Evidence for post-transcriptional regulation of clustered microRNAs in Drosophila

BACKGROUND: MicroRNAs (miRNA) are short 21-23nt RNAs capable of inhibiting translation of complementary target messenger RNAs. Almost half of D. melanogaster miRNA genes are grouped in genomic clusters. RESULTS: The peculiarities of the expression of clustered miRNAs were studied using publicly available libraries of sequenced small RNAs from different Drosophila tissues. We have shown that although miRNAs from almost all clusters have similar tissue expression profiles (coordinated clusters), some clusters contain miRNAs with uncoordinated expression profiles. The predicted transcription start sites (TSSs) of such clusters are located upstream of the first miRNA, but no TSSs are found within the clusters. The expression profiles of miR and miR* sequences in uncoordinated clustered miRNAs do not correlate while their profiles from the coordinated clustered miRNAs are similar. CONCLUSIONS: The presence of exclusively upstream promoters in miRNA clusters containing uncoordinated miRNAs means that the clusters are transcribed as single transcription units. The difference of tissue expression profiles of uncoordinated miRNAs and the corresponding miRs* suggests a post-transcriptional regulation of their processing or stability. [KEYWORDS: Animals, Drosophila/ genetics, Gene Expression Profiling, MicroRNAs/ genetics/ metabolism, Multigene Family, Promoter Regions, Genetic, RNA Processing, Post-Transcriptional, Transcription Initiation Site]

Dna satellites are transcribed as part of the non-coding genome in eukaryotes and bacteria

It has been shown in recent years that many repeated sequences in the genome are expressed as RNA transcripts, although the role of such RNAs is poorly understood. Some isolated and tandem repeats (satellites) have been found to be transcribed, such as mammalian Alu sequences and telomeric/centromeric satellites in different species. However, there is no detailed study on the eventual transcription of the interspersed satellites found in many species. Therefore, we decided to study for the first time the transcription of the abundant DNA satellites in the bacterium Bacillus coagulans and in the nematode Caenorhabditis elegans. We have updated the data for C. elegans satellites using the latest version of the genome. We analyzed the transcription of satellites in both species in available RNA-seq results and found that they are widely transcribed. Our demonstration that satellite RNAs are transcribed adds a new family of non-coding RNAs. This is a field that requires further investigation and will provide a deeper understanding of gene expression and control.This work was supported by Ministerio de Ciencia e Innovación, Spain [Project RTI2018-094403-B-C33 funded by MCIN/ AEI 10.13039/501100011033/ FEDER].Peer ReviewedPostprint (published version

Two Similarity Metrics for Medical Subject Headings (MeSH): An Aid to Biomedical Text Mining and Author Name Disambiguation

In the present paper, we have created and characterized several similarity metrics for relating any two Medical Subject Headings (MeSH terms) to each other. The article-based metric measures the tendency of two MeSH terms to appear in the MEDLINE record of the same article. The author-based metric measures the tendency of two MeSH terms to appear in the body of articles written by the same individual (using the 2009 Author-ity author name disambiguation dataset as a gold standard). The two metrics are only modestly correlated with each other (r = 0.50), indicating that they capture different aspects of term usage. The article-based metric provides a measure of semantic relatedness, and MeSH term pairs that co-occur more often than expected by chance may reflect relations between the two terms. In contrast, the author metric is indicative of how individuals practice science, and may have value for author name disambiguation and studies of scientific discovery. We have calculated article metrics for all MeSH terms appearing in at least 25 articles in MEDLINE (as of 2014) and author metrics for MeSH terms published as of 2009. The dataset is freely available for download and can be queried at http://arrowsmith.psych.uic.edu/arrowsmith_uic/mesh_pair_metrics.html. Handling editor: Elizabeth Workman, MLIS, PhD.

MicroRNAs as biomarkers in spontaneous intracerebral hemorrhage: a systematic review of recent clinical evidence

Spontaneous intracerebral hemorrhage (SICH) is a subtype of stroke associated with high mortality and devastating disabilities. Therefore, identifying non-invasive biomarkers for SICH would have a tremendous clinical impact. MicroRNAs (miRNAs) are non-coding single-stranded RNAs containing 21-23 nucleotides that control the activity of various protein-coding genes through post-transcriptional repression. In this systematic review, we report the recent clinical evidence on the role of miRNAs as biomarkers for the prediction, prognosis, early detection, and risk stratification of SICH

Small RNAs in parasitic nematodes - forms and functions

Small RNAs are important regulators of gene expression. They were first identified in Caenorhabditis elegans, but it is now apparent that the main small RNA silencing pathways are functionally conserved across diverse organisms. Availability of genome data for an increasing number of parasitic nematodes has enabled bioinformatic identification of small RNA sequences. Expression of these in different lifecycle stages is revealed by small RNA sequencing and microarray analysis. In this review we describe what is known of the three main small RNA classes in parasitic nematodes – microRNAs (miRNAs), Piwi-interacting RNAs (piRNAs) and small interfering RNAs (siRNAs) – and their proposed functions. miRNAs regulate development in C. elegans and the temporal expression of parasitic nematode miRNAs suggest modulation of target gene levels as parasites develop within the host. miRNAs are also present in extracellular vesicles released by nematodes in vitro, and in plasma from infected hosts, suggesting potential regulation of host gene expression. Roles of piRNAs and siRNAs in suppressing target genes, including transposable elements, are also reviewed. Recent successes in RNAi-mediated gene silencing, and application of small RNA inhibitors and mimics will continue to advance understanding of small RNA functions within the parasite and at the host–parasite interface

Epigenetic modifications as outcomes of exercise interventions related to specific metabolic alterations: a systematic review

Background: Chronic diseases arise as a consequence of an unhealthy lifestyle primarily characterized by physical inactivity and unbalanced diets. Regular physical activity can improve health, and there is consistent evidence that these improvements may be the result of epigenetic modifications. Objective: To identify epigenetic modificationsas outcomes of exercise interventions related to specific metabolic alterations. Methods: The Preferred Reporting Items for Systematic Reviews and Meta-Analyses Protocols (PRISMA-P) methodology for manuscript research and preparation was followed using PubMed and EBSCO databases for literature review. Out of 2,638 articles identified, only 34 articles met the inclusion criteria. Results: The sections of the review were organized by metabolic alterations in which studies were grouped according to healthy, diseased, and trained individuals. Resistance exercise in humans induced epigenetic changes in pathways associated with energy metabolism and insulin sensitivity, contributing to healthy skeletal muscle. Endurance exercise also caused modifications in biomarkers associated to metabolic alterations through changes in DNA methylation and the expression of specific miRNAs. However, both resistance and endurance exercise are necessary to obtain a better physiological adaptation and a combination of both seems to be needed to properly tackle the increasing prevalence of non-communicable pathologies. Conclusion: Given the heterogeneity and complexity of the existing literature, it is currently not possible to propose a specific recommendation about the type, intensity, or duration of exercise that could be beneficial for different subsets of the population (healthy, diseased, and/or trained). Nevertheless, this review highlights the importance of exercise for health and shows the need to perform more research in this emerging area to identify epigenetic biomarkers that could serve as indicators of exercise adaptations

Role of Ionizing Radiation in Shaping the Complex Multi-Layered Epigenome

The impact of ionizing radiation (IR) with induction of various DNA damage is based not only on genetic but also on epigenetic effects. Epigenetic modifications determine the chro matin structure and DNA accessibility, thereby regulating cellular functions through the expression of individual genes or entire groups of genes. However, the influence of DNA repair processes on the restoration of local chromatin structures and global nuclear architec tures is still insufficiently understood. In multicellular organisms, epigenetic mechanisms control diverse cellular functions of specific cell types through precise temporal and spatial regulation of gene expression and silencing. How altered epigenetic mechanisms regulate the pathophysiological function of cells, tissues, and ultimately entire organs following IR exposure remains to be investigated in detail. Radiation-induced epigenetic processes are particularly critical for immature cell populations such as tissue-specific stem and progenitor cells during development and differentiation of organ tissues. Genome-wide patterns of DNA and histone modifications are established cell types—specifically during the development and differentiation of organ tissues but can also be fundamentally altered in adult organism by stress responses, such as radiation-induced DNA damage. Following IR exposure, epigenetic factors are not always fully restored to their original state, resulting in epigenetic dysfunction that causes cells to lose their original identity and function. More over, severe radiation-induced DNA damage can induce premature senescence of cells in complex tissues, which ultimately leads to signs of aging and age-related diseases such as cancer. In this work, we provide an overview of the most important epigenetic changes following IR exposure and their pathophysiological significance for the development of acute and chronic radiation reactions

Epigenetički biljezi u tumorima glave i vrata: posebni osvrt na tumore orofarinksa povezane s HPV-om

Unatoč kontinuiranim naporima da se identificiraju molekularni biljezi za rano otkrivanje tumora glave i vrata (engl. HNC, head and neck cancer) te poboljšanoj terapiji, ukupno preživljenje i prognoza bolesnika s HNC-om i dalje su loši. Znanstveni dokazi sugeriraju da tumori povezani s HPV-om imaju bolju prognozu i preživljenje. Nadalje, epigenetičke promjene su općenito često uključene u karcinogenezu, napredovanje tumora glave i vrata te rezistenciju na terapiju. Stoga razumijevanje i karakterizacija epigenetičkih modifikacija povezanih s karcinogenezom tumora glave i vrata obećavaju identifikaciju epigenetičkih biljega za rano otkrivanje raka i poboljšanje terapijskih pristupa u borbi protiv raka. U ovom preglednom radu dan je osvrt na trenutno znanje o epigenetičkim modifikacijama, odnosno metiliranju DNA i mikroRNA uočenim kod HNC-a, posebno kod tumora orofarinksa pozitivnih na HPV