Your search keyword '"Noncoding RNA"' showing total 4,011 results

1. Transcriptome-scale RNA-targeting CRISPR screens reveal essential lncRNAs in human cells

Author

Liang, Wen-Wei, Müller, Simon, Hart, Sydney K., Wessels, Hans-Hermann, Méndez-Mancilla, Alejandro, Sookdeo, Akash, Choi, Olivia, Caragine, Christina M., Corman, Alba, Lu, Lu, Kolumba, Olena, Williams, Breanna, and Sanjana, Neville E.

Published

2024

2. Metabolic and epigenetic regulation of macrophage polarization in atherosclerosis: Molecular mechanisms and targeted therapies

Author

Yang, Pinglian, Rong, Xiaoling, Gao, Zhechang, Wang, Jiaojiao, and Liu, Zhiping

Published

2025

3. Berberine suppressed the epithelial–mesenchymal transition (EMT) of colon epithelial cells through the TGF-β1/Smad and NF-κB pathways associated with miRNA-1269a

Author

Huang, chao, liu, Haosheng, Yang, Yidian, He, Yue, and shen, Weizeng

Published

2024

4. Endocrine-disrupting chemicals (EDCs) and epigenetic regulation in embryonic development: Mechanisms, impacts, and emerging trends

Author

Akanbi, Clinton Ayodeji, Rotimi, Damilare Emmanuel, Ojo, Adebola Busola, and Ojo, Oluwafemi Adeleke

Published

2025

5. NeRNA: A negative data generation framework for machine learning applications of noncoding RNAs

Author

Orhan, Mehmet Emin, Demirci, Yılmaz Mehmet, and Saçar Demirci, Müşerref Duygu

Published

2023

6. Analysis of the circRNA and T-UCR populations identifies convergent pathways in mouse and human models of Rett syndrome

Author

Siqueira, Edilene, Obiols-Guardia, Aida, Jorge-Torres, Olga C., Oliveira-Mateos, Cristina, Soler, Marta, Ramesh-Kumar, Deepthi, Setién, Fernando, van Rossum, Daniëlle, Pascual-Alonso, Ainhoa, Xiol, Clara, Ivan, Cristina, Shimizu, Masayoshi, Armstrong, Judith, Calin, George A., Pasterkamp, R. Jeroen, Esteller, Manel, and Guil, Sonia

Published

2022

7. Targeting noncoding RNAs to treat atherosclerosis.

Author

Sopić, Miron, Vladimirov, Sandra, Munjas, Jelena, Mitić, Tijana, Hall, Ignacio Fernando, Jusic, Amela, Ruzic, Dusan, and Devaux, Yvan

Subjects

*NON-coding RNA, *CARDIOVASCULAR diseases, *ATHEROSCLEROSIS, *POPULATION aging, *DISEASE progression

Abstract

Noncoding RNAs (ncRNAs) are pivotal for various pathological processes, impacting disease progression. The potential for leveraging ncRNAs to prevent or treat atherosclerosis and associated cardiovascular diseases is of great significance, especially given the increasing prevalence of atherosclerosis in an ageing and sedentary population. Together, these diseases impose a substantial socio‐economic burden, demanding innovative therapeutic solutions. This review explores the potential of ncRNAs in atherosclerosis treatment. We commence by examining approaches for identifying and characterizing atherosclerosis‐associated ncRNAs. We then delve into the functional aspects of ncRNAs in atherosclerosis development and progression. Additionally, we review current RNA and RNA‐targeting molecules in development or under approval for clinical use, offering insights into their pharmacological potential. The importance of improved ncRNA delivery strategies is highlighted. Finally, we suggest avenues for advanced research to accelerate the use of ncRNAs in treating atherosclerosis and mitigating its societal impact. LINKED ARTICLES: This article is part of a themed issue Non‐coding RNA Therapeutics. To view the other articles in this section visit http://onlinelibrary.wiley.com/doi/10.1111/bph.v182.2/issuetoc [ABSTRACT FROM AUTHOR]

Published

2025

8. Regulatory role of circular RNAs in the development of therapeutic resistance in the glioma: A double-edged sword.

Author

Masoomabadi, Negin, Gorji, Ali, Ghadiri, Tahereh, and Ebrahimi, Safieh

Subjects

*GENE expression, *CIRCULAR RNA, *NON-coding RNA, *BRAIN tumors, *EPITHELIAL-mesenchymal transition

Abstract

Gliomas are the most common lethal tumors of the brain associated with a poor prognosis and increased resistance to chemo-radiotherapy. Circular RNAs (circRNAs), newly identified noncoding RNAs, have appeared as critical regulators of therapeutic resistance among multiple cancers and gliomas. Since circRNAs are aberrantly expressed in glioma and may act as promoters or inhibitors of therapeutic resistance, we categorized alterations of these specific RNAs expression in therapy resistant-glioma in three different classes, including chemoresistance, radioresistance, and glioma stem cell (GSC)-regulation. circRNAs act as competing endogenous RNA, sponging target microRNA and consequently affecting the expression of genes related to glioma tumorigenesis and resistance. By doing so, circRNAs can modulate the critical cellular pathways and processes regulating glioma resistance, including DNA repair pathways, GSC, epithelial-mesenchymal transition, apoptosis, and autophagy. Considering the poor survival and increased resistance to currently approved treatments for glioma, it is crucial to increase the knowledge of the resistance regulatory effects of circRNAs and their underlying molecular mechanisms. Herein, we conducted a comprehensive search and discussed the existing knowledge regarding the important role eof circRNAs in the emergence of resistance to therapeutic interventions in glioma. This knowledge may serve as a basis for enhancing the effectiveness of glioma therapeutic strategies. [ABSTRACT FROM AUTHOR]

Published

2025

9. Small Nucleolar RNAs in Head and Neck Squamous Cell Carcinomas.

Author

Duan, C., Abola, Y., Zhao, J., and Wang, Y.

Subjects

ALTERNATIVE RNA splicing, NON-coding RNA, SQUAMOUS cell carcinoma, EPITHELIAL-mesenchymal transition, NUCLEOTIDE sequencing

Abstract

Small nucleolar RNAs (snoRNAs), a distinct class of noncoding RNAs, encompass highly diverse structures and have a range of 60 to 300 nucleotides in length. About 90% of human snoRNAs are intronic and embedded within introns of their host gene transcripts. Most snoRNAs enriched in specific tissue correlate in abundance with their parental host genes. Advancements in high-throughput sequencing have facilitated the discovery of dysregulated snoRNA expression in numerous human malignancies including head and neck squamous cell carcinoma (HNSCC). Hundreds of differentially expressed snoRNAs have been identified in HNSCC tissues. Among 1,524 snoRNA genes in a 567 HNSCC cohort, 113 snoRNAs were found to be survival related. As for snoRNA's roles in HNSCC, based on the available evidence, dysregulated snoRNAs are closely associated with the carcinogenesis and development of HNSCC. Upregulated snoRNAs have been shown to augment the expression of other oncogenes or activate the Wnt/β-catenin signaling pathway, thereby promoting tumor cell viability, glycolysis, migration, and the epithelial-mesenchymal transition while inhibiting apoptosis in vitro. In vivo animal studies have further elucidated the functional roles of snoRNAs. Knockdown of host genes of these snoRNAs suppressed the Wnt/β-catenin signaling pathway and restrained tumor proliferation and aggressiveness in mice. The putative mechanisms underlying these observations are associated with the biological functions of snoRNAs, primarily involving microRNA-like functions through the generation of microRNA-like fragments and regulation of alternative splicing to yield diverse transcripts. While most of the snoRNAs are upregulated in HNSCC, 4 downregulated snoRNAs have been identified and annotated. SNORA36B (implicated in the regulation of DNA templates) and U3 (chr17, influencing cell proliferation) may serve as protective factors associated with prolonged overall survival. This review describes the viable structures of snoRNAs, endeavors to refine snoRNA sequencing technology, and summarizes snoRNAs' expression profile as well as their role in HNSCC progression for potential diagnostic and therapeutic strategies for HNSCC management. [ABSTRACT FROM AUTHOR]

Published

2025

10. A guide to RNA structure analysis and RNA‐targeting methods.

Author

Aguilar, Rodrigo, Mardones, Constanza, Moreno, Adrian A., and Cepeda‐Plaza, Marjorie

Subjects

*NUCLEOTIDE sequence, *NON-coding RNA, *RNA analysis, *NUCLEAR magnetic resonance, *SMALL molecules, *OLIGONUCLEOTIDES

Abstract

RNAs are increasingly recognized as promising therapeutic targets, susceptible to modulation by strategies that include targeting with small molecules, antisense oligonucleotides, deoxyribozymes (DNAzymes), or CRISPR/Cas13. However, while drug development for proteins follows well‐established paths for rational design based on the accurate knowledge of their three‐dimensional structure, RNA‐targeting strategies are challenging since comprehensive RNA structures are yet scarce and challenging to acquire. Numerous methods have been developed to elucidate the secondary and three‐dimensional structure of RNAs, including X‐ray crystallography, cryo‐electron microscopy, nuclear magnetic resonance, SHAPE, DMS, and bioinformatic methods, yet they have often revealed flexible transcripts and co‐existing populations rather than single‐defined structures. Thus, researchers aiming to target RNAs face a critical decision: whether to acquire the detailed structure of transcripts in advance or to adopt phenotypic screens or sequence‐based approaches that are independent of the structure. Still, even in strategies that seem to rely only on the nucleotide sequence (like the design of antisense oligonucleotides), researchers may need information about the accessibility of the compounds to the folded RNA molecule. In this concise guide, we provide an overview for researchers interested in targeting RNAs: We start by revisiting current methodologies for defining secondary or three‐dimensional RNA structure and then we explore RNA‐targeting strategies that may or may not require an in‐depth knowledge of RNA structure. We envision that complementary approaches may expedite the development of RNA‐targeting molecules to combat disease. [ABSTRACT FROM AUTHOR]

Published

2024

11. The Dlk1-Dio3 noncoding RNA cluster coordinately regulates mitochondrial respiration and chromatin structure to establish proper cell state for muscle differentiation.

Author

Pinheiro, Amanda, Petty, Christopher A., Stephens, Chelsea E., Cabrera, Kevin, Palanques-Tost, Eric, Gower, Adam C., Marano, Madison, Leviss, Ethan M., Boberg, Matthew J., Mahendran, Jawahar, Bock, Payton M., Fetterman, Jessica L., and Naya, Francisco J.

Subjects

*GENE expression, *CELL metabolism, *NON-coding RNA, *MUSCLE cells, *HISTONE methylation

Abstract

The coordinate regulation of metabolism and epigenetics to establish cell state-specific gene expression patterns during lineage progression is a central aspect of cell differentiation, but the factors that regulate this elaborate interplay are not well-defined. The imprinted Dlk1-Dio3 noncoding RNA (ncRNA) cluster has been associated with metabolism in various progenitor cells, suggesting it functions as a regulator of metabolism and cell state. Here, we directly demonstrate that the Dlk1-Dio3 ncRNA cluster coordinates mitochondrial respiration and chromatin structure to maintain proper cell state. Stable mouse muscle cell lines were generated harboring two distinct deletions in the proximal promoter region, resulting in either greatly upregulated or downregulated expression of the entire Dlk1-Dio3 ncRNA cluster. Both mutant lines displayed impaired muscle differentiation along with dysregulated structural gene expression and abnormalities in mitochondrial respiration. Genomewide chromatin accessibility and histone methylation patterns were also severely affected in these mutants. Our results strongly suggest that muscle cells are sensitive to Dlk1-Dio3 ncRNA dosage, and that the cluster coordinately regulates metabolic activity and the epigenome to maintain proper cell state in the myogenic lineage. [ABSTRACT FROM AUTHOR]

Published

2024

12. The RNA Revolution in the Central Molecular Biology Dogma Evolution.

Author

Haseltine, William A. and Patarca, Roberto

Abstract

Human genome projects in the 1990s identified about 20,000 protein-coding sequences. We are now in the RNA revolution, propelled by the realization that genes determine phenotype beyond the foundational central molecular biology dogma, stating that inherited linear pieces of DNA are transcribed to RNAs and translated into proteins. Crucially, over 95% of the genome, initially considered junk DNA between protein-coding genes, encodes essential, functionally diverse non-protein-coding RNAs, raising the gene count by at least one order of magnitude. Most inherited phenotype-determining changes in DNA are in regulatory areas that control RNA and regulatory sequences. RNAs can directly or indirectly determine phenotypes by regulating protein and RNA function, transferring information within and between organisms, and generating DNA. RNAs also exhibit high structural, functional, and biomolecular interaction plasticity and are modified via editing, methylation, glycosylation, and other mechanisms, which bestow them with diverse intra- and extracellular functions without altering the underlying DNA. RNA is, therefore, currently considered the primary determinant of cellular to populational functional diversity, disease-linked and biomolecular structural variations, and cell function regulation. As demonstrated by RNA-based coronavirus vaccines' success, RNA technology is transforming medicine, agriculture, and industry, as did the advent of recombinant DNA technology in the 1980s. [ABSTRACT FROM AUTHOR]

Published

2024

13. Unraveling host regulation of gut microbiota through the epigenome–microbiome axis.

Author

Pepke, Michael L., Hansen, Søren B., and Limborg, Morten T.

Subjects

*BIOLOGICAL evolution, *BIOCHEMISTRY, *GENE expression, *NON-coding RNA, *GUT microbiome, *EPIGENOMICS

Abstract

The gut microbiome is an epigenetic effector that influences host gene expression. Recent studies suggest that the host is also able to influence its gut microbiome through epigenetic changes, including histone and DNA modifications affecting host gene expression of immune genes, gut barrier function, and through noncoding RNAs. This outlines a bidirectional 'epigenome–microbiome axis', which embeds environmental variation and could mediate rapid adaptive evolution of host–microbe relationships. New tools for epigenetic engineering allow us to investigate the causality of the epigenome–microbiome axis and offer alternative approaches to engineering beneficial microbial traits. Targeting host epigenetic mechanisms of microbiome regulation could provide new treatments for gastrointestinal disease or dysbiosis due to epigenetic dysregulation. Recent studies of dynamic interactions between epigenetic modifications of a host organism and the composition or activity of its associated gut microbiota suggest an opportunity for the host to shape its microbiome through epigenetic alterations that lead to changes in gene expression and noncoding RNA activity. We use insights from microbiota-induced epigenetic changes to review the potential of the host to epigenetically regulate its gut microbiome, from which a bidirectional 'epigenome–microbiome axis' emerges. This axis embeds environmentally induced variation, which may influence the adaptive evolution of host–microbe interactions. We furthermore present our perspective on how the epigenome–microbiome axis can be understood and investigated within a holo-omic framework with potential applications in the applied health and food sciences. [ABSTRACT FROM AUTHOR]

Published

2024

14. LncRNA81246 regulates resistance against tea leaf spot by interrupting the miR164d‐mediated degradation of NAC1.

Author

Guo, Di, Li, Dongxue, Liu, Fenghua, Ma, Yue, Zhou, Jing‐Jiang, Sheth, Sujitraj, Song, Baoan, and Chen, Zhuo

Subjects

*COMPETITIVE endogenous RNA, *LINCRNA, *DISEASE resistance of plants, *NON-coding RNA, *LEAF spots

Abstract

SUMMARY Non‐coding RNAs play crucial roles in plant responses to viral stresses. However, their molecular mechanisms in tea leaf spot responses remain unclear. In this study, using Camellia sinensis, we identified lncRNA81246 as a long non‐coding RNA that localizes to both the nucleus and cytoplasm. It functions as a competitive endogenous RNA, thereby disrupting CsNAC1 (encoding NAC domain‐containing protein 1) degradation mediated by miR164d. Silencing lncRNA81246 increased the resistance of tea plants to presistanceathogens, whereas transient lncRNA81246‐overexpression plants showed decreased resistance to pathogens. Co‐expression assays in Nicotiana benthamiana revealed that lncRNA81246 affects the miR164d–CsNAC1 regulatory module. Transient miR164d‐overexpression and silencing assays demonstrated its positive regulation of tea plant resistance. Specifically, silencing its target, CsNAC1,enhanced disease resistance, whereas transient overexpression reduced plant resistance. Yeast one‐hybrid, dual‐luciferase, and RT‐qPCR assay results suggested that CsNAC1 alters the expression of CsEXLB1, whereas AsODN and tobacco transient overexpression assays showed that CsEXLB1 negatively regulated tea plant resistance. Thus, our research demonstrated that lncRNA81246 acts as a mediator to interfere with the miR164d–CsNAC1 regulatory module involved in the disease resistance of tea plants. [ABSTRACT FROM AUTHOR]

Published

2024

15. Transcriptional Regulation of De Novo Lipogenesis by SIX1 in Liver Cancer Cells.

Author

Li, Ling, Zhang, Xiujuan, Xu, Guang, Xue, Rui, Li, Shuo, Wu, Shumeng, Yang, Yuanjun, Lin, Yanni, Lin, Jing, Liu, Guoxiao, Gao, Shan, Zhang, Youzhi, and Ye, Qinong

Subjects

*FATTY acid synthases, *TRANSCRIPTION factors, *TRANSFORMING growth factors, *GENE expression, *CANCER cell proliferation, *HOMEOBOX genes

Abstract

De novo lipogenesis (DNL), a hallmark of cancer, facilitates tumor growth and metastasis. Therapeutic drugs targeting DNL are being developed. However, how DNL is directly regulated in cancer remains largely unknown. Here, transcription factor sine oculis homeobox 1 (SIX1) is shown to directly increase the expression of DNL‐related genes, including ATP citrate lyase (ACLY), fatty acid synthase (FASN), and stearoyl‐CoA desaturase 1 (SCD1), via histone acetyltransferases amplified in breast cancer 1 (AIB1) and lysine acetyltransferase 7 （HBO1/KAT7）, thus promoting lipogenesis. SIX1 expression is regulated by insulin/lncRNA DGUOK‐AS1/microRNA‐145‐5p axis, which also modulates DNL‐related gene expression as well as DNL. The DGUOK‐AS1/microRNA‐145‐5p/SIX1 axis regulates liver cancer cell proliferation, invasion, and metastasis in vitro and in vivo. In patients with liver cancer, SIX1 expression is positively correlated with DGUOK‐AS1 and SCD1 expression and is negatively correlated with microRNA‐145‐5p expression. DGUOK‐AS1 is a good predictor of prognosis. Thus, the DGUOK‐AS1/microRNA‐145‐5p/SIX1 axis strongly links DNL to tumor growth and metastasis and may become an avenue for liver cancer therapeutic intervention. [ABSTRACT FROM AUTHOR]

Published

2024

16. Multi-omics integration analysis reveals the role of N6-methyladenosine in lncRNA translation during glioma stem cell differentiation.

Author

Zhang, Meng, Cai, Runqiu, Liu, Jingjing, Wang, Yulan, He, Shan, Wang, Quan, Song, Xiaofeng, Wu, Jing, and Zhao, Jian

Subjects

*RNA modification & restriction, *GENETIC translation, *NON-coding RNA, *GROWTH arrest-specific 5, *RNA methylation

Abstract

Glioblastoma is one of the most lethal brain diseases in humans. Although recent studies have shown reciprocal interactions between N6-methyladenosine (m6A) modifications and long noncoding RNAs (lncRNAs) in gliomagenesis and malignant progression, the mechanism of m6A-mediated lncRNA translational regulation in glioblastoma remains unclear. Herein, we profiled the transcriptomes, translatomes, and epitranscriptomics of glioma stem cells and differentiated glioma cells to investigate the role of m6A in lncRNA translation comprehensively. We found that lncRNAs with numerous m6A peaks exhibit reduced translation efficiency. Transcript-level expression analysis demonstrates an enrichment of m6A around short open reading frames (sORFs) of translatable lncRNA transcripts. Further comparison analysis of m6A modifications in different RNA regions indicates that m6A peaks downstream of sORFs inhibit lncRNA translation more than those upstream. Observations in glioma-associated lncRNAs H19 , LINC00467 , and GAS5 further confirm the negative effect of m6A methylation on lncRNA translation. Overall, these findings elucidate the dynamic profiles of the m6A methylome and enhance the understanding of the complexity of lncRNA translational regulation. [ABSTRACT FROM AUTHOR]

Published

2024

17. Long-read RNA sequencing can probe organelle genome pervasive transcription.

Author

Lima, Matheus Sanita, Domingues, Douglas Silva, Paschoal, Alexandre Rossi, and Smith, David Roy

Subjects

*APPLIED sciences, *NON-coding RNA, *RNA sequencing, *GENETIC transcription, *GENOME size

Abstract

40 years ago, organelle genomes were assumed to be streamlined and, perhaps, unexciting remnants of their prokaryotic past. However, the field of organelle genomics has exposed an unparallel diversity in genome architecture (i.e. genome size, structure, and content). The transcription of these eccentric genomes can be just as elaborate – organelle genomes are pervasively transcribed into a plethora of RNA types. However, while organelle protein-coding genes are known to produce polycistronic transcripts that undergo heavy posttranscriptional processing, the nature of organelle noncoding transcriptomes is still poorly resolved. Here, we review how wet-lab experiments and second-generation sequencing data (i.e. short reads) have been useful to determine certain types of organelle RNAs, particularly noncoding RNAs. We then explain how third-generation (long-read) RNA-Seq data represent the new frontier in organelle transcriptomics. We show that public repositories (e.g. NCBI SRA) already contain enough data for inter-phyla comparative studies and argue that organelle biologists can benefit from such data. We discuss the prospects of using publicly available sequencing data for organelle-focused studies and examine the challenges of such an approach. We highlight that the lack of a comprehensive database dedicated to organelle genomics/transcriptomics is a major impediment to the development of a field with implications in basic and applied science. [ABSTRACT FROM AUTHOR]

Published

2024

18. Epigenetic DNA Methylation and Protein Homocysteinylation: Key Players in Hypertensive Renovascular Damage.

Author

Ren, Lu, Pushpakumar, Sathnur, Almarshood, Hebah, Das, Swapan K., and Sen, Utpal

Subjects

*RENOVASCULAR hypertension, *GLOMERULOSCLEROSIS, *NON-coding RNA, *ENDOTHELIUM diseases, *DNA methylation

Abstract

Hypertension has been a threat to the health of people, the mechanism of which, however, remains poorly understood. It is clinically related to loss of nephron function, glomerular sclerosis, or necrosis, resulting in renal functional declines. The mechanisms underlying hypertension's development and progression to organ damage, including hypertensive renal damage, remain to be fully elucidated. As a developing approach, epigenetics has been postulated to elucidate the phenomena that otherwise cannot be explained by genetic studies. The main epigenetic hallmarks, such as DNA methylation, histone acetylation, deacetylation, noncoding RNAs, and protein N-homocysteinylation have been linked with hypertension. In addition to contributing to endothelial dysfunction and oxidative stress, biologically active gases, including NO, CO, and H2S, are crucial regulators contributing to vascular remodeling since their complex interplay conducts homeostatic functions in the renovascular system. Importantly, epigenetic modifications also directly contribute to the pathogenesis of kidney damage via protein N-homocysteinylation. Hence, epigenetic modulation to intervene in renovascular damage is a potential therapeutic approach to treat renal disease and dysfunction. This review illustrates some of the epigenetic hallmarks and their mediators, which have the ability to diminish the injury triggered by hypertension and renal disease. In the end, we provide potential therapeutic possibilities to treat renovascular diseases in hypertension. [ABSTRACT FROM AUTHOR]

Published

2024

19. Exploring the roles and molecular mechanisms of RNA binding proteins in the sorting of noncoding RNAs into exosomes during tumor progression.

Author

Wang, Ting and Zhang, Hui

Subjects

*RNA-binding proteins, *RECOMBINANT drugs, *NON-coding RNA, *CANCER invasiveness, *MULTIDRUG resistance

Abstract

[Display omitted] • RNA binding proteins (RBPs) impact tumor development and play a role in sorting noncoding RNAs (ncRNAs) into exosomes. • The RBP-ncRNA-exosome mechanism is crucial in tumor regulation and provides insights for innovative treatment strategies. • This mechanism influences tumor metastasis, multidrug resistance, angiogenesis, the immunosuppressive microenvironment, and tumor progression. • Potential therapeutic strategies include targeted drug discovery and genetic engineering of therapeutic exosomes. RNA binding proteins (RBPs) play a role in sorting non-coding RNAs (ncRNAs) into exosomes. These ncRNAs, carried by exosomes, are involved in regulating various aspects of tumor progression, including metastasis, angiogenesis, control of the tumor microenvironment, and drug resistance. Recent studies have emphasized the importance of the RBP-ncRNA-exosome mechanism in tumor regulation. This comprehensive review aims to explore the RBP-ncRNA-exosome mechanism and its influence on tumor development. By understanding this intricate mechanism provides novel insights into tumor regulation and may lead to innovative treatment strategies in the future. The review discusses the formation of exosomes and the complex relationships among RBPs, ncRNAs, and exosomes. The RBP-ncRNA-exosome mechanism is shown to affect various aspects of tumor biology, including metastasis, multidrug resistance, angiogenesis, the immunosuppressive microenvironment, and tumor progression. Tumor development relies on the transmission of information between cells, with RBPs selectively mediating sorting of ncRNAs into exosomes through various mechanisms, which in turn carry ncRNAs to regulate RBPs. The review also provides an overview of potential therapeutic strategies, such as targeted drug discovery and genetic engineering for modifying therapeutic exosomes, which hold great promise for improving cancer treatment. [ABSTRACT FROM AUTHOR]

Published

2024

20. Noncoding RNAs regulating ferroptosis in cardiovascular diseases: novel roles and therapeutic strategies.

Author

Wu, Changyong, Bao, Suli, Sun, Huang, Chen, Xiaocui, Yang, Lu, Li, Ruijie, and Peng, Yunzhu

Abstract

The morbidity and mortality rates of cardiovascular diseases (CVDs) are increasing; thus, they impose substantial health and economic burdens worldwide, and effective interventions are needed for immediate resolution of this issue. Recent studies have suggested that noncoding RNAs (ncRNAs) play critical roles in the occurrence and development of CVDs and are potential therapeutic targets and novel biomarkers for these diseases. Newly discovered modes of cell death, including necroptosis, pyroptosis, apoptosis, autophagy-dependent cell death and ferroptosis, also play key roles in CVD progression. However, ferroptosis, which differs from the other aforementioned forms of regulated cell death in terms of cell morphology, biochemistry and inhereditability, is a unique iron-dependent mode of nonapoptotic cell death induced by abnormal iron metabolism and excessive accumulation of iron-dependent lipid peroxides and reactive oxygen species (ROS). Increasing evidence has confirmed that ncRNA-mediated ferroptosis is involved in regulating tissue homeostasis and CVD-related pathophysiological conditions, such as cardiac ischemia/reperfusion (I/R) injury, myocardial infarction (MI), atrial fibrillation (AF), cardiomyopathy and heart failure (HF). In this review, we summarize the underlying mechanism of ferroptosis, discuss the pathophysiological effects of ncRNA-mediated ferroptosis in CVDs and provide ideas for effective therapeutic strategies. [ABSTRACT FROM AUTHOR]

Published

2024

21. The eusocial non-code: Unveiling the impact of noncoding RNAs on Hymenoptera eusocial evolution

Author

Egor Lebedev, Daniil Smutin, Pavel Timkin, Danil Kotelnikov, Amir Taldaev, Nick Panushev, and Leonid Adonin

Subjects

Hymenoptera, Honey bee Apis mellifera, Noncoding RNA, Repetitive DNA, Transposons, Eusociality, Genetics, QH426-470

Abstract

Eusociality, characterized by reproductive division of labor, cooperative brood care, and multi-generational cohabitation, represents a pinnacle of complex social evolution, most notably manifested within the Hymenoptera order including bees, ants, and wasps. The molecular underpinnings underlying these sophisticated social structures remain an enigma, with noncoding RNAs (ncRNAs) emerging as crucial regulatory players. This article delves into the roles of ncRNAs in exerting epigenetic control during the development and maintenance of Hymenopteran eusociality. We consolidate current findings on various classes of ncRNAs, underscoring their influence on gene expression regulation pertinent to caste differentiation, developmental plasticity, and behavioral modulation. Evidence is explored supporting the hypothesis that ncRNAs contribute to epigenetic landscapes fostering eusocial traits through genomic regulation. They are likely to play an important role in eusociality “point of no return”. Critical analysis is provided on the functional insights garnered from ncRNA profiles correlated with caste-specific phenotypes, specifical for phylogenetic branches and transitional sociality models, drawing from comparative genomics and transcriptomics studies. Overall, ncRNA provides a missed understanding of both “genetic toolkit” and “unique genes” hypotheses of eusociality development. Moreover, it points to gaps in current knowledge, advocating for integrative approaches combining genomics, proteomics, and epigenetics to decipher the complexity of eusociality. Understanding the ncRNA contributions offers not only a window into the molecular intricacies of Hymenoptera sociality but also extends our comprehension of how complex biological systems evolve and function.

Published

2025

22. Exosomes as Vehicles for Noncoding RNA in Modulating Inflammation: A Promising Regulatory Approach for Ischemic Stroke and Myocardial Infarction

Author

Lai Z, Ye T, Zhang M, and Mu Y

Subjects

exosomes, noncoding rna, inflammation, ischemic stroke, myocardial infarction, Pathology, RB1-214, Therapeutics. Pharmacology, RM1-950

Abstract

Zhuhong Lai, Tingqiao Ye, Mingjun Zhang, Ying Mu Department of Cardiology, Mianyang Central Hospital, School of Medicine, University of Electronic Science and Technology of China, Mianyang, 621000, People’s Republic of ChinaCorrespondence: Ying Mu, Department of Cardiology, Mianyang Central Hospital, School of Medicine, University of Electronic Science and Technology of China, Mianyang, 621000, People’s Republic of China, Email muyingdr123@yeah.netAbstract: Exosomes have grown as promising carriers for noncoding RNAs (ncRNAs) in the treatment of inflammation, particularly in conditions like ischemic stroke and myocardial infarction. These ncRNAs, which include microRNAs (miRNAs) and long noncoding RNAs (lncRNAs), play a crucial role in regulating inflammatory pathways, presenting new therapeutic opportunities. In both ischemic stroke and myocardial infarction, inflammation significantly influences disease progression and severity. Exosomes can deliver ncRNAs directly to specific cells and tissues, providing a targeted approach to modulate gene expression and reduce inflammation. Their biocompatibility and low risk of inducing immune responses make exosomes ideal therapeutic vehicles. Ongoing research is focused on optimizing the loading of ncRNAs into exosomes, ensuring efficient delivery, and understanding the mechanisms by which these ncRNAs mitigate inflammation. In ischemic stroke, exosome-derived ncRNAs originate from various cell types, including neurons, M2 microglia, patient serum, genetically engineered HEK293T cells, and mesenchymal stromal cells. In the case of myocardial infarction, these ncRNAs are sourced from mesenchymal stem cells, endothelial cells, and patient plasma. These exosome-loaded ncRNAs play a significant role in modulating inflammation in both ischemic stroke and myocardial infarction. As this research advances, therapies based on exosomes may completely change how diseases linked to inflammation are treated, offering new avenues for patient care and recovery. This review explores the latest advancements in understanding how exosomes impact specific inflammatory components, with a particular emphasis on the role of ncRNAs contained in exosomes. The review concludes by highlighting the clinical potential of exosome-derived ncRNAs as innovative therapeutic and diagnostic tools.Keywords: exosomes, noncoding RNA, inflammation, ischemic stroke, myocardial infarction

Published

2024

23. Noncoding RNA-associated competing endogenous RNA networks in trastuzumab-induced cardiotoxicity

Author

Suifen Xie, Ni Zhou, Nan Su, Zijun Xiao, Shanshan Wei, Yuanying Yang, Jian Liu, Wenqun Li, and Bikui Zhang

Subjects

Trastuzumab, Cardiotoxicity, Noncoding RNA, Whole transcriptome sequencing, ceRNA networks, Genetics, QH426-470

Abstract

Trastuzumab-induced cardiotoxicity (TIC) is a common and serious disease with abnormal cardiac function. Accumulating evidence has indicated certain non-coding RNAs (ncRNAs), functioning as competing endogenous RNAs (ceRNAs), impacting the progression of cardiovascular diseases. Nonetheless, the specific involvement of ncRNA-mediated ceRNA regulatory mechanisms in TIC remains elusive. The present research aims to comprehensively investigate changes in the expressions of all ncRNA using whole-transcriptome RNA sequencing. The sequencing analysis unveiled significant dysregulation, identifying a total of 43 circular RNAs (circRNAs), 270 long noncoding RNAs (lncRNAs), 12 microRNAs (miRNAs), and 4131 mRNAs in trastuzumab-treated mouse hearts. Subsequently, circRNA-based ceRNA networks consisting of 82 nodes and 91 edges, as well as lncRNA-based ceRNA networks comprising 111 nodes and 112 edges, were constructed. Using the CytoNCA plugin, pivotal genes—miR-31-5p and miR-644-5p—were identified within these networks, exhibiting potential relevance in TIC treatment. Additionally, KEGG and GO analyses were conducted to explore the functional pathways associated with the genes within the ceRNA networks. The outcomes of the predicted ceRNAs and bioinformatics analyses elucidated the plausible involvement of ncRNAs in TIC pathogenesis. This insight contributes to a better understanding of underlying mechanisms and aids in identifying promising targets for effective prevention and treatment strategies.

Published

2024

24. Unraveling the crosstalk: circRNAs and the wnt signaling pathway in cancers of the digestive system

Author

Yu Zhang, Cheng Zhang, Chuanhui Peng, and Junjun Jia

Subjects

Noncoding RNA, circRNAs, Wnt signaling pathway, Tumor, Biomarker, Genetics, QH426-470

Abstract

Circular RNA (circRNA) is a unique type of noncoding RNA molecule characterized by its closed-loop structure. Functionally versatile, circRNAs play pivotal roles in gene expression regulation, protein activity modulation, and participation in cell signaling processes. In the context of cancers of the digestive system, the Wnt signaling pathway holds particular significance. Anomalous activation of the Wnt pathway serves as a primary catalyst for the development of colorectal cancer. Extensive research underscores the notable participation of circRNAs associated with the Wnt pathway in the progression of digestive system tumors. These circRNAs exhibit pronounced dysregulation across esophageal cancer, gastric cancer, liver cancer, colorectal cancer, pancreatic cancer, and cholangiocarcinoma. Furthermore, the altered expression of circRNAs linked to the Wnt pathway correlates with prognostic factors in digestive system tumors. Additionally, circRNAs related to the Wnt pathway showcase potential as diagnostic, therapeutic, and prognostic markers within the realm of digestive system tumors. This comprehensive review outlines the interplay between circRNAs and the Wnt signaling pathway in cancers of the digestive system. It seeks to provide a comprehensive perspective on their association while delving into ongoing research that explores the clinical applications of circRNAs associated with the Wnt pathway.

Published

2024

25. The regulatory landscape of interacting RNA and protein pools in cellular homeostasis and cancer

Author

Carlos J. Gallardo-Dodd and Claudia Kutter

Subjects

Noncoding RNA, RNA-binding protein, RNA modification, Post-transcriptional regulation, Cancer, Medicine, Genetics, QH426-470

Abstract

Abstract Biological systems encompass intricate networks governed by RNA-protein interactions that play pivotal roles in cellular functions. RNA and proteins constituting 1.1% and 18% of the mammalian cell weight, respectively, orchestrate vital processes from genome organization to translation. To date, disentangling the functional fraction of the human genome has presented a major challenge, particularly for noncoding regions, yet recent discoveries have started to unveil a host of regulatory functions for noncoding RNAs (ncRNAs). While ncRNAs exist at different sizes, structures, degrees of evolutionary conservation and abundances within the cell, they partake in diverse roles either alone or in combination. However, certain ncRNA subtypes, including those that have been described or remain to be discovered, are poorly characterized given their heterogeneous nature. RNA activity is in most cases coordinated through interactions with RNA-binding proteins (RBPs). Extensive efforts are being made to accurately reconstruct RNA-RBP regulatory networks, which have provided unprecedented insight into cellular physiology and human disease. In this review, we provide a comprehensive view of RNAs and RBPs, focusing on how their interactions generate functional signals in living cells, particularly in the context of post-transcriptional regulatory processes and cancer.

Published

2024

26. ncRNA-mediated SOX4 overexpression correlates with unfavorable outcomes and immune infiltration in hepatocellular carcinoma

Author

Jing Li, Xinfeng Sun, Minling Lv, Zhiyi Han, Xin Zhong, Wei Zhang, Rui Hu, Wenxing Feng, Mengqing Ma, Qi Huang, and Xiaozhou Zhou

Subjects

SOX4, Hepatocellular carcinoma, Immune cells, Noncoding RNA, Prognosis, Diseases of the digestive system. Gastroenterology, RC799-869

Abstract

Abstract Background The activity and number of immune cells in the tumor microenvironment are closely related to the overall survival of patients with hepatocellular carcinoma (HCC). The sex-determining region Y-box 4 (SOX4) gene is abnormally expressed in various tumor tissues and is critical for tumor development. However, the correlation between SOX4 expression in HCC and tumor immunity is unclear. Methods SOX4 expression was explored using data from The Cancer Genome Atlas, and UALCAN databases. Real-time reverse transcription quantitative and western blotting were used to analyze SOX4 expression in several liver cancer cell lines. Additionally, correlations among SOX4 expression, cancer immune characteristics, and infiltrated immune cell gene marker sets in patients with HCC were analyzed using data from the Tumor Immune Estimation Resource, Gene Expression Profiling Interactive Analysis, and Tumor-Immune System Interactions databases. Moreover, we evaluated SOX4 expression in HCC tissues and the correlation of SOX4 expression with survival rate. Subsequently, noncoding RNAs (ncRNAs) responsible for SOX4 overexpression were identified using expression, correlation, and survival analyses. Results SOX4 expression was significantly upregulated in HCC and correlated with a poor prognosis. Additionally, SOX4 upregulation in HCC positively correlated with immune cell infiltration, several biomarkers of immune cells, and immune checkpoint expression. Finally, the MCM3AP-AS1/hsa-miR-204-5p axis was identified as the most likely upstream ncRNA-related pathway for SOX4 in HCC. These results indicated that ncRNA-mediated upregulation of SOX4 correlated with the immune infiltration level and poor prognosis in HCC. Our findings provide new directions for the development of novel immunotherapeutic targets for HCC.

Published

2024

27. Trends and frontiers of RNA methylation in cancer over the past 10 years: a bibliometric and visual analysis.

Author

Bo-Na Liu, Xiao-Li Gao, and Ying Piao

Subjects

RNA methylation, BIBLIOMETRICS, NON-coding RNA, STOMACH cancer, CELL differentiation

Abstract

Purpose: To highlight the trends and frontiers of RNA methylation in cancer over the past 10 years. Methods: Research publications on RNA methylation in cancer were retrieved from the Web of Science Core Collection database. VOSviewer, CiteSpace, and Bibliometrix were used to conduct bibliometric and visualization analysis of countries, institutions, authors, journals, and keywords relevant to this field. Results: From 2014 to 2023, research on RNA methylation in cancer has developed rapidly, with an overall increase in the number of publications and citations. China (4320 papers, 115056citations), Sun Yat Sen University (274 papers, 15698 citations), and Zhang, Wei (48 papers, 893 citations) are respectively the countries, institutions, and authors with the highest number of published papers and citations. Frontiers in Oncology (182 papers, 2524 citations) and Molecular Cancer (69 papers, 9224 citations) are the journals with the highest number of published papers and citations in this field, respectively. Cooccurrence analysis of keywords indicates that the research topics can be divided into five clusters: Cluster one: The Role of RNA Methylation in Tumor Heterogeneity, Therapeutic Response, and Prognosis; Cluster two: The Role of Noncoding RNA in RNA Methylation and Tumors; Cluster three: Potential Therapeutic Targets of RNA Methylation in Tumors; Cluster four: The role of RNA methylation in tumor progression and metastasis: A case study of hepatocellular carcinoma and gastric cancer; Cluster five: Regulation mechanisms of m6A methylation in leukemia cell differentiation and tumorigenesis. Conclusion: This is the first comprehensive study using bibliometrics to analyze the trends and frontiers of RNA methylation in cancer over the past 10 years, pointing out promising research directions for the future and providing valuable references for researchers in this field. [ABSTRACT FROM AUTHOR]

Published

2024

28. Evaluation of immune sensor responses to a viral small noncoding RNA.

Author

Kara, Mehmet and Tibbetts, Scott A.

Subjects

PATTERN perception receptors, NON-coding RNA, B cells, TOLL-like receptors, IMMUNE recognition

Abstract

Introduction: Gammaherpesviruses are widespread pathogens causing persistent infections linked to the development of numerous types of lymphomas in humans. During latency, most of the viral protein-coding genes are suppressed, facilitating evasion of adaptive immune recognition of protein antigens. In contrast, many noncoding RNA (ncRNA) molecules are expressed in infected cells and can regulate key cellular pathways while simultaneously evading adaptive immune recognition. To counteract this, many cells express internal pattern recognition receptors that can intrinsically sense ongoing infections and initiate cellular defenses. Murine gammaherpesvirus 68 (MHV68) is a valuable model to study in vivo aspects of gammaherpesvirus pathogenesis. The MHV68 ncRNA TMER4 (tRNA-miRNA-encoding RNA 4) promotes lymph node egress of infected B cells: in the absence of TMER4, MHV68-infected B cells accumulate in the lymph node in a manner similar to B cells activated through specific antigen encounter. Method: We hypothesized that TMER4 may alter intrinsic immune activation. In research described here, we aimed to explore the immunomodulatory functions of TMER4 by evaluating its impact on signaling through the critical immune sensors Toll-like receptor 4 (TLR4), TLR3, TLR7, and retinoic acid-inducible gene I (RIG-I). To accomplish this, we developed a system to test noncoding RNAs using commercially available reporter cell lines. We optimized the experimental procedure to ensure ncRNA expression and to quantify immune sensory molecule induction or inhibition by the expressed ncRNA. Results and discussion: Expression of TMER4 RNAs from plasmid constructs did not alter TLR or RIG-I signaling. This study provides a clear experimental framework that can be applied to test other small ncRNAs for their impact on 0various innate immune sensor proteins. [ABSTRACT FROM AUTHOR]

Published

2024

29. Non-metabolic enzyme function of pyruvate kinase M2 in breast cancer.

Author

Jemal, Mohammed, Getinet, Mamaru, Amare, Gashaw Azanaw, Tegegne, Bantayehu Addis, Baylie, Temesgen, Mengistu, Enyew Fenta, Osman, Enatnesh Essa, Waritu, Nuredin Chura, and Adugna, Adane

Subjects

PYRUVATE kinase, TRANSCRIPTION factors, NON-coding RNA, BREAST cancer, ENZYME regulation

Abstract

Breast cancer (BC) is a prevalent malignant tumor in women, and its incidence has been steadily increasing in recent years. Compared with other types of cancer, it has the highest mortality and morbidity rates in women. So, it is crucial to investigate the underlying mechanisms of BC development and identify specific therapeutic targets. Pyruvate kinase M2 (PKM2), an important metabolic enzyme in glycolysis, has been found to be highly expressed in BC. It can also move to the nucleus and interact with various transcription factors and proteins, including hypoxia-inducible factor-1a (HIF-1a), signal transducer and activator of transcription 3 (STAT3), b-catenin, cellular-myelocytomatosis oncogene (c-Myc), nuclear factor kappa-light-chain enhancer of activated B cells (NF-kB), and mammalian sterile 20-like kinase 1 (MST1). This interaction leads to non-metabolic functions that control the cell cycle, proliferation, apoptosis, migration, invasion, angiogenesis, and tumor microenvironment in BC. This review provides an overview of the latest advancements in understanding the interactions between PKM2 and different transcription factors and proteins that influence the initiation and progression of BC. It also examined how natural drugs and noncoding RNAs affect various biological processes in BC cells through the regulation of the non-metabolic enzyme functions of PKM2. The findings provide valuable insights for improving the prognosis and developing targeted therapies for BC in the coming years. [ABSTRACT FROM AUTHOR]

Published

2024

30. Quest for Orthologs in the Era of Biodiversity Genomics.

Author

Langschied, Felix, Bordin, Nicola, Cosentino, Salvatore, Fuentes-Palacios, Diego, Glover, Natasha, Hiller, Michael, Hu, Yanhui, Huerta-Cepas, Jaime, Coelho, Luis Pedro, Iwasaki, Wataru, Majidian, Sina, Manzano-Morales, Saioa, Persson, Emma, Richards, Thomas A, Gabaldón, Toni, Sonnhammer, Erik, Thomas, Paul D, Dessimoz, Christophe, and Ebersberger, Ingo

Subjects

*COMPARATIVE genetics, *GENE families, *ALTERNATIVE RNA splicing, *NON-coding RNA, *COMPARATIVE genomics

Abstract

The era of biodiversity genomics is characterized by large-scale genome sequencing efforts that aim to represent each living taxon with an assembled genome. Generating knowledge from this wealth of data has not kept up with this pace. We here discuss major challenges to integrating these novel genomes into a comprehensive functional and evolutionary network spanning the tree of life. In summary, the expanding datasets create a need for scalable gene annotation methods. To trace gene function across species, new methods must seek to increase the resolution of ortholog analyses, e.g. by extending analyses to the protein domain level and by accounting for alternative splicing. Additionally, the scope of orthology prediction should be pushed beyond well-investigated proteomes. This demands the development of specialized methods for the identification of orthologs to short proteins and noncoding RNAs and for the functional characterization of novel gene families. Furthermore, protein structures predicted by machine learning are now readily available, but this new information is yet to be integrated with orthology-based analyses. Finally, an increasing focus should be placed on making orthology assignments adhere to the findable, accessible, interoperable, and reusable (FAIR) principles. This fosters green bioinformatics by avoiding redundant computations and helps integrating diverse scientific communities sharing the need for comparative genetics and genomics information. It should also help with communicating orthology-related concepts in a format that is accessible to the public, to counteract existing misinformation about evolution. [ABSTRACT FROM AUTHOR]

Published

2024

31. Phosphate deficiency alters transcript isoforms via alternative transcription start sites.

Author

Reis, Rodrigo S., Clúa, Joaquín, Jaskolowski, Aime, Deforges, Jules, Jacques‐Vuarambon, Dominique, Guex, Nicolas, and Poirier, Yves

Subjects

*GENETIC transcription, *NON-coding RNA, *RNA sequencing, *HEME oxygenase, *ARABIDOPSIS thaliana

Abstract

SUMMARY: Alternative transcription start sites (TSS) are widespread in eukaryotes and can alter the 5′ UTR length and coding potential of transcripts. Here we show that inorganic phosphate (Pi) availability regulates the usage of several alternative TSS in Arabidopsis (Arabidopsis thaliana). In comparison to phytohormone treatment, Pi had a pronounced and specific effect on the usage of many alternative TSS. By combining short‐read RNA sequencing with long‐read sequencing of full‐length mRNAs, we identified a set of 45 genes showing alternative TSS under Pi deficiency. Alternative TSS affected several processes, such as translation via the exclusion of upstream open reading frames present in the 5′ UTR of RETICULAN LIKE PROTEIN B1 mRNA, and subcellular localization via removal of the plastid transit peptide coding region from the mRNAs of HEME OXYGENASE 1 and SULFOQUINOVOSYLDIACYLGLYCEROL 2. Several alternative TSS also generated shorter transcripts lacking the coding potential for important domains. For example, the EVOLUTIONARILY CONSERVED C‐TERMINAL REGION 4 (ECT4) locus, which encodes an N6‐methyladenosine (m6A) reader, strongly expressed under Pi deficiency a short noncoding transcript (named ALTECT4) ~550 nt long with a TSS in the penultimate intron. The specific and robust induction of ALTECT4 production by Pi deficiency led to the identification of a role for m6A readers in primary root growth in response to low phosphate that is dependent on iron and is involved in modulating cell division in the root meristem. Our results identify alternative TSS usage as an important process in the plant response to Pi deficiency. Significance Statement: Analysis of the alternative transcription start site (TSS) usage landscape revealed that phosphate deficiency induces the use of numerous alternative TSS in Arabidopsis, generating variant transcripts that have enhanced translation potential or encode truncated proteins with altered subcellular localization or domain composition. Phosphate deficiency resulted in the generation of a short noncoding RNA at the ECT4 locus, leading to the observation that ECT4 and its paralogs function in the response of roots to phosphate deficiency. [ABSTRACT FROM AUTHOR]

Published

2024

32. Bibliometric Analysis of ncRNA Studies in Diabetes Mellitus With Coronary Heart Disease: A Visualization Approach.

Author

Tang, Yu'e, Gu, Rifang, Rong, Jidong, and Nie, Xuqiang

Subjects

*RNA metabolism, *GENETICS of diabetes, *HEART diseases, *CORONARY disease, *DESCRIPTIVE statistics, *VISUALIZATION, *HYPERGLYCEMIA, *BIBLIOMETRICS, *BIOMARKERS

Abstract

Objectives: Non-coding RNA (ncRNA) plays a role in the development of diabetes and coronary heart disease. However, there is limited research on the association between ncRNA and these conditions. This study aims to conduct a bibliometric analysis and visualization of existing research to provide a comprehensive reference for future investigation in this field. Methods: We searched the China National Knowledge Infrastructure (CNKI) and Web of Science Core Collection (WoSCC) databases for articles published from 2012 to 2024. We analyzed publication volume, country of origin, authors, and keywords using Microsoft Office Excel, CiteSpace, and VOSviewer. Results: A total of 414 papers from 56 countries/regions, involving 298 authors, were analyzed. China had the highest number of publications (177), followed by the USA (90) and Italy (28). The number of publications generally shows an increasing trend. Collaborative research efforts were prevalent, with Katare Rajesh being the most cited author on average. International Journal of Molecular Sciences emerged as the most prolific journal in this field, while the article "MicroRNA profiling unveils hyperglycaemic memory in the diabetic heart" was identified as the most frequently cited. The analysis of keywords and literature indicates that current research predominantly focuses on the expression and mechanisms of ncRNA in disease, as well as its potential as a biomarker. Conclusion: Research on ncRNA in the context of diabetes and coronary heart disease has made notable strides, although it warrants further exploration. Through bibliometric and visual analysis, we elucidate the collaborative relationships among researchers, which can facilitate the identification of potential collaborators. Additionally, we delineate the key areas and emergent trends in this field, providing valuable insights that can guide researchers in selecting future research directions. Plain Language Summary: Tables and pictures are used to show the research status of ncRNA in diabetes mellitus with coronary heart disease This research explores the connection between a type of RNA called ncRNA and two common diseases: diabetes and coronary heart disease. We used a method called bibliometrics to analyze over 400 research papers published on this topic from 2012 to 2024. What we found: • The number of studies on ncRNA and diabetes with heart disease has been increasing over the past 12 years, indicating growing interest in this area. • China and the United States have published the most research on this topic, but international collaboration could further enhance the impact of these studies. • Some scientists, like Rajesh Katare, have made significant contributions to this field with their research on miRNA as a potential biomarker for heart disease in diabetes patients. • The most common journals publishing research on this topic include the International Journal of Molecular Sciences and the Journal of the American College of Cardiology. • The main focus of current research is understanding how ncRNA is expressed and functions in these diseases, and its potential as a biomarker for early diagnosis and treatment. Why this is important: • Diabetes and coronary heart disease are major health problems worldwide, causing significant illness and death. • ncRNA has the potential to be used as a biomarker for these diseases, which could lead to earlier diagnosis and better treatment options. • Understanding the role of ncRNA in these diseases could also help develop new treatments that target the underlying causes of the diseases. What's next: • Future research should focus on understanding the role of long noncoding RNA in diabetes and heart disease, as this type of RNA is thought to be important in regulating genes related to these diseases. • Increased international collaboration could. help further advance the field and improve the impact of research findings. [ABSTRACT FROM AUTHOR]

Published

2024

33. The regulatory landscape of interacting RNA and protein pools in cellular homeostasis and cancer.

Author

Gallardo-Dodd, Carlos J. and Kutter, Claudia

Abstract

Biological systems encompass intricate networks governed by RNA-protein interactions that play pivotal roles in cellular functions. RNA and proteins constituting 1.1% and 18% of the mammalian cell weight, respectively, orchestrate vital processes from genome organization to translation. To date, disentangling the functional fraction of the human genome has presented a major challenge, particularly for noncoding regions, yet recent discoveries have started to unveil a host of regulatory functions for noncoding RNAs (ncRNAs). While ncRNAs exist at different sizes, structures, degrees of evolutionary conservation and abundances within the cell, they partake in diverse roles either alone or in combination. However, certain ncRNA subtypes, including those that have been described or remain to be discovered, are poorly characterized given their heterogeneous nature. RNA activity is in most cases coordinated through interactions with RNA-binding proteins (RBPs). Extensive efforts are being made to accurately reconstruct RNA-RBP regulatory networks, which have provided unprecedented insight into cellular physiology and human disease. In this review, we provide a comprehensive view of RNAs and RBPs, focusing on how their interactions generate functional signals in living cells, particularly in the context of post-transcriptional regulatory processes and cancer. [ABSTRACT FROM AUTHOR]

Published

2024

34. MicroRNA expression profile in the basal plate of human placenta associates with spontaneous preterm birth.

Author

Tiensuu, Heli, Haapalainen, Antti M., Tissarinen, Pinja, Pasanen, Anu, Hallman, Mikko, and Rämet, Mika

Abstract

MicroRNAs regulate post-transcriptional gene expression. Their expression has been linked to many pregnancy complications, including preterm birth. Placental microRNA levels differ between preterm and term pregnancies. Not much is known about the targets that are affected by these differences in microRNA expression. We investigated associations between microRNA expression levels in the basal plate of the placenta and their targets and the onset of preterm birth. MiRNAomes of spontaneous preterm (n = 6) and term (n = 6) placentas were characterized using RNA sequencing. MicroRNA target and enrichment analyses were performed to explore potential gene targets and pathways. Selected findings were validated using qPCR (n = 41). MicroRNA mimic transfection and luciferase reporter assays were performed to test if certain microRNAs regulate their predicted target, SLIT2 , the expression of which has been shown to associate with preterm birth. We identified 39 differentially expressed microRNAs from the preterm placentas compared to term. Many downregulated microRNAs were from the placenta-specific C14MC microRNA cluster. Target gene and pathway analyses showed that microRNAs that associate with preterm birth target transcription related factors and genes linked with protein binding and invasive pathways. Eight of the identified microRNAs putatively target SLIT2 , including miR-766-3p and miR-489-3p. Luciferase reporter assay suggested that these microRNAs regulate SLIT2 expression. MicroRNA expression changes are associated with spontaneous preterm birth. A group of microRNAs targeting the same gene or genes belonging to the same pathway can have a significant effect on the critical processes maintaining pregnancy and placental functions. [Display omitted] • MicroRNA expression changes are associated with spontaneous preterm birth. • Placental miRNAs that associate with prematurity target transcription related factors. • Many of the miRNAs associated with preterm birth are from the C14MC miRNA cluster. [ABSTRACT FROM AUTHOR]

Published

2024

35. Regulatory effect of N6-methyladenosine on tumor angiogenesis.

Author

YuYan and Enwu Yuan

Subjects

RNA modification & restriction, NON-coding RNA, LIFE cycles (Biology), MESSENGER RNA, ADENOSINES

Abstract

Previous studies have demonstrated that genetic alterations governing epigenetic processes frequently drive tumor development and that modifications in RNA may contribute to these alterations. In the 1970s, researchers discovered that N6-methyladenosine (m6A) is the most prevalent form of RNA modification in advanced eukaryotic messenger RNA (mRNA) and noncoding RNA (ncRNA). This modification is involved in nearly all stages of the RNA life cycle. M6A modification is regulated by enzymes known as m6A methyltransferases (writers) and demethylases (erasers). Numerous studies have indicated that m6A modification can impact cancer progression by regulating cancer-related biological functions. Tumor angiogenesis, an important and unregulated process, plays a pivotal role in tumor initiation, growth, and metastasis. The interaction between m6A and ncRNAs is widely recognized as a significant factor in proliferation and angiogenesis. Therefore, this article provides a comprehensive review of the regulatory mechanisms underlying m6A RNA modifications and ncRNAs in tumor angiogenesis, as well as the latest advancements in molecular targeted therapy. The aim of this study is to offer novel insights for clinical tumor therapy. [ABSTRACT FROM AUTHOR]

Published

2024

36. ncRNA-mediated SOX4 overexpression correlates with unfavorable outcomes and immune infiltration in hepatocellular carcinoma.

Author

Li, Jing, Sun, Xinfeng, Lv, Minling, Han, Zhiyi, Zhong, Xin, Zhang, Wei, Hu, Rui, Feng, Wenxing, Ma, Mengqing, Huang, Qi, and Zhou, Xiaozhou

Subjects

GENE expression, IMMUNE checkpoint proteins, SOX transcription factors, GENE expression profiling, NON-coding RNA

Abstract

Background: The activity and number of immune cells in the tumor microenvironment are closely related to the overall survival of patients with hepatocellular carcinoma (HCC). The sex-determining region Y-box 4 (SOX4) gene is abnormally expressed in various tumor tissues and is critical for tumor development. However, the correlation between SOX4 expression in HCC and tumor immunity is unclear. Methods: SOX4 expression was explored using data from The Cancer Genome Atlas, and UALCAN databases. Real-time reverse transcription quantitative and western blotting were used to analyze SOX4 expression in several liver cancer cell lines. Additionally, correlations among SOX4 expression, cancer immune characteristics, and infiltrated immune cell gene marker sets in patients with HCC were analyzed using data from the Tumor Immune Estimation Resource, Gene Expression Profiling Interactive Analysis, and Tumor-Immune System Interactions databases. Moreover, we evaluated SOX4 expression in HCC tissues and the correlation of SOX4 expression with survival rate. Subsequently, noncoding RNAs (ncRNAs) responsible for SOX4 overexpression were identified using expression, correlation, and survival analyses. Results: SOX4 expression was significantly upregulated in HCC and correlated with a poor prognosis. Additionally, SOX4 upregulation in HCC positively correlated with immune cell infiltration, several biomarkers of immune cells, and immune checkpoint expression. Finally, the MCM3AP-AS1/hsa-miR-204-5p axis was identified as the most likely upstream ncRNA-related pathway for SOX4 in HCC. These results indicated that ncRNA-mediated upregulation of SOX4 correlated with the immune infiltration level and poor prognosis in HCC. Our findings provide new directions for the development of novel immunotherapeutic targets for HCC. [ABSTRACT FROM AUTHOR]

Published

2024

37. Noncoding RNAs in the COVID-19 Saga: An Untold Story.

Author

Maqbool, Mudasir, Hussain, Md Sadique, Shaikh, Nusrat K., Sultana, Ayesha, Bisht, Ajay Singh, and Agrawal, Mohit

Subjects

*CYTOKINE release syndrome, *SARS-CoV-2, *NON-coding RNA, *TYPE I interferons, *BLOOD coagulation

Abstract

In late 2019, the SARS-CoV-2 virus emerged as the cause of COVID-19, triggering a worldwide pandemic of unprecedented scale. A detailed comprehension is being established to elucidate the severe immunopathological condition in critical cases of COVID-19. Noncoding RNAs (ncRNAs) are the transcribed but untranslated part of the genome that used to be ignored or disregarded until recent times. The latest research has revealed the intricate role played by the immune system in responding to SARS-CoV-2 and the development of COVID-19, affecting important aspects such as cytokine storm syndrome, changes in blood clotting, attraction of immune cells, and regulation of blood vessels. Exploring the possibilities of host–virus RNA interactions and RNA-RBP interactions has garnered significant interest. Following SARS-CoV-2 infection, the levels of certain ncRNAs change to indirectly control the expression of antiviral genes and viral gene replication. Certain ncRNAs are utilized by SARS-CoV-2 to assist the virus in evading the immune system by reducing the production of type I interferon (IFN-1) and regulating cytokine levels. [ABSTRACT FROM AUTHOR]

Published

2024

38. Advances in noncoding RNA in children allergic rhinitis.

Author

Li, Shuman, Cui, Hongtao, Lu, Huina, Zheng, Shan, and Yuan, Chao

Abstract

Background: A chronic condition that significantly reduces a child's quality of life is allergic rhinitis (AR). The environment and allergens that the body is regularly exposed to can cause inflammatory and immunological reactions, which can change the expression of certain genes Epigenetic changes are closely linked to the onset and severity of allergy disorders according to mounting amounts of data. Noncoding RNAs (ncRNAs) are a group of RNA molecules that cannot be converted into polypeptides. The three main categories of ncRNAs include microRNAs (miRNAs), long noncoding RNAs (lncRNAs), and circular RNAs (circRNAs). NcRNAs play a crucial role in controlling gene expression and contribute to the development of numerous human diseases. Methods: Articles are selected based on Pubmed's literature review and the author's personal knowledge. The largest and highest quality studies were included. The search selection is not standardized. Results: Recent findings indicate that various categories of ncRNAs play distinct yet interconnected roles and actively contribute to intricate gene regulatory networks. Conclusion: This article demonstrates the significance and progress of ncRNAs in children's AR. The database covers three key areas: miRNAs, lncRNAs, and circRNAs. Additionally, potential avenues for future research to facilitate the practical application of ncRNAs as therapeutic targets and biomarkers will be explore. [ABSTRACT FROM AUTHOR]

Published

2024

39. NPI-DCGNN: An Accurate Tool for Identifying ncRNA-Protein Interactions Using a Dual-Channel Graph Neural Network.

Author

Zhang, Xin, Zhao, Liangwei, Chai, Ziyi, Wu, Hao, Yang, Wei, Li, Chen, Jiang, Yu, and Liu, Quanzhong

Subjects

*GRAPH neural networks, *NON-coding RNA, *REPRESENTATIONS of graphs, *MOLECULAR graphs, *DATABASES, *BIPARTITE graphs

Abstract

Noncoding RNA (NcRNA)-protein interactions (NPIs) play fundamentally important roles in carrying out cellular activities. Although various predictors based on molecular features and graphs have been published to boost the identification of NPIs, most of them often ignore the information between known NPIs or exhibit insufficient learning ability from graphs, posing a significant challenge in effectively identifying NPIs. To develop a more reliable and accurate predictor for NPIs, in this article, we propose NPI-DCGNN, an end-to-end NPI predictor based on a dual-channel graph neural network (DCGNN). NPI-DCGNN initially treats the known NPIs as an ncRNA-protein bipartite graph. Subsequently, for each ncRNA-protein pair, NPI-DCGNN extracts two local subgraphs centered around the ncRNA and protein, respectively, from the bipartite graph. After that, it utilizes a dual-channel graph representation learning layer based on GNN to generate high-level feature representations for the ncRNA-protein pair. Finally, it employs a fully connected network and output layer to predict whether an interaction exists between the pair of ncRNA and protein. Experimental results on four experimentally validated datasets demonstrate that NPI-DCGNN outperforms several state-of-the-art NPI predictors. Our case studies on the NPInter database further demonstrate the prediction power of NPI-DCGNN in predicting NPIs. With the availability of the source codes (https://github.com/zhangxin11111/NPI-DCGNN), we anticipate that NPI-DCGNN could facilitate the studies of ncRNA interactome by providing highly reliable NPI candidates for further experimental validation. [ABSTRACT FROM AUTHOR]

Published

2024

40. MicroRNAs as commonly expressed biomarkers for sarcopenia and frailty: A systematic review

Author

Hyung Eun Shin, Jae Young Jang, Heeeun Jung, Chang Won Won, and Miji Kim

Subjects

Noncoding RNA, miRNA, Biomarker, Sarcopenia, Frailty, Medicine, Biology (General), QH301-705.5

Abstract

Background: Coexistent sarcopenia and frailty is more strongly associated with adverse health outcomes than each condition alone. As the importance of coexistent sarcopenia and frailty increases, exploring their underlying mechanisms is warranted. Recently, noncoding ribonucleic acids (RNAs) have been suggested as potential biomarkers of sarcopenia and frailty. This systematic review aimed to summarize noncoding RNAs commonly expressed in sarcopenia and frailty, and to search the predicted target genes and biological pathways of them. Methods: We systematically searched the literatures on PubMed, Embase, Cochrane Library, Web of Science, and Scopus for literature published till November 15, 2023. A total of 7,202 literatures were initially retrieved. After de-duplication, 34 studies (26 sarcopenia-related and 8 frailty-related) were full-text reviewed, and 15 studies (11 sarcopenia-related and 4 frailty-related) were finally included. Results: miR-29a-3p, miR-29b-3p, and miR-328 were identified as commonly expressed in same direction in sarcopenia and frailty. These microRNAs (miRNAs), identified in the literature search using PubMed, modulate transforming growth factor-β signaling via extracellular matrix components and calcineurin/nuclear factor of activated T cells 3 signaling via sarcoplasmic/endoplasmic reticulum Ca2+ ATPase 2a, which are involved in regulating skeletal muscle fibrosis and the growth of slow-twitch muscle fibers, respectively. miR-155-5p, miR-486, and miR-23a-3p were also commonly expressed in two conditions, although in different or conflicting directions. Conclusion: In this systematic review, we highlight the potential of shared miRNAs that exhibit consistent expression patterns as biomarkers for the early diagnosis and progression assessment of both sarcopenia and frailty.

Published

2024

41. Intravenous and oral administration of the synthetic RNA drug, TY1, reverses heart failure with preserved ejection fraction in mice

Author

Miyamoto, Kazutaka, Jones, Xaviar M., Yamaguchi, Shukuro, Ciullo, Alessandra, Li, Chang, Coto, Joshua Godoy, Tsi, Kara, Anderson, Jessica, Morris, Ashley, Marbán, Eduardo, and Ibrahim, Ahmed Gamal-Eldin

Published

2024

42. Vitexin mitigates oxidative stress, mitochondrial damage, pyroptosis and regulates small nucleolar RNA host gene 1/DNA methyltransferase 1/microRNA-495 axis in sepsis-associated acute lung injury

Author

Zaki, Almaz, Mohsin, Mohd, Khan, Salman, Khan, Aman, Ahmad, Shaniya, Verma, Amit, Ali, Shakir, Fatma, Tasneem, and Syed, Mansoor Ali

Published

2024

43. Exploring the Role of the TGF-β Signaling Pathway in Colorectal Precancerous Polyps Biochemical Genetics

Author

Sadri, Shadi, Aghajani, Ali, Soleimani, Hiva, Ghorbani Kalkhajeh, Sourena, Nazari, Haniyeh, Brouki Milan, Peiman, Peyravian, Noshad, Pezeshkian, Zahra, Malekzadeh Kebria, Maziar, Shirazi, Fatemeh, Shams, Elahe, Naderi Noukabadi, Fatemeh, Nazemalhosseini-Mojarad, Ehsan, and Salehi, Zahra

Published

2024

44. Unveiling the hidden players: noncoding RNAs orchestrating polyamine metabolism in disease

Author

Marianna Nicoletta Rossi, Cristian Fiorucci, Paolo Mariottini, and Manuela Cervelli

Subjects

Polyamines, Noncoding RNA, Gene expression, Polyamine metabolism, Biotechnology, TP248.13-248.65, Biology (General), QH301-705.5, Biochemistry, QD415-436

Abstract

Abstract Polyamines (PA) are polycations with pleiotropic functions in cellular physiology and pathology. In particular, PA have been involved in the regulation of cell homeostasis and proliferation participating in the control of fundamental processes like DNA transcription, RNA translation, protein hypusination, autophagy and modulation of ion channels. Indeed, their dysregulation has been associated to inflammation, oxidative stress, neurodegeneration and cancer progression. Accordingly, PA intracellular levels, derived from the balance between uptake, biosynthesis, and catabolism, need to be tightly regulated. Among the mechanisms that fine-tune PA metabolic enzymes, emerging findings highlight the importance of noncoding RNAs (ncRNAs). Among the ncRNAs, microRNA, long noncoding RNA and circRNA are the most studied as regulators of gene expression and mRNA metabolism and their alteration have been frequently reported in pathological conditions, such as cancer progression and brain diseases. In this review, we will discuss the role of ncRNAs in the regulation of PA genes, with a particular emphasis on the changes of this modulation observed in health disorders.

Published

2024

45. Murine Gammaherpesvirus 68 ORF45 Stimulates B2 Retrotransposon and Pre-tRNA Activation in a Manner Dependent on Mitogen-Activated Protein Kinase (MAPK) Signaling

Author

Lari, Azra and Glaunsinger, Britt A

Subjects

Biochemistry and Cell Biology, Biological Sciences, Genetics, Infectious Diseases, 2.1 Biological and endogenous factors, 1.1 Normal biological development and functioning, B2, MHV68, RNA polymerase III, SINE, herpesvirus, noncoding RNA, B2 SINE, MAPK, ORF36, ORF45, Microbiology

Abstract

RNA polymerase III (RNAPIII) transcribes a variety of noncoding RNAs, including tRNA (tRNA) and the B2 family of short interspersed nuclear elements (SINEs). B2 SINEs are noncoding retrotransposons that possess tRNA-like promoters and are normally silenced in healthy somatic tissue. Infection with the murine gammaherpesvirus MHV68 induces transcription of both SINEs and tRNAs, in part through the activity of the viral protein kinase ORF36. Here, we identify the conserved MHV68 tegument protein ORF45 as an additional activator of these RNAPIII loci. MHV68 ORF45 and ORF36 form a complex, resulting in an additive induction RNAPIII and increased ORF45 expression. ORF45-induced RNAPIII transcription is dependent on its activation of the extracellular signal-regulated kinase (ERK) mitogen-activated protein kinase (MAPK) signaling pathway, which in turn increases the abundance of the RNAPIII transcription factor Brf1. Other viral and nonviral activators of MAPK/ERK signaling also increase the levels of Brf1 protein, B2 SINE RNA, and tRNA, suggesting that this is a common strategy to increase RNAPIII activity. IMPORTANCE Gammaherpesviral infection alters the gene expression landscape of a host cell, including through the induction of noncoding RNAs transcribed by RNA polymerase III (RNAPIII). Among these are a class of repetitive genes known as retrotransposons, which are normally silenced elements and can copy and spread throughout the genome, and transfer RNAs (tRNAs), which are fundamental components of protein translation machinery. How these loci are activated during infection is not well understood. Here, we identify ORF45 from the model murine gammaherpesvirus MHV68 as a novel activator of RNAPIII transcription. To do so, it engages the MAPK/ERK signaling pathway, which is a central regulator of cellular response to environmental stimuli. Activation of this pathway leads to the upregulation of a key factor required for RNAPIII activity, Brf1. These findings expand our understanding of the regulation and dysregulation of RNAPIII transcription and highlight how viral cooption of key signaling pathways can impact host gene expression.

Published

2023

46. Subgenomic flavivirus RNA as key target for live-attenuated vaccine development.

Author

Doets, Kristel and Pijlman, Gorben P.

Subjects

*FLAVIVIRUSES, *VACCINE development, *TICK-borne encephalitis viruses, *JAPANESE encephalitis viruses, *WEST Nile virus

Abstract

Live-attenuated flavivirus vaccines confer long-term protection against disease, but the design of attenuated flaviviruses does not follow a general approach. The non-coding, subgenomic flavivirus RNA (sfRNA) is produced by all flaviviruses and is an essential factor in viral pathogenesis and transmission. We argue that modulating sfRNA expression is a promising, universal strategy to finetune flavivirus attenuation for developing effective flavivirus vaccines of the future. [ABSTRACT FROM AUTHOR]

Published

2024

47. Nuclear miR-451a activates KDM7A and leads to cetuximab resistance in head and neck squamous cell carcinoma.

Author

Zhai, Peisong, Tong, Tong, Wang, Xiaoning, Li, Chuwen, Liu, Chun, Qin, Xing, Li, Shu, Xie, Fei, Mao, Jiayi, Zhang, Jianjun, and Guo, Haiyan

Subjects

*CETUXIMAB, *SQUAMOUS cell carcinoma, *FLUORESCENCE in situ hybridization, *GENE expression, *NON-coding RNA, *LOGISTIC regression analysis

Abstract

Cetuximab resistance has been a major challenge for head and neck squamous cell carcinoma (HNSCC) patients receiving targeted therapy. However, the mechanism that causes cetuximab resistance, especially microRNA (miRNA) regulation, remains unclear. Growing evidence suggests that miRNAs may act as "nuclear activating miRNAs" for targeting promoter regions or enhancers related to target genes. This study elucidates a novel mechanism underlying cetuximab resistance in HNSCC involving the nuclear activation of KDM7A transcription via miR-451a. Herein, small RNA sequencing, quantitative real-time polymerase chain reaction (qRT‒PCR) and fluorescence in situ hybridization (FISH) results provided compelling evidence of miR-451a nuclear enrichment in response to cetuximab treatment. Chromatin isolation via RNA purification, microarray analysis, and bioinformatic analysis revealed that miR-451a interacts with an enhancer region in KDM7A, activating its expression and further facilitating cetuximab resistance. It has also been demonstrated that the activation of KDM7A by nuclear miR-451a is induced by cetuximab treatment and is AGO2 dependent. Logistic regression analyses of 87 HNSCC samples indicated the significance of miR-451a and KDM7A in the development of cetuximab resistance. These discoveries support the potential of miR-451a and KDM7A as valuable biomarkers for cetuximab resistance and emphasize the function of nuclear-activating miRNAs. [ABSTRACT FROM AUTHOR]

Published

2024

48. Unveiling the hidden players: noncoding RNAs orchestrating polyamine metabolism in disease.

Author

Rossi, Marianna Nicoletta, Fiorucci, Cristian, Mariottini, Paolo, and Cervelli, Manuela

Subjects

NON-coding RNA, RNA metabolism, ION channels, LINCRNA, GENE expression, METABOLISM, CELLULAR control mechanisms

Abstract

Polyamines (PA) are polycations with pleiotropic functions in cellular physiology and pathology. In particular, PA have been involved in the regulation of cell homeostasis and proliferation participating in the control of fundamental processes like DNA transcription, RNA translation, protein hypusination, autophagy and modulation of ion channels. Indeed, their dysregulation has been associated to inflammation, oxidative stress, neurodegeneration and cancer progression. Accordingly, PA intracellular levels, derived from the balance between uptake, biosynthesis, and catabolism, need to be tightly regulated. Among the mechanisms that fine-tune PA metabolic enzymes, emerging findings highlight the importance of noncoding RNAs (ncRNAs). Among the ncRNAs, microRNA, long noncoding RNA and circRNA are the most studied as regulators of gene expression and mRNA metabolism and their alteration have been frequently reported in pathological conditions, such as cancer progression and brain diseases. In this review, we will discuss the role of ncRNAs in the regulation of PA genes, with a particular emphasis on the changes of this modulation observed in health disorders. [ABSTRACT FROM AUTHOR]

Published

2024

49. Tracing vitamins on the long non-coding lane of the transcriptome: vitamin regulation of LncRNAs.

Author

Yazarlou, Fatemeh, Alizadeh, Fatemeh, Lipovich, Leonard, Giordo, Roberta, and Ghafouri-Fard, Soudeh

Abstract

A major revelation of genome-scale biological studies in the post-genomic era has been that two-thirds of human genes do not encode proteins. The majority of non-coding RNA transcripts in humans are long non-coding RNA (lncRNA) molecules, non-protein-coding regulatory transcripts with sizes greater than 500 nucleotides. LncRNAs are involved in nearly every aspect of cellular physiology, playing fundamental regulatory roles both in normal cells and in disease. As result, they are functionally linked to multiple human diseases, from cancer to autoimmune, inflammatory, and neurological disorders. Numerous human conditions and diseases stem from gene-environment interactions; in this regard, a wealth of reports demonstrate that the intake of specific and essential nutrients, including vitamins, shapes our transcriptome, with corresponding impacts on health. Vitamins command a vast array of biological activities, acting as coenzymes, antioxidants, hormones, and regulating cellular proliferation and coagulation. Emerging evidence suggests that vitamins and lncRNAs are interconnected through several regulatory axes. This type of interaction is expected, since lncRNA has been implicated in sensing the environment in eukaryotes, conceptually similar to riboswitches and other RNAs that act as molecular sensors in prokaryotes. In this review, we summarize the peer-reviewed literature to date that has reported specific functional linkages between vitamins and lncRNAs, with an emphasis on mammalian models and humans, while providing a brief overview of the source, metabolism, and function of the vitamins most frequently investigated within the context of lncRNA molecular mechanisms, and discussing the published research findings that document specific connections between vitamins and lncRNAs. [ABSTRACT FROM AUTHOR]

Published

2024

50. Perspective and Therapeutic Potential of the Noncoding RNA–Connexin Axis.

Author

Li, Xinmu, Wang, Zhenzhen, and Chen, Naihong

Subjects

*CENTRAL nervous system diseases, *NON-coding RNA, *CONNEXINS, *CONNEXIN 43, *CELL physiology, *PROTEIN-protein interactions

Abstract

Noncoding RNAs (ncRNAs) are a class of nucleotide sequences that cannot be translated into peptides. ncRNAs can function post-transcriptionally by splicing complementary sequences of mRNAs or other ncRNAs or by directly engaging in protein interactions. Over the past few decades, the pervasiveness of ncRNAs in cell physiology and their pivotal roles in various diseases have been identified. One target regulated by ncRNAs is connexin (Cx), a protein that forms gap junctions and hemichannels and facilitates intercellular molecule exchange. The aberrant expression and misdistribution of connexins have been implicated in central nervous system diseases, cardiovascular diseases, bone diseases, and cancer. Current databases and technologies have enabled researchers to identify the direct or indirect relationships between ncRNAs and connexins, thereby elucidating their correlation with diseases. In this review, we selected the literature published in the past five years concerning disorders regulated by ncRNAs via corresponding connexins. Among it, microRNAs that regulate the expression of Cx43 play a crucial role in disease development and are predominantly reviewed. The distinctive perspective of the ncRNA–Cx axis interprets pathology in an epigenetic manner and is expected to motivate research for the development of biomarkers and therapeutics. [ABSTRACT FROM AUTHOR]

Published

2024