Your search keyword '"sncRNAs"' showing total 113 results

1. 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

2. 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

3. Female RNA concussion (FeRNAC) study: assessing hormone profiles and salivary RNA in females with concussion by emergency departments in New Zealand: a study protocol

Author

Natalie Hardaker, Doug King, Patria A. Hume, Tom Stewart, Stacy Sims, Indira Basu, Blair Shilton, and James Selfe

Subjects

Females, Concussion, Sex hormones, Saliva, Biomarkers, sncRNAs, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Background Females of reproductive age with concussion report a greater number of symptoms that can be more severe and continue for longer than age matched males. Underlying mechanisms for sex differences are not well understood. Short non-coding Ribonucleic Acids (sncRNAs) are candidate salivary biomarkers for concussion and have been studied primarily in male athletes. Female sex hormones influence expression of these biomarkers, and it remains unclear whether a similar pattern of sncRNA expression would be observed in females following concussion. This study aims to evaluate recovery time, the ratio of salivary sncRNAs and symptom severity across different hormone profiles in females presenting to emergency departments (ED) with concussion and, to investigate the presence of low energy availability (LEA) as a potential modifier of concussion symptoms. Methods This prospective cohort study recruits participants from New Zealand EDs who are biologically female, of reproductive age (16–50 years) and with a confirmed diagnosis of concussion from an ED healthcare professional. Participants are excluded by ED healthcare professionals from study recruitment as part of initial routine assessment if they have a pre-diagnosed psychiatric condition, neurological condition (i.e., epilepsy, cerebral palsy) or more than three previously diagnosed concussions. Participants provide a saliva sample for measurement of sncRNA’s, and online survey responses relating to hormone profile and symptom recovery at 7-day intervals after injury until they report a full return to work/study. The study is being performed in accordance with ethical standards of the Declaration of Helsinki with ethics approval obtained from the Health and Disability Ethics Committee (HDEC #2021 EXP 11655), Auckland University of Technology Ethics Committee (AUTEC #22/110) and locality consent through Wellington hospital research office. Discussion If saliva samples confirm presence of sncRNAs in females with concussion, it will provide evidence of the potential of saliva sampling as an objective tool to aid in diagnosis of, and confirmation of recovery from, concussion. Findings will determine whether expression of sncRNAs is influenced by steroid hormones in females and may outline the need for sex specific application and interpretation of sncRNAs as a clinical and/or research tool. Trial registration Australian New Zealand Clinical Trials Registry (ANZCTR) registration number ACTRN12623001129673.

Published

2024

4. Female RNA concussion (FeRNAC) study: assessing hormone profiles and salivary RNA in females with concussion by emergency departments in New Zealand: a study protocol.

Author

Hardaker, Natalie, King, Doug, Hume, Patria A., Stewart, Tom, Sims, Stacy, Basu, Indira, Shilton, Blair, and Selfe, James

Subjects

*BRAIN concussion, *HOSPITAL emergency services, *MEDICAL personnel, *SEX hormones, *RESEARCH protocols, *CHILDBEARING age

Abstract

Background: Females of reproductive age with concussion report a greater number of symptoms that can be more severe and continue for longer than age matched males. Underlying mechanisms for sex differences are not well understood. Short non-coding Ribonucleic Acids (sncRNAs) are candidate salivary biomarkers for concussion and have been studied primarily in male athletes. Female sex hormones influence expression of these biomarkers, and it remains unclear whether a similar pattern of sncRNA expression would be observed in females following concussion. This study aims to evaluate recovery time, the ratio of salivary sncRNAs and symptom severity across different hormone profiles in females presenting to emergency departments (ED) with concussion and, to investigate the presence of low energy availability (LEA) as a potential modifier of concussion symptoms. Methods: This prospective cohort study recruits participants from New Zealand EDs who are biologically female, of reproductive age (16–50 years) and with a confirmed diagnosis of concussion from an ED healthcare professional. Participants are excluded by ED healthcare professionals from study recruitment as part of initial routine assessment if they have a pre-diagnosed psychiatric condition, neurological condition (i.e., epilepsy, cerebral palsy) or more than three previously diagnosed concussions. Participants provide a saliva sample for measurement of sncRNA's, and online survey responses relating to hormone profile and symptom recovery at 7-day intervals after injury until they report a full return to work/study. The study is being performed in accordance with ethical standards of the Declaration of Helsinki with ethics approval obtained from the Health and Disability Ethics Committee (HDEC #2021 EXP 11655), Auckland University of Technology Ethics Committee (AUTEC #22/110) and locality consent through Wellington hospital research office. Discussion: If saliva samples confirm presence of sncRNAs in females with concussion, it will provide evidence of the potential of saliva sampling as an objective tool to aid in diagnosis of, and confirmation of recovery from, concussion. Findings will determine whether expression of sncRNAs is influenced by steroid hormones in females and may outline the need for sex specific application and interpretation of sncRNAs as a clinical and/or research tool. Trial registration: Australian New Zealand Clinical Trials Registry (ANZCTR) registration number ACTRN12623001129673. [ABSTRACT FROM AUTHOR]

Published

2024

5. Small Non-Coding RNAs and Their Role in Locoregional Metastasis and Outcomes in Early-Stage Breast Cancer Patients.

Author

Escuin, Daniel, Bell, Olga, García-Valdecasas, Bárbara, Clos, Montserrat, Larrañaga, Itziar, López-Vilaró, Laura, Mora, Josefina, Andrés, Marta, Arqueros, Cristina, and Barnadas, Agustí

Subjects

*NON-coding RNA, *BREAST, *SMALL nuclear RNA, *NOTCH genes, *CANCER patients, *SENTINEL lymph nodes, *NOTCH signaling pathway

Abstract

Deregulation of small non-coding RNAs (sncRNAs) has been associated with the onset of metastasis. We evaluated the expression of sncRNAs in patients with early-stage breast cancer, performing RNA sequencing in 60 patients for whom tumor and sentinel lymph node (SLN) samples were available, and conducting differential expression, gene ontology, enrichment and survival analyses. Sequencing annotation classified most of the sncRNAs into small nucleolar RNA (snoRNAs, 70%) and small nuclear RNA (snRNA, 13%). Our results showed no significant differences in sncRNA expression between tumor or SLNs obtained from the same patient. Differential expression analysis showed down-regulation (n = 21) sncRNAs and up-regulation (n = 2) sncRNAs in patients with locoregional metastasis. The expression of SNHG5, SNORD90, SCARNA2 and SNORD78 differentiated luminal A from luminal B tumors, whereas SNORD124 up-regulation was associated with luminal B HER2+ tumors. Discriminating analysis and receiver-operating curve analysis revealed a signature of six snoRNAs (SNORD93, SNORA16A, SNORD113-6, SNORA7A, SNORA57 and SNORA18A) that distinguished patients with locoregional metastasis and predicted patient outcome. Gene ontology and Reactome pathway analysis showed an enrichment of biological processes associated with translation initiation, protein targeting to specific cell locations, and positive regulation of Wnt and NOTCH signaling pathways, commonly involved in the promotion of metastases. Our results point to the potential of several sncRNAs as surrogate markers of lymph node metastases and patient outcome in early-stage breast cancer patients. Further preclinical and clinical studies are required to understand the biological significance of the most significant sncRNAs and to validate our results in a larger cohort of patients. [ABSTRACT FROM AUTHOR]

Published

2024

6. Small RNAs: an ideal choice as sperm quality biomarkers.

Author

Mehta, Poonam and Singh, Rajender

Subjects

INFERTILITY treatment, FERTILITY, OVUM, SPERMATOZOA, REPRODUCTIVE health, SEMEN, RNA, SPERM donation, GENE expression profiling, MEDICAL screening, BIOMARKERS, GENOMES

Abstract

Spermatozoa were classically known as vehicles for the delivery of the paternal genome to the oocyte. However, in 1962, spermatozoa were discovered to carry significant amounts of RNA in them, which raised questions about the significance of these molecules in such a highly specialized cell. Scientific research in the last six decades has investigated the biological significance of sperm RNAs by various means. Irrespective of what sperm RNAs do, their presence in spermatozoa has attracted attention for their exploitation as biomarkers of fertility. Research in this direction started in the year 2000 and is still underway. A major hurdle in this research is the definition of the standard human sperm RNAome. Only a few normozoospermic samples have been analyzed to define the normal sperm RNAome. In this article, we provide a perspective on the suitability of sperm RNAs as biomarkers of fertility and the importance of defining the normal sperm RNAome before we can succeed in identifying RNA-based biomarkers of sperm quality and fertility. The identification of sperm RNA biomarkers of fertility can be exploited for quality screening of donor sperm samples, explain infertility in idiopathic cases, and RNA therapeutics for the treatment of male infertility. [ABSTRACT FROM AUTHOR]

Published

2024

7. Seminal extracellular vesicle sncRNA sequencing reveals altered miRNA/isomiR profiles as sperm retrieval biomarkers for azoospermia.

Author

Larriba, Sara, Sánchez‐Herrero, Jose Francisco, Pluvinet, Raquel, López‐Rodrigo, Olga, Bassas, Lluís, and Sumoy, Lauro

Subjects

*EXTRACELLULAR vesicles, *AZOOSPERMIA, *SEMINAL vesicles, *GENE expression, *NON-coding RNA, *MALE infertility, *URETERIC obstruction

Abstract

Background: Non‐invasive molecular biomarkers for classifying azoospermia by origin into either obstructive or non‐obstructive/secretory azoospermia, as well as for inferring the spermatogenic reserve of the testis of non‐obstructive/secretory azoospermia patients, are of great interest for testicular sperm retrieval outcome prediction for assisted reproduction. Prior analyses of semen small non‐coding RNA expression in azoospermia have focused on microRNAs, but there has been a lack of attention on other regulatory small RNA species. In this regard, studying more in‐depth expression changes of small non‐coding RNA subtypes in small extracellular vesicles from semen of azoospermic individuals could be useful to select additional non‐invasive biomarkers with diagnostic/prognostic purposes. Material and methods: A high‐throughput small RNA profiling analysis to determine the expression pattern of seminal small extracellular vesicle microRNAs (analyzed at the isomiR level), PIWI‐interacting RNAs, and transfer RNA‐derived small RNAs in normozoospermic (n = 4) and azoospermic (obstructive azoospermia because of pathological occurring obstruction in the genital tract, n = 4; secretory azoospermic individuals with positive testicular sperm extraction value, n = 5; secretory azoospermic individuals with negative testicular sperm extraction value, n = 4) individuals was carried out. Reverse transcriptase‐quantitative real‐time polymerase chain reaction validation analysis of selected microRNAs was additionally performed in a larger number of individuals. Results and discussion: Clinically relevant quantitative changes in the small non‐coding RNA levels contained in semen small extracellular vesicles can be used as biomarkers for the origin of azoospermia and for predicting the presence of residual spermatogenesis. In this regard, canonical isoform microRNAs (n = 185) but also other isomiR variants (n = 238) stand out in terms of numbers and fold‐change differences in expression, underlining the need to consider isomiRs when investigating microRNA‐based regulation. Conversely, although transfer RNA‐derived small RNAs are shown in our study to represent a high proportion of small non‐coding RNA sequences in seminal small extracellular vesicle samples, they are not able to discriminate the origin of azoospermia. PIWI‐interacting RNA cluster profiles and individual PIWI‐interacting RNAs with significant differential expression were also not able to discriminate. Our study demonstrated that expression values of individual and/or combined canonical isoform microRNAs (miR‐10a‐5p, miR‐146a‐5p, miR‐31‐5p, miR‐181b‐5p; area under the receiver operating characteristic curve >0.8) in small extracellular vesicles provide considerable clinical value in identifying samples with a high likelihood of sperm retrieval while discriminating azoospermia by origin. Although no individual microRNA showed sufficient discriminating power on its own to identify severe spermatogenic disorders with focal spermatogenesis, multivariate microRNA models in semen small extracellular vesicles have the potential to identify those individuals with residual spermatogenesis. Availability and adoption of such non‐invasive molecular biomarkers would represent a great improvement in reproductive treatment decision protocols for azoospermia in clinical practice. [ABSTRACT FROM AUTHOR]

Published

2024

8. Biogenesis of Non-coding RNAs (ncRNAs) and Their Biological Role in Rice (Oryza sativa L.).

Author

Khan, Ibrahim, Khan, Sikandar, Akhoundian, Maryam, Shah, Dawood, Shah, Sayed Suliman, and Jan, Sohail Ahmad

Subjects

*LINCRNA, *GENE expression, *PHASE transitions, *PLANT genomes, *GENE silencing

Abstract

In rice, various types of non-coding RNA molecules (ncRNAs) exist which are distinguished by their origin, biogenesis, and biological functions. Based on size and structure, ncRNAs are broadly categorized into short non-coding (sncRNAs) and long non-coding RNAs (lncRNAs). Both of the groups have been further split into several subtypes based on their distinct features including biogenesis, length, polarity, and putative functions. In rice and other higher plants, the majority of sncRNAs negatively regulate gene expression through interactions with mRNA. Research evidence has shown that they play a vital role in different developmental processes including growth, phase transition, and against various biotic and abiotic stresses, by mediating endogenous gene silencing in a precise fashion. These molecules act either at the transcriptional level through DNA methylation and repressive modification of histone protein or at the post-transcriptional level by the degradation of mRNA and translational repression. Recent progress in research has revealed that lncRNA is responsible to stabilize alterations in the plant genome and is the key regulator of transcription via interactions with both coding and non-coding RNA molecules as well as transcription factors (TFs). This review article briefly summarizes the important types of ncRNAs in rice and current progress towards the understanding of the biogenesis of ncRNAs and their main biological functions. [ABSTRACT FROM AUTHOR]

Published

2023

9. Role of small non-coding RNA in African swine fever virus infection

Author

Dunn, Laura, Beard, Philippa, and Netherton, Chris

Subjects

636.4, African swine fever, African swine fever virus, ASFV, small non-coding RNAs, sncRNAs, macrophages, p54 gene

Abstract

African swine fever virus (ASFV) is the causative agent of African swine fever, a lethal haemorrhagic disease of domestic swine and wild boar to which there is no vaccine available. ASFV is the only member of the Asfarviridae family though additionally belongs to the nucleocytoplasmic large DNA virus (NCLDV) superfamily, which also includes the Poxviridae. ASFV has a large, double-stranded DNA genome that encodes over 150 proteins and has a complex replication cycle that occurs mainly in cells of the monocyte/macrophage lineage. ASFV can survive and replicate in these cells by modulation of several host-cell pathways. This thesis investigates the interplay between ASFV and the small non-coding RNA system to determine if manipulation of sncRNAs could be used to optimise ASFV live-attenuated vaccines. Small non-coding RNAs (sncRNAs) are involved in a wide range of cellular processes. Consequently, many viruses have evolved to manipulate them. Vaccinia virus (VACV), the prototypic poxvirus and NCLDV member induces widespread polyadenylation and decay of host microRNAs (miRNAs), a type of sncRNA. Using Northern blotting, no evidence was found that ASFV shares this ability with VACV, suggesting it is not a consistent feature of the NCLDV superfamily. In order to investigate the interplay between ASFV and sncRNAs in-depth, sequencing of small RNAs extracted from ASFV-infected primary porcine macrophages was undertaken. The data revealed that ASFV infection does not lead to widespread miRNA disruption, inducing the differential expression of only 6 out of 200 detected miRNAs. Closer analysis of the sequencing data identified a novel small RNA encoded by ASFV, which when overexpressed in cells infected with ASFV led to a small but significant reduction in ASFV growth. This work revealed that ASFV utilises a virally-encoded small RNA to regulate its own replication. The results indicated that the miRNA system remains intact during ASFV infection in macrophages; therefore, the potential to attenuate the virus using host miRNAs was investigated. Examination of the small RNA sequencing identified the miRNA, miR-142-3p to be heavily expressed in porcine macrophages. Addition of miR-142-3p target sites in the 3' UTR of the essential ASFV gene E183L (P54) led to a reduced expression of P54 in a plasmid system. A recombinant ASFV with 2x miR-142- 3p target sites on the 3' UTR of P54 was then generated. ASFV replicates only in primary macrophages in vitro, hindering the development of live attenuated vaccines. The ability of ASFV to replicate in stem-cell-derived porcine macrophages and Red River Hog (RRH) macrophages was therefore compared. ASFV replicated to similar levels in the stem-cellderived porcine macrophages as in the primary macrophage controls. In contrast, only low levels of replication was detected in the stem-cell-derived RRH macrophages, mimicking the in vivo infection kinetics. Overall, this study has revealed, in detail, the interaction between ASFV and the sncRNA system and the potential of this system to be utilised in the development of novel live attenuated ASFV vaccines.

Published

2020

10. Small Non-Coding RNAs and Their Role in Locoregional Metastasis and Outcomes in Early-Stage Breast Cancer Patients

Author

Daniel Escuin, Olga Bell, Bárbara García-Valdecasas, Montserrat Clos, Itziar Larrañaga, Laura López-Vilaró, Josefina Mora, Marta Andrés, Cristina Arqueros, and Agustí Barnadas

Subjects

sncRNAs, snoRNAs, early breast cancer, sentinel lymph node, metastasis, biomarkers, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Deregulation of small non-coding RNAs (sncRNAs) has been associated with the onset of metastasis. We evaluated the expression of sncRNAs in patients with early-stage breast cancer, performing RNA sequencing in 60 patients for whom tumor and sentinel lymph node (SLN) samples were available, and conducting differential expression, gene ontology, enrichment and survival analyses. Sequencing annotation classified most of the sncRNAs into small nucleolar RNA (snoRNAs, 70%) and small nuclear RNA (snRNA, 13%). Our results showed no significant differences in sncRNA expression between tumor or SLNs obtained from the same patient. Differential expression analysis showed down-regulation (n = 21) sncRNAs and up-regulation (n = 2) sncRNAs in patients with locoregional metastasis. The expression of SNHG5, SNORD90, SCARNA2 and SNORD78 differentiated luminal A from luminal B tumors, whereas SNORD124 up-regulation was associated with luminal B HER2+ tumors. Discriminating analysis and receiver-operating curve analysis revealed a signature of six snoRNAs (SNORD93, SNORA16A, SNORD113-6, SNORA7A, SNORA57 and SNORA18A) that distinguished patients with locoregional metastasis and predicted patient outcome. Gene ontology and Reactome pathway analysis showed an enrichment of biological processes associated with translation initiation, protein targeting to specific cell locations, and positive regulation of Wnt and NOTCH signaling pathways, commonly involved in the promotion of metastases. Our results point to the potential of several sncRNAs as surrogate markers of lymph node metastases and patient outcome in early-stage breast cancer patients. Further preclinical and clinical studies are required to understand the biological significance of the most significant sncRNAs and to validate our results in a larger cohort of patients.

Published

2024

11. Small non-coding RNAs encoded by RNA viruses: old controversies and new lessons from the COVID-19 pandemic.

Author

Ruivinho, Carolina and Gama-Carvalho, Margarida

Subjects

RNA viruses, NON-coding RNA, COVID-19 pandemic, LIFE cycles (Biology), VIRAL replication, NEURAL codes

Abstract

The recurring outbreaks caused by emerging RNA viruses have fostered an increased interest in the research of the mechanisms that regulate viral life cycles and the pathological outcomes associated with infections. Although interactions at the protein level are well-studied, interactionsmediated by RNA molecules are less explored. RNA viruses can encode small non-coding RNAs molecules (sncRNAs), including viral miRNAs (v-miRNAs), that play important roles in modulating host immune responses and viral replication by targeting viral or host transcripts. Starting from the analysis of public databases compiling the known repertoire of viral ncRNA molecules and the evolution of publications and research interests on this topic in the wake of the COVID-19 pandemic, we provide an updated view on the current knowledge on viral sncRNAs, with a focus on v-miRNAs encoded by RNA viruses, and their mechanisms of action. We also discuss the potential of these molecules as diagnostic and prognostic biomarkers for viral infections and the development of antiviral therapies targeting v-miRNAs. This review emphasizes the importance of continued research efforts to characterize sncRNAs encoded by RNA viruses, identifies the most relevant pitfalls in the study of these molecules, and highlights the paradigm changes that have occurred in the last few years regarding their biogenesis, prevalence and functional relevance in the context of host-pathogen interactions. [ABSTRACT FROM AUTHOR]

Published

2023

12. The role of small non-coding RNAs (sncRNAs) in male infertility: A scoping review

Author

Hacer Kaya Cakir and Onur Eroglu

Subjects

male infertility, mirna, small untranslated rna, sncrnas, sperm, next-generation sequencing, real-time pcr, Medicine

Abstract

Objective: To give a brief overview of the field of epigenetics and the potential predictive power that small non-coding RNA (sncRNA) may hold in relation to improving the treatment and diagnosis of male infertility. Methods: PRISMA-ScR was used as the scoping review guideline for this investigation. All article data here have been accessed from MEDLINE–PubMed, Science Direct, EBSCO, Scopus, Sage Journals, and Google Scholar. The terms "small non coding RNA, male, infertility, miRNA, sperm" were used in the search between 2015 and 2023. Results: The study comprised 35 publications in total. Several sncRNAs, miR-155, miR-16, miR-196, miR-525-3p, miR-891 were found to be effective in regulating the mechanism of spermatozoa processing in the infertility of men. sncRNA can be used as a biomarker of male infertility. Conclusions: sncRNAs can act as biomarkers for the diagnosis of reproductive diseases. Actually, by recognizing sncRNAs and their mechanisms, a new way to treat infertile men would be paved. The functional annotation of sncRNAs in spermatogenesis is still in its infancy but has enormous potential. This is despite the fact that many potential sncRNAs have been found to date with the use of cutting-edge technology and publicly accessible sncRNA annotation tools.

Published

2023

13. Using Small Non-Coding RNAs in Extracellular Vesicles of Semen as Biomarkers of Male Reproductive System Health: Opportunities and Challenges.

Author

Larriba, Sara, Vigués, Francesc, and Bassas, Lluís

Subjects

*EXTRACELLULAR vesicles, *MALE reproductive health, *NON-coding RNA, *GENITOURINARY diseases, *BIOMARKERS, *SEMEN, *MALE reproductive organs

Abstract

Reproductive dysfunction and urogenital malignancies represent a serious health concern in men. This is in part as a result of the absence of reliable non-invasive tests of diagnosis/prognosis. Optimizing diagnosis and predicting the patient's prognosis will affect the choice of the most appropriate treatment and therefore increase the chances of success and the result of therapy, that is, it will lead to a more personalized treatment of the patient. This review aims firstly to critically summarize the current knowledge of the reproductive roles played by extracellular vesicle small RNA components, which are typically altered in diseases affecting the male reproductive tract. Secondly, it aims to describe the use of semen extracellular vesicles as a non-invasive source of sncRNA-based biomarkers for urogenital diseases. [ABSTRACT FROM AUTHOR]

Published

2023

14. Seminal Extracellular Vesicles and Their Involvement in Male (In)Fertility: A Systematic Review.

Author

Parra, Ana, Padilla, Lorena, Lucas, Xiomara, Rodriguez-Martinez, Heriberto, Barranco, Isabel, and Roca, Jordi

Subjects

*EXTRACELLULAR vesicles, *SEMINAL vesicles, *FERTILITY, *EMBRYO implantation, *INFERTILITY, *RECURRENT miscarriage

Abstract

Seminal plasma contains numerous extracellular vesicles (sEVs). Since sEVs are apparently involved in male (in)fertility, this systematic review focused on studies specifically investigating such relationship. Embase, PubMed, and Scopus databases were searched up to 31 December 2022, primarily identifying a total of 1440 articles. After processing for screening and eligibility, 305 studies were selected as they focused on sEVs, and 42 of them were considered eligible because they included the word fertility or a related word such as infertility, subfertility, fertilization, and recurrent pregnancy loss in the title, objective(s), and/or keywords. Only nine of them met the inclusion criteria, namely (a) conducting experiments aimed at associating sEVs with fertility concerns and (b) isolating and adequately characterizing sEVs. Six studies were conducted on humans, two on laboratory animals, and one on livestock. The studies highlighted some sEV molecules, specifically proteins and small non-coding RNAs, that showed differences between fertile and subfertile or infertile males. The content of sEVs was also related to sperm fertilizing capacity, embryo development, and implantation. Bioinformatic analysis revealed that several of the highlighted sEV fertility-related proteins would be cross-linked to each other and involved in biological pathways related to (i) EV release and loading and (ii) plasma membrane organization. [ABSTRACT FROM AUTHOR]

Published

2023

15. Small non-coding RNAs encoded by RNA viruses: old controversies and new lessons from the COVID-19 pandemic

Author

Carolina Ruivinho and Margarida Gama-Carvalho

Subjects

RNA virus, viral miRNAs, sncRNAs, non-coding RNAs, host-pathogen interaction, Genetics, QH426-470

Abstract

The recurring outbreaks caused by emerging RNA viruses have fostered an increased interest in the research of the mechanisms that regulate viral life cycles and the pathological outcomes associated with infections. Although interactions at the protein level are well-studied, interactions mediated by RNA molecules are less explored. RNA viruses can encode small non-coding RNAs molecules (sncRNAs), including viral miRNAs (v-miRNAs), that play important roles in modulating host immune responses and viral replication by targeting viral or host transcripts. Starting from the analysis of public databases compiling the known repertoire of viral ncRNA molecules and the evolution of publications and research interests on this topic in the wake of the COVID-19 pandemic, we provide an updated view on the current knowledge on viral sncRNAs, with a focus on v-miRNAs encoded by RNA viruses, and their mechanisms of action. We also discuss the potential of these molecules as diagnostic and prognostic biomarkers for viral infections and the development of antiviral therapies targeting v-miRNAs. This review emphasizes the importance of continued research efforts to characterize sncRNAs encoded by RNA viruses, identifies the most relevant pitfalls in the study of these molecules, and highlights the paradigm changes that have occurred in the last few years regarding their biogenesis, prevalence and functional relevance in the context of host-pathogen interactions.

Published

2023

16. Genome-wide DNA methylation profiles and small noncoding RNA signatures in sperm with a high DNA fragmentation index.

Author

Liu, Minghua, Liu, Peiru, Chang, Yunjian, Xu, Beiying, Wang, Nengzhuang, Qin, Lina, Zheng, Jufen, Liu, Yun, Wu, Ligang, and Yan, Hongli

Subjects

*DNA methylation, *NON-coding RNA, *SPERMATOZOA, *DNA, *PROMOTERS (Genetics), *MALE infertility, *INFERTILITY

Abstract

Background: A growing number of studies have reported that sperm DNA fragmentation (SDF) is associated with male infertility. However, no studies have compared genome-wide DNA methylation profiles and sncRNA signatures between sperm with high and low sperm DNA fragmentation indices (DFIs). Methods: Whole-genome bisulfite sequencing (WGBS) was performed on sperm samples from a weak group (DFI ≥ 30%, n = 6) and normal group (DFI ≤ 15%, n = 7). Small noncoding RNA (sncRNA) deep sequencing was conducted for sperm samples from the weak (DFI ≥ 30%, n = 13) and normal (DFI ≤ 15%, n = 17) groups. Results: A total of 4939 differentially methylated regions (DMRs) were identified in the weak group sperm samples relative to normal group sperm samples, with 2072 (41.95%) of them located in promoter regions. The percentages of hypermethylated DMRs were higher than those of hypomethylated DMRs in all seven examined gene annotation groups. Hypermethylated DMRs were significantly enriched in terms associated with neurons and microtubules. Compared with the normal group, the global DNA methylation level of the weak group sperm showed a downward trend, with lower correlation for methylation in the weak group sperm; therefore, the chromosomes of high-DFI sperm may be loose. On average, 40.5% of sncRNAs were annotated as rsRNAs, 19.3% as tsRNAs, 10.4% as yRNAs, and 7.1% as miRNAs. A total of 27 miRNAs, 151 tsRNAs, and 70 rsRNAs were differentially expressed between the two groups of sperm samples. Finally, 7 sncRNAs were identified as candidate sperm quality biomarkers, and the target genes of the differentially expressed miRNAs are involved in nervous system development. Conclusion: Our findings suggest that genome-wide DNA methylation profiles and sncRNA signatures are significantly altered in high-DFI sperm. Our study provides potential biomarkers for sperm quality. [ABSTRACT FROM AUTHOR]

Published

2022

17. Inhibition of Respiratory Syncytial Virus Infection by Small Non-Coding RNA Fragments.

Author

Pålsson, Sandra Axberg, Sekar, Vaishnovi, Kutter, Claudia, Friedländer, Marc R., and Spetz, Anna-Lena

Subjects

*RESPIRATORY syncytial virus infections, *NON-coding RNA, *TRANSFER RNA, *NON-coding DNA, *SINGLE-stranded DNA, *RESPIRATORY syncytial virus, *OLIGONUCLEOTIDES

Abstract

Respiratory syncytial virus (RSV) causes acute lower respiratory tract infection in infants, immunocompromised individuals and the elderly. As the only current specific treatment options for RSV are monoclonal antibodies, there is a need for efficacious antiviral treatments against RSV to be developed. We have previously shown that a group of synthetic non-coding single-stranded DNA oligonucleotides with lengths of 25–40 nucleotides can inhibit RSV infection in vitro and in vivo. Based on this, herein, we investigate whether naturally occurring single-stranded small non-coding RNA (sncRNA) fragments present in the airways have antiviral effects against RSV infection. From publicly available sequencing data, we selected sncRNA fragments such as YRNAs, tRNAs and rRNAs present in human bronchoalveolar lavage fluid (BALF) from healthy individuals. We utilized a GFP-expressing RSV to show that pre-treatment with the selected sncRNA fragments inhibited RSV infection in A549 cells in vitro. Furthermore, by using a flow cytometry-based binding assay, we demonstrate that these naturally occurring sncRNAs fragments inhibit viral infection most likely by binding to the RSV entry receptor nucleolin and thereby preventing the virus from binding to host cells, either directly or via steric hindrance. This finding highlights a new function of sncRNAs and displays the possibility of using naturally occurring sncRNAs as treatments against RSV. [ABSTRACT FROM AUTHOR]

Published

2022

18. Dynamics of cattle sperm sncRNAs during maturation, from testis to ejaculated sperm

Author

Eli Sellem, Sylvain Marthey, Andrea Rau, Luc Jouneau, Aurelie Bonnet, Chrystelle Le Danvic, Benoît Guyonnet, Hélène Kiefer, Hélène Jammes, and Laurent Schibler

Subjects

Sperm epigenetics, SncRNAs, Bovine, MiRNA, PiRNA, TRFs, Genetics, QH426-470

Abstract

Abstract Background During epididymal transit, spermatozoa go through several functional maturation steps, resulting from interactions with epididymal secretomes specific to each region. In particular, the sperm membrane is under constant remodeling, with sequential attachment and shedding of various molecules provided by the epididymal lumen fluid and epididymosomes, which also deliver sncRNA cargo to sperm. As a result, the payload of sperm sncRNAs changes during the transit from the epididymis caput to the cauda. This work was designed to study the dynamics of cattle sperm sncRNAs from spermatogenesis to final maturation. Results Comprehensive catalogues of sperm sncRNAs were obtained from testicular parenchyma, epididymal caput, corpus and cauda, as well as ejaculated semen from three Holstein bulls. The primary cattle sncRNA sperm content is markedly remodeled as sperm mature along the epididymis. Expression of piRNAs, which are abundant in testis parenchyma, decreases dramatically at epididymis. Conversely, sperm progressively acquires miRNAs, rsRNAs, and tsRNAs along epididymis, with regional specificities. For instance, miRNAs and tsRNAs are enriched in epididymis cauda and ejaculated sperm, while rsRNA expression peaks at epididymis corpus. In addition, epididymis corpus contains mainly 20 nt long piRNAs, instead of 30 nt in all other locations. Beyond the bulk differences in abundance of sncRNAs classes, K-means clustering was performed to study their spatiotemporal expression profile, highlighting differences in specific sncRNAs and providing insights into their putative biological role at each maturation stage. For instance, Gene Ontology analyses using miRNA targets highlighted enriched processes such as cell cycle regulation, response to stress and ubiquitination processes in testicular parenchyma, protein metabolism in epididymal sperm, and embryonic morphogenesis in ejaculated sperm. Conclusions Our findings confirm that the sperm sncRNAome does not simply reflect a legacy of spermatogenesis. Instead, sperm sncRNA expression shows a remarkable level of plasticity resulting probably from the combination of multiple factors such as loss of the cytoplasmic droplet, interaction with epididymosomes, and more surprisingly, the putative in situ production and/or modification of sncRNAs by sperm. Given the suggested role of sncRNA in epigenetic trans-generational inheritance, our detailed spatiotemporal analysis may pave the way for a study of sperm sncRNAs role in embryo development.

Published

2021

19. Seminal Extracellular Vesicles and Their Involvement in Male (In)Fertility: A Systematic Review

Author

Ana Parra, Lorena Padilla, Xiomara Lucas, Heriberto Rodriguez-Martinez, Isabel Barranco, and Jordi Roca

Subjects

seminal plasma, extracellular vesicles, fertility, infertility, proteins, sncRNAs, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Seminal plasma contains numerous extracellular vesicles (sEVs). Since sEVs are apparently involved in male (in)fertility, this systematic review focused on studies specifically investigating such relationship. Embase, PubMed, and Scopus databases were searched up to 31 December 2022, primarily identifying a total of 1440 articles. After processing for screening and eligibility, 305 studies were selected as they focused on sEVs, and 42 of them were considered eligible because they included the word fertility or a related word such as infertility, subfertility, fertilization, and recurrent pregnancy loss in the title, objective(s), and/or keywords. Only nine of them met the inclusion criteria, namely (a) conducting experiments aimed at associating sEVs with fertility concerns and (b) isolating and adequately characterizing sEVs. Six studies were conducted on humans, two on laboratory animals, and one on livestock. The studies highlighted some sEV molecules, specifically proteins and small non-coding RNAs, that showed differences between fertile and subfertile or infertile males. The content of sEVs was also related to sperm fertilizing capacity, embryo development, and implantation. Bioinformatic analysis revealed that several of the highlighted sEV fertility-related proteins would be cross-linked to each other and involved in biological pathways related to (i) EV release and loading and (ii) plasma membrane organization.

Published

2023

20. Using Small Non-Coding RNAs in Extracellular Vesicles of Semen as Biomarkers of Male Reproductive System Health: Opportunities and Challenges

Author

Sara Larriba, Francesc Vigués, and Lluís Bassas

Subjects

urogenital diseases, male infertility, prostate cancer, semen, extracellular vesicles, sncRNAs, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Reproductive dysfunction and urogenital malignancies represent a serious health concern in men. This is in part as a result of the absence of reliable non-invasive tests of diagnosis/prognosis. Optimizing diagnosis and predicting the patient’s prognosis will affect the choice of the most appropriate treatment and therefore increase the chances of success and the result of therapy, that is, it will lead to a more personalized treatment of the patient. This review aims firstly to critically summarize the current knowledge of the reproductive roles played by extracellular vesicle small RNA components, which are typically altered in diseases affecting the male reproductive tract. Secondly, it aims to describe the use of semen extracellular vesicles as a non-invasive source of sncRNA-based biomarkers for urogenital diseases.

Published

2023

21. mt tRFs, New Players in MELAS Disease.

Author

Meseguer, Salvador and Rubio, Mari-Paz

Subjects

MELAS syndrome, NON-coding RNA, TRANSFER RNA, MITOCHONDRIAL proteins, LACTIC acidosis, MITOCHONDRIA

Abstract

MELAS (mitochondrial encephalomyopathy, lactic acidosis, and stroke-like episodes) is an OXPHOS disease mostly caused by the m.3243A>G mutation in the mitochondrial tRNALeu(UUR) gene. Recently, we have shown that the mutation significantly changes the expression pattern of several mitochondrial tRNA-derived small RNAs (mt tsRNAs or mt tRFs) in a cybrid model of MELAS and in fibroblasts from MELAS patients versus control cells. Among them are those derived from mt tRNA LeuUUR containing or not the m.3243A>G mutation (mt 5′-tRF LeuUUR-m.3243A>G and mt 5′-tRF LeuUUR), whose expression levels are, respectively, increased and decreased in both MELAS cybrids and fibroblasts. Here, we asked whether mt 5′-tRF LeuUUR and mt 5′-tRF LeuUUR-m.3243A>G are biologically relevant and whether these mt tRFs are detected in diverse patient samples. Treatment with a mimic oligonucleotide of mt tRNA LeuUUR fragment (mt 5′-tRF LeuUUR) showed a therapeutic potential since it partially restored mitochondrial respiration in MELAS cybrids. Moreover, these mt tRFs could be detected in biofluids like urine and blood. We also investigated the participation of miRNA pathway components Dicer and Ago2 in the mt tRFs biogenesis process. We found that Dicer and Ago2 localize in the mitochondria of MELAS cybrids and that immunoprecipitation of these proteins in cytoplasm and mitochondria fractions revealed an increased mt tRF/mt tRNA ratio in MELAS condition compared to WT. These preliminary results suggest an involvement of Dicer and Ago2 in the mechanism of mt tRF biogenesis and action. [ABSTRACT FROM AUTHOR]

Published

2022

22. Sperm-borne sncRNAs: potential biomarkers for semen fertility?

Author

Sellem, Eli, Jammes, Hélène, and Schibler, Laurent

Subjects

*SEMEN, *FERTILITY, *HUMAN fertility, *EXTRACELLULAR vesicles, *LIVESTOCK breeding, *EXOSOMES

Abstract

Semen infertility or sub-fertility, whether in humans or livestock species, remains a major concern for clinicians and technicians involved in reproduction. Indeed, they can cause tragedies in human relationships or have a dramatic overall negative impact on the sustainability of livestock breeding. Understanding and predicting semen fertility issues is therefore crucial and quality control procedures as well as biomarkers have been proposed to ensure sperm fertility. However, their predictive values appeared to be too limited and additional relevant biomarkers are still required to diagnose sub-fertility efficiently. During the last decade, the study of molecular mechanisms involved in spermatogenesis and sperm maturation highlighted the regulatory role of a variety of small non-coding RNAs (sncRNAs) and led to the discovery that sperm sncRNAs comprise both remnants from spermatogenesis and post-testicular sncRNAs acquired through interactions with extracellular vesicles along epididymis. This has led to the hypothesis that sncRNAs may be a source of relevant biomarkers, associated either with sperm functionality or embryo development. This review aims at providing a synthetic overview of the current state of knowledge regarding implication of sncRNA in spermatogenesis defects and their putative roles in sperm maturation and embryo development, as well as exploring their use as fertility biomarkers. [ABSTRACT FROM AUTHOR]

Published

2022

23. mt tRFs, New Players in MELAS Disease

Author

Salvador Meseguer and Mari-Paz Rubio

Subjects

sncRNAs, tRF and tiRNA, tRNA fragment, mitochondrial dysfunction, retrograde signaling, Physiology, QP1-981

Abstract

MELAS (mitochondrial encephalomyopathy, lactic acidosis, and stroke-like episodes) is an OXPHOS disease mostly caused by the m.3243A>G mutation in the mitochondrial tRNALeu(UUR) gene. Recently, we have shown that the mutation significantly changes the expression pattern of several mitochondrial tRNA-derived small RNAs (mt tsRNAs or mt tRFs) in a cybrid model of MELAS and in fibroblasts from MELAS patients versus control cells. Among them are those derived from mt tRNA LeuUUR containing or not the m.3243A>G mutation (mt 5′-tRF LeuUUR-m.3243A>G and mt 5′-tRF LeuUUR), whose expression levels are, respectively, increased and decreased in both MELAS cybrids and fibroblasts. Here, we asked whether mt 5′-tRF LeuUUR and mt 5′-tRF LeuUUR-m.3243A>G are biologically relevant and whether these mt tRFs are detected in diverse patient samples. Treatment with a mimic oligonucleotide of mt tRNA LeuUUR fragment (mt 5′-tRF LeuUUR) showed a therapeutic potential since it partially restored mitochondrial respiration in MELAS cybrids. Moreover, these mt tRFs could be detected in biofluids like urine and blood. We also investigated the participation of miRNA pathway components Dicer and Ago2 in the mt tRFs biogenesis process. We found that Dicer and Ago2 localize in the mitochondria of MELAS cybrids and that immunoprecipitation of these proteins in cytoplasm and mitochondria fractions revealed an increased mt tRF/mt tRNA ratio in MELAS condition compared to WT. These preliminary results suggest an involvement of Dicer and Ago2 in the mechanism of mt tRF biogenesis and action.

Published

2022

24. Immunoactive signatures of circulating tRNA- and rRNA-derived RNAs in chronic obstructive pulmonary disease.

Author

Shigematsu M, Kawamura T, Deshpande DA, and Kirino Y

Abstract

Chronic obstructive pulmonary disease (COPD) is the most prevalent lung disease, and macrophages play a central role in the inflammatory response in COPD. We here report a comprehensive characterization of circulating short non-coding RNAs (sncRNAs) in plasma from patients with COPD. While circulating sncRNAs are increasingly recognized for their regulatory roles and biomarker potential in various diseases, the conventional RNA sequencing (RNA-seq) method cannot fully capture these circulating sncRNAs due to their heterogeneous terminal structures. By pre-treating the plasma RNAs with T4 polynucleotide kinase, which converts all RNAs to those with RNA-seq susceptible ends (5'-phosphate and 3'-hydroxyl), we comprehensively sequenced a wide variety of non-microRNA sncRNAs, such as 5'-tRNA halves containing a 2',3'-cyclic phosphate. We discovered a remarkable accumulation of the 5'-half derived from tRNA ValCAC in plasma from COPD patients, whereas the 5'-tRNA GlyGCC half is predominant in healthy donors. Further, the 5'-tRNA ValCAC half activates human macrophages via Toll-like receptor 7 and induces cytokine production. Additionally, we identified circulating rRNA-derived fragments that were upregulated in COPD patients and demonstrated their ability to induce cytokine production in macrophages. Our findings provide evidence of circulating, immune-active sncRNAs in patients with COPD, suggesting that they serve as inflammatory mediators in the pathogenesis of COPD., Competing Interests: The authors declare no competing interests., (© 2024 The Author(s).)

Published

2024

25. Distinct small non-coding RNA landscape in the axons and released extracellular vesicles of developing primary cortical neurons and the axoplasm of adult nerves.

Author

Mesquita-Ribeiro, Raquel, Fort, Rafael Sebastián, Rathbone, Alex, Farias, Joaquina, Lucci, Cristiano, James, Victoria, Sotelo-Silveira, Jose, Duhagon, Maria Ana, and Dajas-Bailador, Federico

Subjects

NON-coding RNA, EXTRACELLULAR vesicles, AXONS, NEURONS, NERVES, EXOSOMES

Abstract

Neurons have highlighted the needs for decentralized gene expression and specific RNA function in somato-dendritic and axonal compartments, as well as in intercellular communication via extracellular vesicles (EVs). Despite advances in miRNA biology, the identity and regulatory capacity of other small non-coding RNAs (sncRNAs) in neuronal models and local subdomains has been largely unexplored. We identified a highly complex and differentially localized content of sncRNAs in axons and EVs during early neuronal development of cortical primary neurons and in adult axons invivo. This content goes far beyond miRNAs and includes most known sncRNAs and precisely processed fragments from tRNAs, sno/snRNAs, Y RNAs and vtRNAs. Although miRNAs are the major sncRNA biotype in whole-cell samples, their relative abundance is significantly decreased in axons and neuronal EVs, where specific tRNA fragments (tRFs and tRHs/tiRNAs) mainly derived from tRNAs Gly-GCC, Val-CAC and Val-AAC predominate. Notably, although 5ʹ-tRHs compose the great majority of tRNA-derived fragments observed invitro, a shift to 3ʹ-tRNAs is observed in mature axons invivo. The existence of these complex sncRNA populations that are specific to distinct neuronal subdomains and selectively incorporated into EVs, equip neurons with key molecular tools for spatiotemporal functional control and cell-to-cell communication. [ABSTRACT FROM AUTHOR]

Published

2021

26. Regulation of spermatogenesis by small non-coding RNAs: Role of the germ granule

Author

de Mateo, Sara and Sassone-Corsi, Paolo

Subjects

Contraception/Reproduction, Infertility, Biotechnology, Genetics, Underpinning research, 1.1 Normal biological development and functioning, Adult Stem Cells, Animals, Apoptosis, Gene Expression Regulation, Developmental, Humans, Male, Mice, MicroRNAs, RNA, Small Interfering, Spermatids, Spermatocytes, Spermatogenesis, Testis, Epigenetics, Germ cells, Germ granules, miRNAs, piRNAs, Post-transcriptional regulation, sncRNAs, RBP, RNA binding proteins, Biochemistry and Cell Biology, Paediatrics and Reproductive Medicine, Developmental Biology

Abstract

The spermatogenic process relays in highly regulated gene expression mechanisms at the transcriptional and post-transcriptional levels to generate the male gamete that is needed for the perpetuation of the species. Small non-coding RNA pathways have been determined to participate in the post-transcriptional regulatory processes of germ cells. The most important sncRNA molecules that are critically involved in spermatogenesis belong to the miRNA and piRNAs pathways as illustrated by animal models where ablation of specific protein components displays male infertility. Several elements of these regulatory pathways have been found in the nuage or germ granule, a non-membranous cytoplasmatic structure that can be seen in spermatocytes and spermatids. This notion suggests that germ granules may act as organizer centers for silencing pathways in the germline. In general, miRNAs regulate spermatogenesis through targeting and down-regulation of specific transcripts to eventually promote sperm development. However, piRNAs are powerful repressors of transposon elements expression in the spermatogenic process. Here we describe the suggested functions that miRNA and piRNAs pathways execute in the regulation of spermatogenesis and include some recent studies in the field. Despite major strides on the detailed molecular mechanisms of sncRNAs in relation to spermatogenesis, there is plenty to discover on this fascinating regulatory program.

Published

2014

27. Dynamics of cattle sperm sncRNAs during maturation, from testis to ejaculated sperm.

Author

Sellem, Eli, Marthey, Sylvain, Rau, Andrea, Jouneau, Luc, Bonnet, Aurelie, Le Danvic, Chrystelle, Guyonnet, Benoît, Kiefer, Hélène, Jammes, Hélène, and Schibler, Laurent

Subjects

*SPERMATOZOA, *UBIQUITINATION, *MALE reproductive organs, *TESTIS, *CELL cycle regulation, *K-means clustering, *PROTEIN metabolism

Abstract

Background: During epididymal transit, spermatozoa go through several functional maturation steps, resulting from interactions with epididymal secretomes specific to each region. In particular, the sperm membrane is under constant remodeling, with sequential attachment and shedding of various molecules provided by the epididymal lumen fluid and epididymosomes, which also deliver sncRNA cargo to sperm. As a result, the payload of sperm sncRNAs changes during the transit from the epididymis caput to the cauda. This work was designed to study the dynamics of cattle sperm sncRNAs from spermatogenesis to final maturation. Results: Comprehensive catalogues of sperm sncRNAs were obtained from testicular parenchyma, epididymal caput, corpus and cauda, as well as ejaculated semen from three Holstein bulls. The primary cattle sncRNA sperm content is markedly remodeled as sperm mature along the epididymis. Expression of piRNAs, which are abundant in testis parenchyma, decreases dramatically at epididymis. Conversely, sperm progressively acquires miRNAs, rsRNAs, and tsRNAs along epididymis, with regional specificities. For instance, miRNAs and tsRNAs are enriched in epididymis cauda and ejaculated sperm, while rsRNA expression peaks at epididymis corpus. In addition, epididymis corpus contains mainly 20 nt long piRNAs, instead of 30 nt in all other locations. Beyond the bulk differences in abundance of sncRNAs classes, K-means clustering was performed to study their spatiotemporal expression profile, highlighting differences in specific sncRNAs and providing insights into their putative biological role at each maturation stage. For instance, Gene Ontology analyses using miRNA targets highlighted enriched processes such as cell cycle regulation, response to stress and ubiquitination processes in testicular parenchyma, protein metabolism in epididymal sperm, and embryonic morphogenesis in ejaculated sperm. Conclusions: Our findings confirm that the sperm sncRNAome does not simply reflect a legacy of spermatogenesis. Instead, sperm sncRNA expression shows a remarkable level of plasticity resulting probably from the combination of multiple factors such as loss of the cytoplasmic droplet, interaction with epididymosomes, and more surprisingly, the putative in situ production and/or modification of sncRNAs by sperm. Given the suggested role of sncRNA in epigenetic trans-generational inheritance, our detailed spatiotemporal analysis may pave the way for a study of sperm sncRNAs role in embryo development. [ABSTRACT FROM AUTHOR]

Published

2021

28. Inhibition of Respiratory Syncytial Virus Infection by Small Non-Coding RNA Fragments

Author

Sandra Axberg Pålsson, Vaishnovi Sekar, Claudia Kutter, Marc R. Friedländer, and Anna-Lena Spetz

Subjects

Respiratory Syncytial Virus (RSV), sncRNAs, tRNA, YRNA, rRNA, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Respiratory syncytial virus (RSV) causes acute lower respiratory tract infection in infants, immunocompromised individuals and the elderly. As the only current specific treatment options for RSV are monoclonal antibodies, there is a need for efficacious antiviral treatments against RSV to be developed. We have previously shown that a group of synthetic non-coding single-stranded DNA oligonucleotides with lengths of 25–40 nucleotides can inhibit RSV infection in vitro and in vivo. Based on this, herein, we investigate whether naturally occurring single-stranded small non-coding RNA (sncRNA) fragments present in the airways have antiviral effects against RSV infection. From publicly available sequencing data, we selected sncRNA fragments such as YRNAs, tRNAs and rRNAs present in human bronchoalveolar lavage fluid (BALF) from healthy individuals. We utilized a GFP-expressing RSV to show that pre-treatment with the selected sncRNA fragments inhibited RSV infection in A549 cells in vitro. Furthermore, by using a flow cytometry-based binding assay, we demonstrate that these naturally occurring sncRNAs fragments inhibit viral infection most likely by binding to the RSV entry receptor nucleolin and thereby preventing the virus from binding to host cells, either directly or via steric hindrance. This finding highlights a new function of sncRNAs and displays the possibility of using naturally occurring sncRNAs as treatments against RSV.

Published

2022

29. Small RNAs Asserting Big Roles in Mycobacteria

Author

Fatma S. Coskun, Przemysław Płociński, and Nicolai S. C. van Oers

Subjects

mycobacteria, small RNAs, sncRNAs, RNA processing, Genetics, QH426-470

Abstract

Tuberculosis (TB) is an infectious disease caused by Mycobacterium tuberculosis (Mtb), with 10.4 million new cases per year reported in the human population. Recent studies on the Mtb transcriptome have revealed the abundance of noncoding RNAs expressed at various phases of mycobacteria growth, in culture, in infected mammalian cells, and in patients. Among these noncoding RNAs are both small RNAs (sRNAs) between 50 and 350 nts in length and smaller RNAs (sncRNA) < 50 nts. In this review, we provide an up-to-date synopsis of the identification, designation, and function of these Mtb-encoded sRNAs and sncRNAs. The methodological advances including RNA sequencing strategies, small RNA antagonists, and locked nucleic acid sequence-specific RNA probes advancing the studies on these small RNA are described. Initial insights into the regulation of the small RNA expression and putative processing enzymes required for their synthesis and function are discussed. There are many open questions remaining about the biological and pathogenic roles of these small non-coding RNAs, and potential research directions needed to define the role of these mycobacterial noncoding RNAs are summarized.

Published

2021

30. Small-RNA Sequencing Reveals Altered Skeletal Muscle microRNAs and snoRNAs Signatures in Weanling Male Offspring from Mouse Dams Fed a Low Protein Diet during Lactation

Author

Ioannis Kanakis, Moussira Alameddine, Leighton Folkes, Simon Moxon, Ioanna Myrtziou, Susan E. Ozanne, Mandy J. Peffers, Katarzyna Goljanek-Whysall, and Aphrodite Vasilaki

Subjects

maternal protein restriction, muscle development, offspring, microRNAs, sncRNAs, snoRNAs, Cytology, QH573-671

Abstract

Maternal diet during gestation and lactation affects the development of skeletal muscles in offspring and determines muscle health in later life. In this paper, we describe the association between maternal low protein diet-induced changes in offspring skeletal muscle and the differential expression (DE) of small non-coding RNAs (sncRNAs). We used a mouse model of maternal protein restriction, where dams were fed either a normal (N, 20%) or a low protein (L, 8%) diet during gestation and newborns were cross-fostered to N or L lactating dams, resulting in the generation of NN, NL and LN offspring groups. Total body and tibialis anterior (TA) weights were decreased in weanling NL male offspring but were not different in the LN group, as compared to NN. However, histological evaluation of TA muscle revealed reduced muscle fibre size in both groups at weaning. Small RNA-sequencing demonstrated DE of multiple miRs, snoRNAs and snRNAs. Bioinformatic analyses of miRs-15a, -34a, -122 and -199a, in combination with known myomiRs, confirmed their implication in key muscle-specific biological processes. This is the first comprehensive report for the DE of sncRNAs in nutrition-associated programming of skeletal muscle development, highlighting the need for further research to unravel the detailed molecular mechanisms.

Published

2021

31. The MELAS mutation m.3243A>G alters the expression of mitochondrial tRNA fragments.

Author

Meseguer, Salvador, Navarro-González, Carmen, Panadero, Joaquin, Villarroya, Magda, Boutoual, Rachid, Sánchez-Alcázar, Jose Antonio, and Armengod, M.-Eugenia

Subjects

*TRANSFER RNA, *BIOACCUMULATION, *MICRORNA, *NON-coding RNA, *GENETIC regulation, *OXIDATIVE phosphorylation

Abstract

Recent evidences highlight the importance of mitochondria-nucleus communication for the clinical phenotype of oxidative phosphorylation (OXPHOS) diseases. However, the participation of small non-coding RNAs (sncRNAs) in this communication has been poorly explored. We asked whether OXPHOS dysfunction alters the production of a new class of sncRNAs, mitochondrial tRNA fragments (mt tRFs), and, if so, whether mt tRFs play a physiological role and their accumulation is controlled by the action of mt tRNA modification enzymes. To address these questions, we used a cybrid model of MELAS (mitochondrial encephalomyopathy, lactic acidosis, and stroke-like episodes), an OXPHOS disease mostly caused by mutation m.3243A>G in the mitochondrial tRNALeu(UUR) gene. High-throughput analysis of small-RNA-Seq data indicated that m.3243A>G significantly changed the expression pattern of mt tRFs. A functional analysis of potential mt tRFs targets (performed under the assumption that these tRFs act as miRNAs) indicated an association with processes that involve the most common affected tissues in MELAS. We present evidences that mt tRFs may be biologically relevant, as one of them (mt i-tRF GluUUC), likely produced by the action of the nuclease Dicer and whose levels are Ago2 dependent, down-regulates the expression of mitochondrial pyruvate carrier 1 (MPC1), promoting the build-up of extracellular lactate. Therefore, our study underpins the idea that retrograde signaling from mitochondria is also mediated by mt tRFs. Finally, we show that accumulation of mt i-tRF GluUUC depends on the modification status of mt tRNAs, which is regulated by the action of stress-responsive miRNAs on mt tRNA modification enzymes. Unlabelled Image • Main MELAS mutation changes the mt tRF expression pattern in relation to controls. • Expression of selected mt tRFs correlates with heteroplasmy in MELAS cells. • At least one mt tRF (mt i-tRF GluUUC) seems to be involved in nuclear gene regulation. • Stress-responsive miRNAs control mt i-tRF GluUUC yield via mt tRNA modification enzymes. [ABSTRACT FROM AUTHOR]

Published

2019

32. Distinct small non-coding RNA landscape in the axons and released extracellular vesicles of developing primary cortical neurons and the axoplasm of adult nerves

Author

Raquel Mesquita-Ribeiro, Rafael Sebastián Fort, Alex Rathbone, Joaquina Farias, Cristiano Lucci, Victoria James, Jose Sotelo-Silveira, Maria Ana Duhagon, Federico Dajas-Bailador, Mesquita-Ribeiro R, Fort Canobra Rafael S, Universidad de la República (Uruguay). Facultad de Ciencias. Instituto de Biología., Rathbone Alex, Farías Joaquina, IIBCE, Lucci Cristiano, James Victoria, Sotelo Silveira José Roberto, IIBCE, Duhagon María Ana, Universidad de la República (Uruguay). Facultad de Ciencias. Instituto de Biología., and Dajas-Bailador F

Subjects

sncRNAs, Biochemistry & Molecular Biology, MICRORNAS, Neuronal Outgrowth, Cell Communication, Cell Fractionation, Axon, Extracellular Vesicles, 03 medical and health sciences, 0302 clinical medicine, RNA, Transfer, Humans, tRNA-derived fragments, Molecular Biology, FRAGMENTS, TARGETING MAP1B, 030304 developmental biology, EXOSOMES, Neurons, axon, 0303 health sciences, Science & Technology, IDENTIFICATION, PROFILING REVEALS, Computational Biology, High-Throughput Nucleotide Sequencing, Biological Transport, Molecular Sequence Annotation, Cell Biology, Extracellular vesicles, Axons, nervous system, miRNAs, LOCAL PROTEIN-SYNTHESIS, GROWTH, Nucleic Acid Conformation, RNA, Small Untranslated, TRANSLATION, MESSENGER-RNA, Life Sciences & Biomedicine, 030217 neurology & neurosurgery, Research Article, Research Paper, Subcellular Fractions

Abstract

Neurons have highlighted the needs for decentralized gene expression and specific RNA function in somato-dendritic and axonal compartments, as well as in intercellular communication via extracellular vesicles (EVs). Despite advances in miRNA biology, the identity and regulatory capacity of other small non-coding RNAs (sncRNAs) in neuronal models and local subdomains has been largely unexplored.We identified a highly complex and differentially localized content of sncRNAs in axons and EVs during early neuronal development of cortical primary neurons and in adult axons invivo. This content goes far beyond miRNAs and includes most known sncRNAs and precisely processed fragments from tRNAs, sno/snRNAs, Y RNAs and vtRNAs. Although miRNAs are the major sncRNA biotype in whole-cell samples, their relative abundance is significantly decreased in axons and neuronal EVs, where specific tRNA fragments (tRFs and tRHs/tiRNAs) mainly derived from tRNAs Gly-GCC, Val-CAC and Val-AAC predominate. Notably, although 5'-tRHs compose the great majority of tRNA-derived fragments observed invitro, a shift to 3'-tRNAs is observed in mature axons invivo.The existence of these complex sncRNA populations that are specific to distinct neuronal subdomains and selectively incorporated into EVs, equip neurons with key molecular tools for spatiotemporal functional control and cell-to-cell communication. ispartof: RNA BIOLOGY vol:18 issue:sup2 pages:832-855 ispartof: location:United States status: published

Published

2021

33. Surveillance and Cleavage of Eukaryotic tRNAs

Author

Cyrille Megel, Geoffrey Morelle, Stéphanie Lalande, Anne-Marie Duchêne, Ian Small, and Laurence Maréchal-Drouard

Subjects

tRNA decay, tRNA quality control, sncRNAs, tRFs, stress response, gene expression regulation, tRNA endonucleases, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Beyond their central role in protein synthesis, transfer RNAs (tRNAs) have many other crucial functions. This includes various roles in the regulation of gene expression, stress responses, metabolic processes and priming reverse transcription. In the RNA world, tRNAs are, with ribosomal RNAs, among the most stable molecules. Nevertheless, they are not eternal. As key elements of cell function, tRNAs need to be continuously quality-controlled. Two tRNA surveillance pathways have been identified. They act on hypo-modified or mis-processed pre-tRNAs and on mature tRNAs lacking modifications. A short overview of these two pathways will be presented here. Furthermore, while the exoribonucleases acting in these pathways ultimately lead to complete tRNA degradation, numerous tRNA-derived fragments (tRFs) are present within a cell. These cleavage products of tRNAs now potentially emerge as a new class of small non-coding RNAs (sncRNAs) and are suspected to have important regulatory functions. The tRFs are evolutionarily widespread and created by cleavage at different positions by various endonucleases. Here, we review our present knowledge on the biogenesis and function of tRFs in various organisms.

Published

2015

34. Inhibition of Respiratory Syncytial Virus Infection by Small Non-Coding RNA Fragments

Author

Axberg Pålsson, Sandra, Sekar, Vaishnovi, Kutter, Claudia, Friedländer, Marc R., Spetz, Anna-Lena, Axberg Pålsson, Sandra, Sekar, Vaishnovi, Kutter, Claudia, Friedländer, Marc R., and Spetz, Anna-Lena

Abstract

Respiratory syncytial virus (RSV) causes acute lower respiratory tract infection in infants, immunocompromised individuals and the elderly. As the only current specific treatment options for RSV are monoclonal antibodies, there is a need for efficacious antiviral treatments against RSV to be developed. We have previously shown that a group of synthetic non-coding single-stranded DNA oligonucleotides with lengths of 25-40 nucleotides can inhibit RSV infection in vitro and in vivo. Based on this, herein, we investigate whether naturally occurring single-stranded small non-coding RNA (sncRNA) fragments present in the airways have antiviral effects against RSV infection. From publicly available sequencing data, we selected sncRNA fragments such as YRNAs, tRNAs and rRNAs present in human bronchoalveolar lavage fluid (BALF) from healthy individuals. We utilized a GFP-expressing RSV to show that pre-treatment with the selected sncRNA fragments inhibited RSV infection in A549 cells in vitro. Furthermore, by using a flow cytometry-based binding assay, we demonstrate that these naturally occurring sncRNAs fragments inhibit viral infection most likely by binding to the RSV entry receptor nucleolin and thereby preventing the virus from binding to host cells, either directly or via steric hindrance. This finding highlights a new function of sncRNAs and displays the possibility of using naturally occurring sncRNAs as treatments against RSV.

Published

2022

35. Dynamics of cattle sperm sncRNAs during maturation, from testis to ejaculated sperm

Author

Hélène Kiefer, Andrea Rau, Eli Sellem, Sylvain Marthey, Chrystelle Le Danvic, Aurelie Bonnet, Laurent Schibler, Hélène Jammes, Luc Jouneau, Benoît Guyonnet, Biologie de la Reproduction, Environnement, Epigénétique & Développement (BREED), École nationale vétérinaire - Alfort (ENVA)-Université de Versailles Saint-Quentin-en-Yvelines (UVSQ)-Université Paris-Saclay-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), Allice, Génétique Animale et Biologie Intégrative (GABI), AgroParisTech-Université Paris-Saclay-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), Mathématiques et Informatique Appliquées du Génome à l'Environnement [Jouy-En-Josas] (MaIAGE), Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), Transfrontalière BioEcoAgro - UMR 1158 (BioEcoAgro), Université d'Artois (UA)-Université de Liège-Université de Picardie Jules Verne (UPJV)-Université du Littoral Côte d'Opale (ULCO)-Université de Lille-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE)-JUNIA (JUNIA), Université catholique de Lille (UCL)-Université catholique de Lille (UCL), APIS-GENE (SeQuaMol), ANR-14-LAB3-0008,SeQuaMol,Qualité de la semence et fertilité chez les bovins: développement de nouveaux outils moléculaires de diagnostic(2014), École nationale vétérinaire d'Alfort (ENVA)-Université de Versailles Saint-Quentin-en-Yvelines (UVSQ)-Université Paris-Saclay-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), Université Paris-Saclay-AgroParisTech-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), Transfrontalière BioEcoAgro (Transfrontalière BioEcoAgro), and Université d'Artois (UA)-Université de Liège-Université de Picardie Jules Verne (UPJV)-Université du Littoral Côte d'Opale (ULCO)-Université de Lille-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE)

Subjects

Male, endocrine system, Piwi-interacting RNA, Semen, Biology, QH426-470, TRFs, RRFs, [SDV.BDLR.RS]Life Sciences [q-bio]/Reproductive Biology/Sexual reproduction, 03 medical and health sciences, 0302 clinical medicine, [SDV.BBM.GTP]Life Sciences [q-bio]/Biochemistry, Molecular Biology/Genomics [q-bio.GN], Gene expression, Embryonic morphogenesis, Testis, medicine, Genetics, Animals, Testicular parenchyma sperm, Molecular Biology, [SDV.BDD.GAM]Life Sciences [q-bio]/Development Biology/Gametogenesis, reproductive and urinary physiology, 030304 developmental biology, Secretome, Epididymis, 0303 health sciences, 030219 obstetrics & reproductive medicine, urogenital system, Research, PiRNA, Embryogenesis, SncRNAs, [SDV.BDLR]Life Sciences [q-bio]/Reproductive Biology, [SDV.BBM.BM]Life Sciences [q-bio]/Biochemistry, Molecular Biology/Molecular biology, Bovine, Epididymis location, Sperm, Spermatozoa, Cell biology, Sperm epigenetics, medicine.anatomical_structure, RNA, Small Untranslated, Cattle, MiRNA, Spermatogenesis

Abstract

Background During epididymal transit, spermatozoa go through several functional maturation steps, resulting from interactions with epididymal secretomes specific to each region. In particular, the sperm membrane is under constant remodeling, with sequential attachment and shedding of various molecules provided by the epididymal lumen fluid and epididymosomes, which also deliver sncRNA cargo to sperm. As a result, the payload of sperm sncRNAs changes during the transit from the epididymis caput to the cauda. This work was designed to study the dynamics of cattle sperm sncRNAs from spermatogenesis to final maturation. Results Comprehensive catalogues of sperm sncRNAs were obtained from testicular parenchyma, epididymal caput, corpus and cauda, as well as ejaculated semen from three Holstein bulls. The primary cattle sncRNA sperm content is markedly remodeled as sperm mature along the epididymis. Expression of piRNAs, which are abundant in testis parenchyma, decreases dramatically at epididymis. Conversely, sperm progressively acquires miRNAs, rsRNAs, and tsRNAs along epididymis, with regional specificities. For instance, miRNAs and tsRNAs are enriched in epididymis cauda and ejaculated sperm, while rsRNA expression peaks at epididymis corpus. In addition, epididymis corpus contains mainly 20 nt long piRNAs, instead of 30 nt in all other locations. Beyond the bulk differences in abundance of sncRNAs classes, K-means clustering was performed to study their spatiotemporal expression profile, highlighting differences in specific sncRNAs and providing insights into their putative biological role at each maturation stage. For instance, Gene Ontology analyses using miRNA targets highlighted enriched processes such as cell cycle regulation, response to stress and ubiquitination processes in testicular parenchyma, protein metabolism in epididymal sperm, and embryonic morphogenesis in ejaculated sperm. Conclusions Our findings confirm that the sperm sncRNAome does not simply reflect a legacy of spermatogenesis. Instead, sperm sncRNA expression shows a remarkable level of plasticity resulting probably from the combination of multiple factors such as loss of the cytoplasmic droplet, interaction with epididymosomes, and more surprisingly, the putative in situ production and/or modification of sncRNAs by sperm. Given the suggested role of sncRNA in epigenetic trans-generational inheritance, our detailed spatiotemporal analysis may pave the way for a study of sperm sncRNAs role in embryo development.

Published

2021

36. Systematic Assessment of Blood-Borne MicroRNAs Highlights Molecular Profiles of Endurance Sport and Carbohydrate Uptake

Author

Fabian Kern, Nicole Ludwig, Christina Backes, Esther Maldener, Tobias Fehlmann, Artur Suleymanov, Eckart Meese, Anne Hecksteden, Andreas Keller, and Tim Meyer

Subjects

microRNA, physical exercising, circulating biomarker, homeostasis, randomized cross-over study, microarray, glucose nutrition, full-blood measurements, sncRNAs, Cytology, QH573-671

Abstract

Multiple studies endorsed the positive effect of regular exercise on mental and physical health. However, the molecular mechanisms underlying training-induced fitness in combination with personal life-style remain largely unexplored. Circulating biomarkers such as microRNAs (miRNAs) offer themselves for studying systemic and cellular changes since they can be collected from the bloodstream in a low-invasive manner. In Homo sapiens miRNAs are known to regulate a substantial number of protein-coding genes in a post-transcriptional manner and hence are of great interest to understand differential gene expression profiles, offering a cost-effective mechanism to study molecular training adaption, and connecting the dots from genomics to observed phenotypes. Here, we investigated molecular expression patterns of 2549 miRNAs in whole-blood samples from 23 healthy and untrained adult participants of a cross-over study, consisting of eight weeks of endurance training, with several sessions per week, followed by 8 weeks of washout and another 8 weeks of running, using microarrays. Participants were randomly assigned to one of the two study groups, one of which administered carbohydrates before each session in the first training period, and switching the treatment group for the second training period. During running sessions clinical parameters as heartbeat frequency were recorded. This information was extended with four measurements of maximum oxygen uptake (VO 2 max) for each participant. We observed that multiple circulating miRNAs show expression changes after endurance training, leveraging the capability to separate the blood samples by training status. To this end, we demonstrate that most of the variance in miRNA expression can be explained by both common and known biological and technical factors. Our findings highlight six distinct clusters of miRNAs, each exhibiting an oscillating expression profile across the four study timepoints, that can effectively be utilized to predict phenotypic VO 2 max levels. In addition, we identified miR-532-5p as a candidate marker to determine personal alterations in physical training performance on a case-by-case analysis taking the influence of a carbohydrate-rich nutrition into account. In literature, miR-532-5p is known as a common down-regulated miRNA in diabetes and obesity, possibly providing a molecular link between cellular homeostasis, personal fitness levels, and health in aging. We conclude that circulating miRNA expression can be altered due to regular endurance training, independent of the carbohydrate (CHO) availability in the training timeframe. Further validation studies are required to confirm the role of exercise-affected miRNAs and the extraordinary function of miR-532-5p in modulating the metabolic response to a high availability of glucose.

Published

2019

37. Mother or Father: Who Is in the Front Line? Mechanisms Underlying the Non-Genomic Transmission of Obesity/Diabetes via the Maternal or the Paternal Line

Author

Bernard Portha, Valérie Grandjean, and Jamileh Movassat

Subjects

maternal and paternal metabolic imprinting, germ cell epigenome, sncRNAs, DOHaD, obesity, diabetes, Nutrition. Foods and food supply, TX341-641

Abstract

Extensive epidemiological and experimental evidence have shown that exposure to an adverse intrauterine environment as observed in offspring of pregnancies complicated by obesity or diabetes, can program susceptibility to metabolic, endocrine and cardiovascular disorders later in life. Although most studies have concentrated on the maternal environment, it is also becoming evident that paternal exposure to obesity or diabetes can result in the later development of metabolic disorders in the offspring. Such programmed effects might not be limited to the first directly exposed generation, but could be transmitted to subsequent generations. This suggests the existence of mechanisms by which metabolic changes in parental phenotype are transmissible to offspring. The mechanisms which underpin the transmission of the programmed effects across generations are still unclear. However, epigenetic regulation of transcription has emerged as a strong candidate for mediating the heritability of metabolic diseases. Here, we review the most relevant evidence from human and animal studies showing transmission of programming effects of obesity or diabetes across generations, and the current mechanisms underlying either maternal or paternal influences on the metabolic status of offspring.

Published

2019

38. Inhibition of Respiratory Syncytial Virus Infection by Small Non-Coding RNA Fragments

Author

Spetz, Sandra Axberg Pålsson, Vaishnovi Sekar, Claudia Kutter, Marc R. Friedländer, and Anna-Lena

Subjects

viruses, Respiratory Syncytial Virus (RSV), sncRNAs, tRNA, YRNA, rRNA, respiratory system

Abstract

Respiratory syncytial virus (RSV) causes acute lower respiratory tract infection in infants, immunocompromised individuals and the elderly. As the only current specific treatment options for RSV are monoclonal antibodies, there is a need for efficacious antiviral treatments against RSV to be developed. We have previously shown that a group of synthetic non-coding single-stranded DNA oligonucleotides with lengths of 25–40 nucleotides can inhibit RSV infection in vitro and in vivo. Based on this, herein, we investigate whether naturally occurring single-stranded small non-coding RNA (sncRNA) fragments present in the airways have antiviral effects against RSV infection. From publicly available sequencing data, we selected sncRNA fragments such as YRNAs, tRNAs and rRNAs present in human bronchoalveolar lavage fluid (BALF) from healthy individuals. We utilized a GFP-expressing RSV to show that pre-treatment with the selected sncRNA fragments inhibited RSV infection in A549 cells in vitro. Furthermore, by using a flow cytometry-based binding assay, we demonstrate that these naturally occurring sncRNAs fragments inhibit viral infection most likely by binding to the RSV entry receptor nucleolin and thereby preventing the virus from binding to host cells, either directly or via steric hindrance. This finding highlights a new function of sncRNAs and displays the possibility of using naturally occurring sncRNAs as treatments against RSV.

Published

2022

39. SmithRNAs: Could Mitochondria "Bend" Nuclear Regulation?

Author

Pozzi, Andrea, Plazzi, Federico, Milani, Liliana, Ghiselli, Fabrizio, and Passamonti, Marco

Abstract

Typically, animal mitochondria have very compact genomes, with few short intergenic regions, and no introns. Hence, it may seem that there is little space for unknown functions in mitochondrial DNA (mtDNA). However, mtDNA can also operate through RNA interference, as small non coding RNAs (sncRNAs) produced by mtDNA have already been proposed for humans. We sequenced sncRNA libraries from isolated mitochondria of Ruditapes philippinarum (Mollusca Bivalvia) gonads, a species with doubly uniparental inheritance of mitochondria, and identified several putative sncRNAs of mitochondrial origin. Some sncRNAs are transcribed by intergenic regions that form stable stemhairpin structures, which makes them good miRNA-like candidates. We decided to name them small mitochondrial highly-transcribed RNAs (smithRNAs). Many concurrent data support that we have recovered sncRNAs of mitochondrial origin that might be involved in gonad formation and able to affect nuclear gene expression. This possibility has been never suggested before. If mtDNA can affect nuclear gene expression through RNA interference, this opens a plethora of new possibilities for it to interact with the nucleus, and makes metazoan mtDNA a much more complex genome than previously thought. [ABSTRACT FROM AUTHOR]

Published

2017

40. A phosphorylation-wide sncRNA screen reveals Protein Functional Effector sncRNAs (pfeRNAs) in human lung somatic cells.

Author

Gable, Tyler, Wang, Yuyan, Clark, David, Kumari, Priti, Shetty, Amol Carl, Li, Mao, and Mei, Yuping

Subjects

*LUNG cancer & genetics, *SQUAMOUS cell carcinoma, *PHOSPHORYLATION, *NON-coding RNA, *SOMATIC cells, *PROTEIN-protein interactions, *NUCLEOLIN

Abstract

We recently reported that PIWI-interacting RNAs likes (piR-Ls) could regulate functions of the interacting phosphorylated proteins (p-Proteins). In addition, except for writers and erasers, functional efficacy of p-Proteins on their readers still remains unknown. We, therefore, reasoned there was a type of sncRNAs which could regulate functional efficacy of p-Proteins. Here, we profiled sncRNAs interacting with phosphorylated -Ser, -Thr and -Tyr residues in 3 HBE and 4 lung SCC cell lines, investigated effects and mechanisms of phosphorylated-residue-interacting sncRNAs. Our results demonstrated sncRNAs regulating functional efficacy of p-Proteins and we thus referred them as Protein Functional Effector sncRNAs (pfeRNAs). pfeRNAs were distributed among 26 to 50 nucleotides, shared some core sequences and showed distinctive expression patterns between HBE and SCC cells. Core sequences 417 (CS417), showing consistent upregulation in all 4 SCC cells, bound directly to p-Nucleolin (NCL), which was dependent on the key elements CGCG of CS417 and p-Ser619 of NCL. The CS417/p-NCL interaction was critical for functional efficacy of p-NCL in basic activities of lung normal and cancer cells. Thus, we revealed a novel type of pfeRNAs controlling functional efficacy of p-Proteins in lung somatic cells. [ABSTRACT FROM AUTHOR]

Published

2017

41. Non-Coding RNAs: Multi-Tasking Molecules in the Cell

Author

Anita Quintal Gomes, Sofia Nolasco, and Helena Soares

Subjects

sncRNAs, lncRNAs, miRNAs, siRNAs, piRNAs, gene expression regulation, epigenetic regulation, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

In the last years it has become increasingly clear that the mammalian transcriptome is highly complex and includes a large number of small non-coding RNAs (sncRNAs) and long noncoding RNAs (lncRNAs). Here we review the biogenesis pathways of the three classes of sncRNAs, namely short interfering RNAs (siRNAs), microRNAs (miRNAs) and PIWI-interacting RNAs (piRNAs). These ncRNAs have been extensively studied and are involved in pathways leading to specific gene silencing and the protection of genomes against virus and transposons, for example. Also, lncRNAs have emerged as pivotal molecules for the transcriptional and post-transcriptional regulation of gene expression which is supported by their tissue-specific expression patterns, subcellular distribution, and developmental regulation. Therefore, we also focus our attention on their role in differentiation and development. SncRNAs and lncRNAs play critical roles in defining DNA methylation patterns, as well as chromatin remodeling thus having a substantial effect in epigenetics. The identification of some overlaps in their biogenesis pathways and functional roles raises the hypothesis that these molecules play concerted functions in vivo, creating complex regulatory networks where cooperation with regulatory proteins is necessary. We also highlighted the implications of biogenesis and gene expression deregulation of sncRNAs and lncRNAs in human diseases like cancer.

Published

2013

42. Circulating microRNA signature of genotype-by-age interactions in the long-lived Ames dwarf mouse.

Author

Victoria, Berta, Dhahbi, Joseph M., Nunez Lopez, Yury O., Spinel, Lina, Atamna, Hani, Spindler, Stephen R., and Masternak, Michal M.

Subjects

*MICRORNA, *GENOTYPES, *AGING, *MITOGEN-activated protein kinases, *LOW-calorie diet, *LABORATORY mice

Abstract

Recent evidence demonstrates that serum levels of specific miRNAs significantly change with age. The ability of circulating sncRNAs to act as signaling molecules and regulate a broad spectrum of cellular functions implicates them as key players in the aging process. To discover circulating sncRNAs that impact aging in the long-lived Ames dwarf mice, we conducted deep sequencing of small RNAs extracted from serum of young and old mice. Our analysis showed genotype-specific changes in the circulating levels of 21 miRNAs during aging [genotype-by-age interaction (GbA)]. Genotype-by-age miRNAs showed four distinct expression patterns and significant overtargeting of transcripts involved in age-related processes. Functional enrichment analysis of putative and validated miRNA targets highlighted cellular processes such as tumor suppression, anti-inflammatory response, and modulation of Wnt, insulin, mTOR, and MAPK signaling pathways, among others. The comparative analysis of circulating GbA miRNAs in Ames mice with circulating miRNAs modulated by calorie restriction (CR) in another long-lived mouse suggests CR-like and CR-independent mechanisms contributing to longevity in the Ames mouse. In conclusion, we showed for the first time a signature of circulating miRNAs modulated by age in the long-lived Ames mouse. [ABSTRACT FROM AUTHOR]

Published

2015

43. Small-RNA Sequencing Reveals Altered Skeletal Muscle microRNAs and snoRNAs Signatures in Weanling Male Offspring from Mouse Dams Fed a Low Protein Diet during Lactation

Author

Aphrodite Vasilaki, Mandy J. Peffers, Katarzyna Goljanek-Whysall, Leighton Folkes, Ioannis Kanakis, Simon Moxon, Ioanna Myrtziou, Moussira Alameddine, Susan E. Ozanne, Kanakis, Ioannis [0000-0001-6410-1482], Folkes, Leighton [0000-0002-4009-6540], Moxon, Simon [0000-0003-4644-1816], Peffers, Mandy J [0000-0001-6979-0440], Goljanek-Whysall, Katarzyna [0000-0001-8166-8800], and Apollo - University of Cambridge Repository

Subjects

Male, sncRNAs, Low protein, QH301-705.5, Offspring, medicine.medical_treatment, Weanling, Weaning, Biology, Article, Andrology, Mice, Bacterial Proteins, Low-protein diet, Lactation, Diet, Protein-Restricted, medicine, Animals, RNA, Small Nucleolar, maternal protein restriction, Biology (General), Small nucleolar RNA, Muscle, Skeletal, offspring, Computational Biology, Skeletal muscle, Maternal Nutritional Physiological Phenomena, Sequence Analysis, DNA, General Medicine, microRNAs, snoRNAs, Luminescent Proteins, medicine.anatomical_structure, RNA, Small Untranslated, Female, muscle development

Abstract

Nutrition plays a key role in pre- and postnatal growth of the musculoskeletal system. Maternal diet during gestation and lactation affects the development of skeletal muscles in the offspring and determines muscle health in later life, however, the molecular mechanisms that govern these effects are largely unknown. In this study, we aim to describe the association between maternal low protein diet-induced changes in offspring skeletal muscle and the differential expression (DE) of small non-coding RNAs (sncRNAs). We used a mouse model of maternal protein restriction to characterise the impact of early-life undernutrition on skeletal muscle morphology in male offspring at weaning. Mouse dams were fed either a normal (N, 20%) or a low protein (L, 8%) diet during gestation and newborn pups were cross-fostered to N or L lactating dams, resulting in the generation of NN, NL and LN offspring groups. Total body and tibialis anterior (TA) weights were decreased in NL males but not different in the LN group, as compared to NN, although neonates from low protein fed dams were smaller at birth than those born to dams fed a normal protein. However, histological evaluation of TA muscle revealed reduced muscle fibre size in both groups at the end of lactation. Small RNA-seq analysis demonstrated DE of multiple classes of sncRNAs, including miRs, snoRNAs and snRNAs. Bioinformatic analyses of miRs-15a, −34a, −122 and −199a, in combination with known myomiRs, confirmed their implication in key muscle-specific biological processes and cellular functions and suggest a promising set of miRs in muscle physiology studies. To our knowledge, this is the first comprehensive report for the DE of sncRNAs in nutrition-associated programming of skeletal muscle development, highlighting the need for further research.

Published

2021

44. Surveillance and Cleavage of Eukaryotic tRNAs.

Author

Megel, Cyrille, Morelle, Geoffrey, Lalande, Stéphanie, Duchêne, Anne-Marie, Small, Ian, and Maréchal-Drouard, Laurence

Subjects

*PROTEIN synthesis, *TRANSFER RNA, *GENE expression, *NON-coding DNA, *POST-translational modification, *GENETIC code

Abstract

Beyond their central role in protein synthesis, transfer RNAs (tRNAs) have many other crucial functions. This includes various roles in the regulation of gene expression, stress responses, metabolic processes and priming reverse transcription. In the RNA world, tRNAs are, with ribosomal RNAs, among the most stable molecules. Nevertheless, they are not eternal. As key elements of cell function, tRNAs need to be continuously quality-controlled. Two tRNA surveillance pathways have been identified. They act on hypo-modified or mis-processed pre-tRNAs and on mature tRNAs lacking modifications. A short overview of these two pathways will be presented here. Furthermore, while the exoribonucleases acting in these pathways ultimately lead to complete tRNA degradation, numerous tRNA-derived fragments (tRFs) are present within a cell. These cleavage products of tRNAs now potentially emerge as a new class of small non-coding RNAs (sncRNAs) and are suspected to have important regulatory functions. The tRFs are evolutionarily widespread and created by cleavage at different positions by various endonucleases. Here, we review our present knowledge on the biogenesis and function of tRFs in various organisms. [ABSTRACT FROM AUTHOR]

Published

2015

45. Small RNAs Asserting Big Roles in Mycobacteria

Author

Nicolai S. C. van Oers, Przemyslaw Plocinski, and Fatma S. Coskun

Subjects

sncRNAs, Genetics, Small RNA, education.field_of_study, biology, mycobacteria, microbiology, Population, RNA, Review, QH426-470, biology.organism_classification, Biochemistry, Mycobacterium tuberculosis, Transcriptome, RNA processing, small RNAs, Infectious disease (medical specialty), biochemistry, Locked nucleic acid, education, Molecular Biology, Function (biology)

Abstract

Tuberculosis (TB) is an infectious disease caused by Mycobacterium tuberculosis (Mtb), with 10.4 million new cases per year reported in the human population. Recent studies on the Mtb transcriptome have revealed the abundance of noncoding RNAs expressed at various phases of mycobacteria growth, in culture, in infected mammalian cells, and in patients. Among these noncoding RNAs are both small RNAs (sRNAs) between 50 and 350 nts in length and smaller RNAs (sncRNA) < 50 nts. In this review, we provide an up-to-date synopsis of the identification, designation, and function of these Mtb-encoded sRNAs and sncRNAs. The methodological advances including RNA sequencing strategies, small RNA antagonists, and locked nucleic acid sequence-specific RNA probes advancing the studies on these small RNA are described. Initial insights into the regulation of the small RNA expression and putative processing enzymes required for their synthesis and function are discussed. There are many open questions remaining about the biological and pathogenic roles of these small non-coding RNAs, and potential research directions needed to define the role of these mycobacterial noncoding RNAs are summarized.

Published

2021

46. Non-Coding RNAs: Multi-Tasking Molecules in the Cell.

Author

Gomes, Anita Quintal, Nolasco, Sofia, and Soares, Helena

Subjects

*NON-coding RNA, *MOLECULES, *GENETIC transcription, *GENE silencing, *DEVELOPMENTAL cytology, MAMMAL cytology

Abstract

In the last years it has become increasingly clear that the mammalian transcriptome is highly complex and includes a large number of small non-coding RNAs (sncRNAs) and long noncoding RNAs (lncRNAs). Here we review the biogenesis pathways of the three classes of sncRNAs, namely short interfering RNAs (siRNAs), microRNAs (miRNAs) and PIWI-interacting RNAs (piRNAs). These ncRNAs have been extensively studied and are involved in pathways leading to specific gene silencing and the protection of genomes against virus and transposons, for example. Also, lncRNAs have emerged as pivotal molecules for the transcriptional and post-transcriptional regulation of gene expression which is supported by their tissue-specific expression patterns, subcellular distribution, and developmental regulation. Therefore, we also focus our attention on their role in differentiation and development. SncRNAs and lncRNAs play critical roles in defining DNA methylation patterns, as well as chromatin remodeling thus having a substantial effect in epigenetics. The identification of some overlaps in their biogenesis pathways and functional roles raises the hypothesis that these molecules play concerted functions in vivo, creating complex regulatory networks where cooperation with regulatory proteins is necessary. We also highlighted the implications of biogenesis and gene expression deregulation of sncRNAs and lncRNAs in human diseases like cancer. [ABSTRACT FROM AUTHOR]

Published

2013

47. The MELAS mutation m.3243A>G alters the expression of mitochondrial tRNA fragments

Author

Ministerio de Economía y Competitividad (España), Meseguer, Salvador, Navarro-González, Carmen, Panadero, Joaquín, Villarroya, Magda, Boutoual, Rachid, Sánchez-Alcázar, José Antonio, Armengod, M.-Eugenia, Ministerio de Economía y Competitividad (España), Meseguer, Salvador, Navarro-González, Carmen, Panadero, Joaquín, Villarroya, Magda, Boutoual, Rachid, Sánchez-Alcázar, José Antonio, and Armengod, M.-Eugenia

Abstract

Recent evidences highlight the importance of mitochondria-nucleus communication for the clinical phenotype of oxidative phosphorylation (OXPHOS) diseases. However, the participation of small non-coding RNAs (sncRNAs) in this communication has been poorly explored. We asked whether OXPHOS dysfunction alters the production of a new class of sncRNAs, mitochondrial tRNA fragments (mt tRFs), and, if so, whether mt tRFs play a physiological role and their accumulation is controlled by the action of mt tRNA modification enzymes. To address these questions, we used a cybrid model of MELAS (mitochondrial encephalomyopathy, lactic acidosis, and stroke-like episodes), an OXPHOS disease mostly caused by mutation m.3243A>G in the mitochondrial tRNALeu(UUR) gene. High-throughput analysis of small-RNA-Seq data indicated that m.3243A>G significantly changed the expression pattern of mt tRFs. A functional analysis of potential mt tRFs targets (performed under the assumption that these tRFs act as miRNAs) indicated an association with processes that involve the most common affected tissues in MELAS. We present evidences that mt tRFs may be biologically relevant, as one of them (mt i-tRF GluUUC), likely produced by the action of the nuclease Dicer and whose levels are Ago2 dependent, down-regulates the expression of mitochondrial pyruvate carrier 1 (MPC1), promoting the build-up of extracellular lactate. Therefore, our study underpins the idea that retrograde signaling from mitochondria is also mediated by mt tRFs. Finally, we show that accumulation of mt i-tRF GluUUC depends on the modification status of mt tRNAs, which is regulated by the action of stress-responsive miRNAs on mt tRNA modification enzymes.

Published

2019

48. Small RNAs Asserting Big Roles in Mycobacteria.

Author

Coskun, Fatma S., Płociński, Przemysław, and van Oers, Nicolai S. C.

Subjects

*NON-coding RNA, *MYCOBACTERIA, *RNA regulation, *MYCOBACTERIUM tuberculosis, *RNA sequencing, *LINCRNA, *NUCLEIC acids

Abstract

Tuberculosis (TB) is an infectious disease caused by Mycobacterium tuberculosis (Mtb), with 10.4 million new cases per year reported in the human population. Recent studies on the Mtb transcriptome have revealed the abundance of noncoding RNAs expressed at various phases of mycobacteria growth, in culture, in infected mammalian cells, and in patients. Among these noncoding RNAs are both small RNAs (sRNAs) between 50 and 350 nts in length and smaller RNAs (sncRNA) < 50 nts. In this review, we provide an up-to-date synopsis of the identification, designation, and function of these Mtb-encoded sRNAs and sncRNAs. The methodological advances including RNA sequencing strategies, small RNA antagonists, and locked nucleic acid sequence-specific RNA probes advancing the studies on these small RNA are described. Initial insights into the regulation of the small RNA expression and putative processing enzymes required for their synthesis and function are discussed. There are many open questions remaining about the biological and pathogenic roles of these small non-coding RNAs, and potential research directions needed to define the role of these mycobacterial noncoding RNAs are summarized. [ABSTRACT FROM AUTHOR]

Published

2021

49. SmithRNAs: Could Mitochondria 'Bend' Nuclear Regulation?

Author

Fabrizio Ghiselli, Andrea Pozzi, Federico Plazzi, Liliana Milani, Marco Passamonti, Andrea, Pozzi, Federico, Plazzi, Liliana, Milani, Fabrizio, Ghiselli, and Marco, Passamonti

Subjects

0301 basic medicine, sncRNAs, Mitochondrial DNA, Nuclear gene, Transcription, Genetic, Inheritance Patterns, Uniparental inheritance, Mitochondrion, Biology, Genome, DNA, Mitochondrial, 03 medical and health sciences, Intergenic region, RNA interference, Genetics, Animals, Gonads, Molecular Biology, Ecology, Evolution, Behavior and Systematics, Discoveries, Base Sequence, Sequence Analysis, RNA, Intron, doubly uniparental inheritance, Bivalvia, Mitochondria, 030104 developmental biology, Genes, Mitochondrial, Gene Expression Regulation, smithRNA, Genome, Mitochondrial, RNA, Small Untranslated, smithRNAs

Abstract

Typically, animal mitochondria have very compact genomes, with few short intergenic regions, and no introns. Hence, it may seem that there is little space for unknown functions in mitochondrial DNA (mtDNA). However, mtDNA can also operate through RNA interference, as small non coding RNAs (sncRNAs) produced by mtDNA have already been proposed for humans. We sequenced sncRNA libraries from isolated mitochondria of Ruditapes philippinarum (Mollusca Bivalvia) gonads, a species with doubly uniparental inheritance of mitochondria, and identified several putative sncRNAs of mitochondrial origin. Some sncRNAs are transcribed by intergenic regions that form stable stem-hairpin structures, which makes them good miRNA-like candidates. We decided to name them small mitochondrial highly-transcribed RNAs (smithRNAs). Many concurrent data support that we have recovered sncRNAs of mitochondrial origin that might be involved in gonad formation and able to affect nuclear gene expression. This possibility has been never suggested before. If mtDNA can affect nuclear gene expression through RNA interference, this opens a plethora of new possibilities for it to interact with the nucleus, and makes metazoan mtDNA a much more complex genome than previously thought.

Published

2017

50. Systematic Assessment of Blood-Borne MicroRNAs Highlights Molecular Profiles of Endurance Sport and Carbohydrate Uptake

Author

Christina Backes, Tobias Fehlmann, Anne Hecksteden, Eckart Meese, Artur Suleymanov, Nicole Ludwig, Esther Maldener, Fabian Kern, Tim Meyer, and Andreas Keller

Subjects

0301 basic medicine, Male, Microarray, Cellular homeostasis, 030204 cardiovascular system & hematology, Bioinformatics, Running, 0302 clinical medicine, homeostasis, lcsh:QH301-705.5, physical exercising, Cross-Over Studies, microRNA, VO2 max, General Medicine, Phenotype, Healthy Volunteers, glucose nutrition, Carbohydrate Metabolism, Female, DNA microarray, microarray, sncRNAs, Adult, Carbohydrates, Genomics, Biology, Article, 03 medical and health sciences, Oxygen Consumption, Endurance training, randomized cross-over study, Humans, Circulating MicroRNA, Muscle, Skeletal, Exercise, circulating biomarker, Mechanism (biology), full-blood measurements, Oxygen, MicroRNAs, 030104 developmental biology, lcsh:Biology (General), Physical Endurance, Biomarkers

Abstract

Multiple studies endorsed the positive effect of regular exercise on mental and physical health. However, the molecular mechanisms underlying training-induced fitness in combination with personal life-style remain largely unexplored. Circulating biomarkers such as microRNAs (miRNAs) offer themselves for studying systemic and cellular changes since they can be collected from the bloodstream in a low-invasive manner. In Homo sapiens miRNAs are known to regulate a substantial number of protein-coding genes in a post-transcriptional manner and hence are of great interest to understand differential gene expression profiles, offering a cost-effective mechanism to study molecular training adaption, and connecting the dots from genomics to observed phenotypes. Here, we investigated molecular expression patterns of 2549 miRNAs in whole-blood samples from 23 healthy and untrained adult participants of a cross-over study, consisting of eight weeks of endurance training, with several sessions per week, followed by 8 weeks of washout and another 8 weeks of running, using microarrays. Participants were randomly assigned to one of the two study groups, one of which administered carbohydrates before each session in the first training period, and switching the treatment group for the second training period. During running sessions clinical parameters as heartbeat frequency were recorded. This information was extended with four measurements of maximum oxygen uptake (VO 2 max) for each participant. We observed that multiple circulating miRNAs show expression changes after endurance training, leveraging the capability to separate the blood samples by training status. To this end, we demonstrate that most of the variance in miRNA expression can be explained by both common and known biological and technical factors. Our findings highlight six distinct clusters of miRNAs, each exhibiting an oscillating expression profile across the four study timepoints, that can effectively be utilized to predict phenotypic VO 2 max levels. In addition, we identified miR-532-5p as a candidate marker to determine personal alterations in physical training performance on a case-by-case analysis taking the influence of a carbohydrate-rich nutrition into account. In literature, miR-532-5p is known as a common down-regulated miRNA in diabetes and obesity, possibly providing a molecular link between cellular homeostasis, personal fitness levels, and health in aging. We conclude that circulating miRNA expression can be altered due to regular endurance training, independent of the carbohydrate (CHO) availability in the training timeframe. Further validation studies are required to confirm the role of exercise-affected miRNAs and the extraordinary function of miR-532-5p in modulating the metabolic response to a high availability of glucose.

Published

2019