Emerging Classes of Small Non-Coding RNAs With Potential Implications in Diabetes and Associated Metabolic Disorders

Emerging Classes of Small Non-Coding RNAs With Potential Implications in Diabetes and Associated Metabolic Disorders

Most of the sequences in the human genome do not code for proteins but generate thousands of non-coding RNAs (ncRNAs) with regulatory functions. High-throughput sequencing technologies and bioinformatic tools significantly expanded our knowledge about ncRNAs, highlighting their key role in gene regu...

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Published in:Frontiers in endocrinology (Lausanne) Vol. 12; p. 670719
Main Authors: Jacovetti, Cécile, Bayazit, Mustafa Bilal, Regazzi, Romano
Format: Journal Article
Language:English
Published: Switzerland Frontiers Media S.A 10-05-2021
Subjects:
Animals
Computational Biology - methods
diabetes
Diabetes Mellitus - genetics
Diabetes Mellitus - pathology
Endocrinology
Gene Regulatory Networks
Humans
Metabolic Diseases - genetics
Metabolic Diseases - pathology
metabolism
PIWI-interacting RNAs (piRNAs)
RNA, Small Untranslated - genetics
small nucleolar RNAs
tRNA-derived small RNAs (tRFs)
small nucleolar RNAs
metabolism
tRNA-derived small RNAs (tRFs)
PIWI-interacting RNAs (piRNAs)
diabetes
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Summary:Most of the sequences in the human genome do not code for proteins but generate thousands of non-coding RNAs (ncRNAs) with regulatory functions. High-throughput sequencing technologies and bioinformatic tools significantly expanded our knowledge about ncRNAs, highlighting their key role in gene regulatory networks, through their capacity to interact with coding and non-coding RNAs, DNAs and proteins. NcRNAs comprise diverse RNA species, including amongst others PIWI-interacting RNAs (piRNAs), involved in transposon silencing, and small nucleolar RNAs (snoRNAs), which participate in the modification of other RNAs such as ribosomal RNAs and transfer RNAs. Recently, a novel class of small ncRNAs generated from the cleavage of tRNAs or pre-tRNAs, called tRNA-derived small RNAs (tRFs) has been identified. tRFs have been suggested to regulate protein translation, RNA silencing and cell survival. While for other ncRNAs an implication in several pathologies is now well established, the potential involvement of piRNAs, snoRNAs and tRFs in human diseases, including diabetes, is only beginning to emerge. In this review, we summarize fundamental aspects of piRNAs, snoRNAs and tRFs biology. We discuss their biogenesis while emphasizing on novel sequencing technologies that allow ncRNA discovery and annotation. Moreover, we give an overview of genomic approaches to decrypt their mechanisms of action and to study their functional relevance. The review will provide a comprehensive landscape of the regulatory roles of these three types of ncRNAs in metabolic disorders by reporting their differential expression in endocrine pancreatic tissue as well as their contribution to diabetes incidence and diabetes-underlying conditions such as inflammation. Based on these discoveries we discuss the potential use of piRNAs, snoRNAs and tRFs as promising therapeutic targets in metabolic disorders.
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Reviewed by: Sadhan Das, Central Drug Research Institute (CSIR), India; Inês Cebola, Imperial College London, United Kingdom
This article was submitted to Diabetes: Molecular Mechanisms, a section of the journal Frontiers in Endocrinology
Edited by: Sangeeta Dhawan, City of Hope National Medical Center, United States
ISSN:1664-2392
1664-2392
DOI:10.3389/fendo.2021.670719