insights concerning normal, as opposed to pathological, cell differentiation and development.

Published

2013

47. Ribosomal RNA fragmentation into short RNAs (rRFs) is modulated in a sex- and population of origin-specific manner

Author

Yi Jing, Tess Cherlin, Isidore Rigoutsos, Venetia Pliatsika, Rogan Magee, and Phillipe Loher

Subjects

Male, Physiology, Plant Science, Transcriptome, 0302 clinical medicine, tRFs, Structural Biology, isomiRs, rRNA, tRNA-derived fragments, lcsh:QH301-705.5, Genetics, 0303 health sciences, education.field_of_study, microRNA, Middle Aged, transfer RNA, 1000 Genomes Project, Ribosomal RNA, 030220 oncology & carcinogenesis, Transfer RNA, Female, General Agricultural and Biological Sciences, Biotechnology, Research Article, Mitochondrial DNA, Nuclear gene, Population, rRNA-derived fragments, Biology, General Biochemistry, Genetics and Molecular Biology, DNA sequencing, Cell Line, 03 medical and health sciences, rRFs, Sex Factors, Humans, education, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, Aged, miRNA, RNA, Cell Biology, MicroRNAs, lcsh:Biology (General), RNA, Ribosomal, Developmental Biology

Abstract

Background The advent of next generation sequencing (NGS) has allowed the discovery of short and long non-coding RNAs (ncRNAs) in an unbiased manner using reverse genetics approaches, enabling the discovery of multiple categories of ncRNAs and characterization of the way their expression is regulated. We previously showed that the identities and abundances of microRNA isoforms (isomiRs) and transfer RNA-derived fragments (tRFs) are tightly regulated, and that they depend on a person’s sex and population origin, as well as on tissue type, tissue state, and disease type. Here, we characterize the regulation and distribution of fragments derived from ribosomal RNAs (rRNAs). rRNAs form a group that includes four (5S, 5.8S, 18S, 28S) rRNAs encoded by the human nuclear genome and two (12S, 16S) by the mitochondrial genome. rRNAs constitute the most abundant RNA type in eukaryotic cells. Results We analyzed rRNA-derived fragments (rRFs) across 434 transcriptomic datasets obtained from lymphoblastoid cell lines (LCLs) derived from healthy participants of the 1000 Genomes Project. The 434 datasets represent five human populations and both sexes. We examined each of the six rRNAs and their respective rRFs, and did so separately for each population and sex. Our analysis shows that all six rRNAs produce rRFs with unique identities, normalized abundances, and lengths. The rRFs arise from the 5′-end (5′-rRFs), the interior (i-rRFs), and the 3′-end (3′-rRFs) or straddle the 5′ or 3′ terminus of the parental rRNA (x-rRFs). Notably, a large number of rRFs are produced in a population-specific or sex-specific manner. Preliminary evidence suggests that rRF production is also tissue-dependent. Of note, we find that rRF production is not affected by the identity of the processing laboratory or the library preparation kit. Conclusions Our findings suggest that rRFs are produced in a regimented manner by currently unknown processes that are influenced by both ubiquitous as well as population-specific and sex-specific factors. The properties of rRFs mirror the previously reported properties of isomiRs and tRFs and have implications for the study of homeostasis and disease.

Published

2020

48. Single nucleotide alterations in MicroRNAs and human cancer-A not fully explored field

Author

Dan Zhao

Subjects

0301 basic medicine, lcsh:QH426-470, Somatic cell, Single-nucleotide polymorphism, Computational biology, Biology, Biochemistry, Article, 03 medical and health sciences, 0302 clinical medicine, Somatic mutations, microRNA, Genetics, medicine, Isomirs, Molecular Biology, Gene, Biochemistry (medical), Cancer, Translation (biology), medicine.disease, microRNAs, lcsh:Genetics, 030104 developmental biology, Single nucleotide alterations, 030220 oncology & carcinogenesis, Human genome, Function (biology), SNPs

Abstract

MicroRNAs are ~20 nt long small noncoding RNAs that are processed from stem-looped precursors and function mainly as posttranscriptional regulators of protein coding genes through binding to 3′-untranslated regions of messenger RNAs to inhibit the translation or cause RNA degradation. It is predicted microRNAs could regulate up to half of all human genes and are proved to play important roles in human diseases including cancer. They bind to target mRNAs based on complementary binding which is dominated by the so-called “seed” region which are the 5′ 2–8 bases of the microRNA. Due to the small size in nature, even a single nucleotide variation in the precursor region especially those located in the seed regions could show big influence. Here, I summarized and reviewed the current knowledge of these single nucleotide alterations in microRNAs in human cancer including (i) common SNPs in the precursor region, (ii) isomiRs, (iii) somatic mutations of microRNAs. Briefly, this is an underexploited field and clearly, warrants further studies to reveal their biological and clinical significances. I believe they will be key to advancing personalized medicine. Keywords: microRNAs, Single nucleotide alterations, SNPs, Isomirs, Somatic mutations

Published

2020

49. Characterisation of miRNA variation in Small RNA-Seq data

Author

Moi, Frida, Rayner, Simon, Vik, Jon Olav, and Faci, Pavel Vazquez

Subjects

Small RNA-Seq, isomiRs, NGS, Mathematics and natural science: 400 [VDP], cancer, miRNA

Abstract

Evidence suggests that miRNA signatures could have clinical applications as biomarkers for diagnostic and prognostic purposes. In standard analyses, miRNAs are considered to exist as well-defined features with a precise start and stop positions. In reality, they exist as a population of similar but slightly different isoforms - isomiRs. The project has developed methods to investigate isomiR populations and studied their variation between healthy and cancer patients. The methods presented here have been implemented in an analysis pipeline that allows standardised and scalable analysis of raw NGS datasets. The value of this approach has been demonstrated by investigating publicly available datasets to identify statistically significant changes in isomiR populations in various cancers. Forskning tilsier at miRNA-signaturer kan ha kliniske applikasjoner i diagnostisk- og prognostisk sammenheng. I konvensjonelle analyser antas miRNA å være veldefinerte enheter med nøyaktige start- og slutt-posisjoner. I virkeligheten eksisterer de som en variert populasjon av lignende, men noe ulike, isomerer. Gjennom dette prosjektet har det blitt utviklet metoder for å undersøke hvordan miRNA-populasjoner varierer mellom friske og syke. Metodene har blitt implementert i eksisterende programvare som muliggjør standardisert og skalerbar analyse av sekvenseringsdata. Verdien av denne tilnærmingen har blitt demonstrert ved å analysere offentlig tilgjengelige datasett for å identifisere statistisk signifikante endringer i miRNA-populasjoner i ulike krefttyper. M-KB

Published

2022

50. miRGalaxy: Galaxy-Based Framework for Interactive Analysis of microRNA and isomiR Sequencing Data

Author

Danijela Koppers-Lalic, Ilias Glogovitis, Vesselin Baev, Thomas Wurdinger, Galina Yahubyan, Neurosurgery, CCA - Cancer biology and immunology, and CCA - Imaging and biomarkers

Subjects

Cancer Research, Small RNA, Computer science, business.industry, Sequencing data, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, Computational biology, bioinformatics tools, Modular design, Interactive analysis, Article, Galaxy, Workflow, IsomiR, Oncology, isomiRs, NGS, microRNA, miRNAs, Data analysis, business, RC254-282

Abstract

Simple Summary MicroRNAs are essential regulators of gene expression and potential non-invasive biomarker candidates for various human cancers as they can be detected in bodily fluids. Several tools have been developed to analyze small RNA-sequencing data; however, they have limitations and restrictions such as lack of optimal configuration, parameterization, and interoperability with other tools and platforms. miRGalaxy is an open-source, Galaxy-based framework for analyzing NGS data focusing on microRNAs and their sequence variants—isomiRs. Galaxy is a web-based platform for data-intensive biomedical research, allowing user-friendly analysis and accessibility to hundreds of tools. miRGalaxy is designed specifically for identifying and classifying human microRNAs and isomiRs, as well as detecting deregulated microRNAs and isomiRs between two test groups, summarized by output visualization. By examining the differential expression of individual isomiR species across samples, miRGalaxy can help discover novel biomarkers. Abstract Tools for microRNA (miR) sequencing data analyses are broadly used in biomedical research. However, the complexity of computational approaches still remains a challenge for biologists with scarce experience in data analytics and bioinformatics. Here, we present miRGalaxy, a Galaxy-based framework for comprehensive analysis of miRs and their sequence variants—miR isoforms (isomiRs). Though isomiRs are commonly reported in deep-sequencing experiments, their detailed structure complexity and specific differential expression (DE) remain not fully examined by the majority of the available analysis tools. miRGalaxy encompasses biologist-user-friendly tools and workflows dedicated to the analysis of the isomiR-ome and its complex behavior in various biological samples. miRGalaxy is developed as a modular, accessible, redistributable, shareable, and user-friendly framework for scientists working with small RNA (sRNA)-seq data. Due to its modular workflow, advanced users can customize the steps and tools for their needs. In addition, the framework provides an analysis report where the significant output results are summarized in charts and visualizations. miRGalaxy can be accessed via preconfigured Docker image flavor and a Toolshed installation if the user already has a running Galaxy instance. Over the last decade, studies on the expression of miRs and isomiRs in normal and deregulated tissues have led to the discovery of their potential as diagnostic biomarkers. The detection of miRs in biofluids further expanded the exploration of the miR repertoire as a source of liquid biopsy biomarkers. Here we show the miRGalaxy framework application for in-depth analysis of the sRNA-seq data from two different biofluids, milk and plasma, to identify, annotate, and discover specific differentially expressed miRs and isomiRs.

Published

2021