Abstract
BackgroundElectronic-cigarette (e-cig) usage, particularly in the youth population, is a growing concern. It is known that e-cig causes endothelial dysfunction, which is a risk factor for the development of cardiovascular diseases; however, the mechanisms involved remain unclear. We hypothesized that long noncoding RNAs (lncRNAs) may play a role in e-cig-induced endothelial dysfunction.MethodsHere, we identified lncRNAs that are dysregulated in human induced pluripotent stem cell-derived endothelial cells (iPSC-ECs) following 24 h of e-cig aerosol extract treatment via microarray analysis. We performed Gene Ontology and Kyoto Encyclopedia of Genes and Genome (KEGG) pathway analyses of the dysregulated mRNAs following e-cig exposure and constructed co-expression networks of the top 5 upregulated lncRNAs and the top 5 downregulated lncRNAs and the mRNAs that are correlated with them. Furthermore, the functional effects of knocking down lncRNA lung cancer-associated transcript 1 (LUCAT1) on EC phenotypes were determined as it was one of the significantly upregulated lncRNAs following e-cig exposure based on our profiling.Results183 lncRNAs and 132 mRNAs were found to be upregulated, whereas 297 lncRNAs and 413 mRNAs were found to be downregulated after e-cig exposure. We also observed that e-cig caused dysregulation of endothelial metabolism resulting in increased FAO activity, higher mitochondrial membrane potential, and decreased glucose uptake and glycolysis. These results suggest that e-cig alters EC metabolism by increasing FAO to compensate for energy deficiency in ECs. Finally, the knockdown of LUCAT1 prevented e-cig-induced EC dysfunction by maintaining vascular barrier, reducing reactive oxygen species level, and increasing migration capacity.ConclusionThis study identifies an expression profile of differentially expressed lncRNAs and several potential regulators and pathways in ECs exposed to e-cig, which provide insights into the regulation of lncRNAs and mRNAs and the role of lncRNA and mRNA networks in ECs associated e-cig exposure.
Highlights
Electronic-cigarette (e-cig), a form of electronic nicotine delivering system (ENDS), functions by the vaporization of a solution, termed e-liquid, containing propylene glycol (PG) and/or vegetable glycerin (VG), flavoringLe et al Stem Cell Research & Therapy (2021) 12:593 agents, and with or without nicotine
We investigated the functional effects of knocking down long noncoding RNAs (lncRNAs) lung cancer-associated transcript 1 (LUCAT1), which was significantly upregulated after e-cig aerosol extract (EAE) treatment, on Endothelial cells (ECs) phenotypes in order to characterize its role in e-cig-induced endothelial dysfunction
Exposure to e‐cig leads to EC dysfunction To assess the effects of e-cig on EC phenotype and determine the appropriate range of EAE for transcriptomic profiling, Induced pluripotent stem cells (iPSC)-ECs differentiated from four healthy individuals-derived iPSCs (Additional file 1: Fig. S1) were treated with serial dilutions of menthol-flavored EAE at 24 mg/ml of nicotine for either 24 or 48 h
Summary
Electronic-cigarette (e-cig), a form of electronic nicotine delivering system (ENDS), functions by the vaporization of a solution, termed e-liquid, containing propylene glycol (PG) and/or vegetable glycerin (VG), flavoringLe et al Stem Cell Research & Therapy (2021) 12:593 agents, and with or without nicotine. Due to marketing centered around the relative safety of e-cigs, their popularity in recent years has challenged the market share of traditional combustible nicotine cigarettes. E-cigs have found an audience among adolescents, causing the US Surgeon General to declare ENDS usage in youths an epidemic [8]. Studies examining e-cigs in the cardiovascular context are limited, though there are studies that conclude detrimental effects on endothelial function, and their system effects [11, 13, 14]. Electronic-cigarette (e-cig) usage, in the youth population, is a growing concern. It is known that e-cig causes endothelial dysfunction, which is a risk factor for the development of cardiovascular diseases; the mechanisms involved remain unclear. We hypothesized that long noncoding RNAs (lncRNAs) may play a role in e-cig-induced endothelial dysfunction
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