Mitoregulin: A lncRNA-Encoded Microprotein that Supports Mitochondrial Supercomplexes and Respiratory Efficiency

Stein, Colleen S.; Jadiya, Pooja; Zhang, Xiaoming; McLendon, Jared M.; Abouassaly, Gabrielle M.; Witmer, Nathan H.; Anderson, Ethan J.; Elrod, John W.; Boudreau, Ryan L.

doi:10.1016/j.celrep.2018.06.002

Cited by 208 publications

(241 citation statements)

References 55 publications

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“…These nORFs are pervasive throughout the genome and are observed in both the coding and non coding regions 1,7 . They are variously classified as small ORFs (sORFs) 8,9 which are 1-100 amino acids in length, altORFs 10 , which are proteins in alternate frames to known proteins, Denovogenes 11 or Orphan genes 12 , Pseudogenes 1,13 , and many ncRNAs have been shown to have coding potential [14][15][16][17][18] . These new discoveries challenge traditionally held conservative definitions of ORF, as used until the recent past 19 .…”

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confidence: 99%

Proteins encoded by Novel ORFs have increased disorder but can be biochemically regulated and harbour pathogenic mutations

Jagannathan

Meena

Bhayankaram

et al. 2019

Preprint

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Recent advances in proteogenomics indicate that protein or protein-like products can be encoded by previously uncharacterized Open Reading Frames (ORFs) that we define as Novel Open Reading Frames (nORFs) 1 , 2 . Although it is yet unclear if these protein or protein-like products could possess any significant biological function hopes have been raised to target them for anticancer and antimicrobial therapy 3,4 . In this study, we used computational tools to systematically investigate these novel protein sequences for their propensities toward structural disorder, post-translational modifications (PTM) and mutational densities. We found that these novel proteins have significantly higher disorder and similar PTM frequencies compared to known proteins. Although these regions were found to harbour deleterious mutations, we did not observe any correlation between the pathogenicity of mutations and their location (ordered/disordered) within these novel proteins. This study suggests that these nORFs encode an important class of proteins, that could undergo sequence, structural or regulatory changes during complex diseases, and hence warrant further study. Significance:Certain noncoding regions of the genome are known to make protein-like products. These protein-like products have significantly expanded the number of the cellular proteome but we dont know whether they are capable of performing biological functions. Here in this study, we have investigated all such putative protein-like products and analyzed whether they can form structures, whether hey harbour mutations, and whether they can be regulated by biochemical regulatory processes. Results from this study indicate that indeed these protein-like proteins can perform and be involved in all the above processes.

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confidence: 99%

Proteins encoded by Novel ORFs have increased disorder but can be biochemically regulated and harbour pathogenic mutations

Jagannathan

Meena

Bhayankaram

et al. 2019

Preprint

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“…More such investigations conducted in the recent past have indicated a diverse range of functions for sORFs. These include muscle regeneration [22,23] , phagocytosis [24] , DNA replication [25] , cancer [26] and metabolism [27,28] . Despite these examples, the vast majority of novel ORF products have not been investigated rigorously and systematically because most of the past studies have focussed on only sORFs, which encode peptides that are smaller than 100 amino acids, that have been dismissed as functionally inconsequential.…”

Section: Discussionmentioning

confidence: 99%

Translational products encoded by novel ORFs may form protein-like structures and have biological functions

Erady

Chong

Meena

et al. 2019

Preprint

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Translation products encoded by non canonical or novel open reading frame (ORF) genomic regions are generally considered too small to play any significant biological role, and dismissed as inconsequential. In this study, we show that mutations mapping to novel ORFs have significantly higher pathogenicity scores than mutations in protein-coding regions. Importantly, novel ORFs can translate into protein-like structures with putative independent biological functions that can be of relevance in disease states, including cancer. We thus provide strong evidence to support the systematic study of novel ORFs to gain new insights into normal biological and disease processes. One Sentence Summary:Non coding regions may encode protein-like products that are important to understand diseases.

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“…Recent studies have discovered that a few lncRNAs harbor small open reading frames (sORFs) that encode sORF-encoded peptides (SEPs) or micropeptides [12][13][14][15][16][17][18][19][20] . We hypothesized that there are additional transcripts currently annotated as lncRNAs that may encode micropeptides.…”

Section: An Incrna Tunar Encodes a Conserved 48-amino-acid Micropepmentioning

confidence: 99%

“…This filtering strategy dramatically reduces the likelihood of false-positive detection, but may also result in some genes that contain small open reading frames (sORFs) being mis-annotated as lncRNAs 11 . Indeed, recent studies have revealed that some of IncRNAs do contain sORFs that encode micropeptides (or microprotein, protein less than 100 amino acids in length) [12][13][14][15][16][17][18][19][20] . Micropeptides can act as modulators for larger protein complexes such as the sarco/endoplasmic reticulum Ca-ATPase (SERCA).In addition, micropeptides can also function independently by serving as ligands for receptors 21 , or scaffolds for protein-protein interactions 17 .…”

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confidence: 99%

A putative long noncoding RNA-encoded micropeptide maintains cellular homeostasis in pancreatic β-cells

Shao

Qian

et al. 2020

Preprint

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Micropeptides(microproteins) encoded by transcripts previously annotated as long noncoding RNA (IncRNAs) are emerging as important mediators of fundamental biological processes in health and disease.Here we applied two computational tools to identify putative micropeptides encoded by lncRNAs that are expressed in human pancreas. We experimentally verified one such micropeptide encoded by the β-celland neural cell-enriched lncRNA TUNAR (TUNA / HI-LNC78 / LINC00617). We named this highly conserved 48-amino-acid micropeptide Beta cell-and Neural cell-regulin (BNLN). BNLN contains a singlepass transmembrane domain. In pancreatic β-cells, BNLN mainly localized at the endoplasmic reticulum.Overexpression of BNLN lowered ER calcium levels, increased cytosolic calcium levels, and maintained ER homeostasis in response to high glucose challenge. To determine the physiological and pathological roles of BNLN, we assessed the BNLN expression in islets from mice fed with a high-fat diet and a regular diet, and found that BNLN is suppressed by diet-induced obesity (DIO). Conversely, overexpression of BNLN elevated glucose-stimulated insulin secretion in INS-1 cells. Lastly, BNLN overexpression enhanced insulin secretion in islets from lean and obese mice as well as from humans. Taken together, our study provides the first evidence that lncRNA-encoded micropeptides play a critical role in pancreatic β-cell function and provides a foundation on which to perform future comprehensive analyses of micropeptide function and pathophysiological impact on diabetes. Abbreviations:ATF6: activating transcription factor-6; BNLN: beta cell and neuron regulin; Cre: Cre recombinase; DIO: diet-induced obesity; ER: endoplasmic reticulum; GAPDH: glyceraldehyde-3-phosphate dehydrogenase; GFP: green fluorescent protein; Glc: glucose; HFD: high-fat diet; IncRNA: long noncoding RNA; RD: regular diet; sORF: small open reading frame; T2D: type 2 diabetes; TUNAR: TCL1 Upstream Neural Differentiation-Associated RNA. INTRODUCTION:Large-scale projects such as ENCODE and FANTOM have found thousands of long noncoding RNAs (lncRNAs) in the human genome 1-4 . lncRNAs play an essential role in regulating islet function in health and diseases including diabetes 5 . It has been demonstrated that lncRNAs are key components of the islet regulatome, with more than 1000 lncRNAs identified in human islets and mouse β-cells 6,7 . These lncRNAs play critical roles in islet and β-cell survival, cell development, and physiological function through regulation of the islet transcriptome 5-7 . Of note, a genome-wide association study that examined T2D susceptibility loci demonstrated that dysregulation of IncRNAs is involved in pancreatic pathologies in humans 6 . In addition, dysregulation of lncRNAs has been implicated in diabetes complications, such as diabetic nephropathy and retinopathy 5,8 . Recently, several circulating lncRNAs have been identified as biomarkers of diabetes and diabetic complications 9,10 . However, although much knowledge has accumulated correlating d...

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Mitoregulin: A lncRNA-Encoded Microprotein that Supports Mitochondrial Supercomplexes and Respiratory Efficiency

Cited by 208 publications

References 55 publications

Proteins encoded by Novel ORFs have increased disorder but can be biochemically regulated and harbour pathogenic mutations

Proteins encoded by Novel ORFs have increased disorder but can be biochemically regulated and harbour pathogenic mutations

Translational products encoded by novel ORFs may form protein-like structures and have biological functions

A putative long noncoding RNA-encoded micropeptide maintains cellular homeostasis in pancreatic β-cells

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