Bernard Nsengimana scite author profile

The discovery of circular RNAs and exploration of their biological functions are increasingly attracting attention in cell bio-sciences. Owing to their unique characteristics of being highly conserved, having a relatively longer half-life, and involvement in RNA maturation, transportation, epigenetic regulation, and transcription of genes, it has been accepted that circRNAs play critical roles in the variety of cellular processes. One of the critical importance of these circRNAs is the presence of small open reading frames that enable them to encode peptides/proteins. In particular, these encoded peptides/proteins mediate essential cellular activities such as proliferation, invasion, epithelial–mesenchymal transition, and apoptosis and develop an association with the development and progression of cancers by modulating diverse signaling pathways. In addition, these peptides have potential roles as biomarkers for the prognosis of cancer and are being used as drug targets against tumorigenesis. In the present review, we thoroughly discussed the biogenesis of circRNAs and their functional mechanisms along with a special emphasis on the reported chimeric peptides/proteins encoded by circRNAs. Additionally, this review provides a perspective regarding the opportunities and challenges to the potential use of circRNAs in cancer diagnosis and therapeutic targets in clinics.

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Differential Effects of Beta-Hydroxybutyrate Enantiomers on Induced Pluripotent Stem Derived Cardiac Myocyte Electrophysiology

Klos

Hou

Nsengimana

et al. 2022

Biomolecules

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Beta-hydroxybutyrate (βOHB), along with acetoacetate and acetone, are liver-produced ketone bodies that are increased after fasting or prolonged exercise as an alternative fuel source to glucose. βOHB, as the main circulating ketone body, is not only a G-protein coupled receptor ligand but also a histone deacetylases inhibitor, prompting the reexamination of its role in health and disease. In this study, we compared the effects of two commercial βOHB formulations an enantiomer R βOHB and a racemic mixture ± βOHB on induced pluripotent stem cell cardiac myocytes (iPS-CMs) electrophysiology. Cardiac myocytes were cultured in R βOHB or ± βOHB for at least ten days after lactate selection. Flouvolt or Fluo-4 was used to assay iPS-CMs electrophysiology. We found that while both formulations increased the optical potential amplitude, R βOHB prolonged the action potential duration but ± βOHB shortened the action potential duration. Moreover, ± βOHB increased the peak calcium transient but R βOHB reduced the peak calcium transient. Co-culturing with glucose or fatty acids did not ameliorate the effects, suggesting that βOHB was more than a fuel source. The effect of βOHB on iPS-CMs electrophysiology is most likely stereoselective, and care must be taken to evaluate the role of exogenous βOHB in health and disease.

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Differential expression profiles of circRNAs in cancers: Future clinical and diagnostic perspectives

Khan¹,

Nsengimana²,

Khan³

et al. 2022

GPD

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Since decades ago, circular RNAs (circRNAs) have been known for their critical role in RNA maturation, RNA transportation, epigenetic regulation, gene transcription, peptide/protein translation, and interaction with proteins to modulate their activities. At present, circRNAs are being extensively studied as oncotargets in the onset and development of several malignancies and treatment resistance by modulating various signaling pathways and cellular processes such as ubiquitination, degradation, invasion, proliferation, c-Myc oncoprotein stabilization, epithelial-mesenchymal transition, autophagy, and apoptosis. In addition, circRNAs are known to be highly conserved, have a longer life span than other RNAs, and their differential expressions are implicated in solid tumors and hematological malignancies. However, their potential diagnostic and therapeutic targets are not fully elucidated. Therefore, we sought to underline the opportunities and constraints associated with using these oncotargets in cancer therapy by outlining the functional mechanisms of circRNAs and their ectopic expression in distinct malignancies. The clinical applications of circRNAs in developing progressive markers like liquid biopsy biomarkers and for treating cancers are also prospected in this paper.

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Pseudogenes and Liquid Phase Separation in Epigenetic Expression

et al. 2022

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Pseudogenes have been considered as non-functional genes. However, peptides and long non-coding RNAs produced by pseudogenes are expressed in different tumors. Moreover, the dysregulation of pseudogenes is associated with cancer, and their expressions are higher in tumors compared to normal tissues. Recent studies show that pseudogenes can influence the liquid phase condensates formation. Liquid phase separation involves regulating different epigenetic stages, including transcription, chromatin organization, 3D DNA structure, splicing, and post-transcription modifications like m6A. Several membrane-less organelles, formed through the liquid phase separate, are also involved in the epigenetic regulation, and their defects are associated with cancer development. However, the association between pseudogenes and liquid phase separation remains unrevealed. The current study sought to investigate the relationship between pseudogenes and liquid phase separation in cancer development, as well as their therapeutic implications.

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