Long Noncoding RNAs in Cardiovascular Diseases

Uchida, Shizuka; Dimmeler, Stefanie

doi:10.1161/circresaha.116.302521

Cited by 665 publications

(495 citation statements)

References 113 publications

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“…Martianov et al 29) demonstrated that noncoding RNA could directly interact with the general transcription factor IIB and format a stable complex, which could dissociate the preinitiation complex and major promoter, thus decreasing dihydrofolate reductase gene expression. Wang et al 30) found that ncRNACCND1 could recruit an RNA-binding protein chain); (c) Intronic: stemming from the introns of the protein-coding genes; (d) Intergenic: located between two protein-coding genes [termed long intergenic noncoding RNAs (lincRNAs)]; and (e) Bidirectional: produced by the upstream sequence and the opposite direction of protein-coding genes 3,14) .…”

Section: Transcriptional Regulationmentioning

confidence: 99%

“…Differential transcript variants have different regulations and biological properties suggest a complex mechanism of ANRIL, which makes its function poorly understood 3) . Jarinova et al 46) found that the levels of the short variants DQ485454 and EU741058 were increased and the long variant DQ485453 was decreased in the whole blood RNA from the carriers of the risk alleles.…”

Section: Long Noncoding Rnas Regulate the Function Of Ecsmentioning

confidence: 99%

“…In contrast to the small number of coding transcripts ( 3%) of the total genome, the majority of noncoding transcripts ( 80%) has been previously described as "junk" transcripts or transcriptional noise 2,3) . Because the first lncRNA X inactive specific transcript (XIST) was initially discovered in the 1990s 4,5) , several lncRNAs that play vital roles in cancer progression and metastasis, cell proliferation, and apoptosis were identified by a growing number of studies [6][7][8] .…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Long Noncoding RNAs in Atherosclerosis

Jian

Chen

et al. 2016

J Atheroscler Thromb

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Section: Transcriptional Regulationmentioning

confidence: 99%

Section: Long Noncoding Rnas Regulate the Function Of Ecsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Long Noncoding RNAs in Atherosclerosis

Jian

Chen

et al. 2016

J Atheroscler Thromb

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“…Importantly, more and more studies have found that lncRNA was a new regulatory factor in cardiovascular diseases 5. LncRNA Mhrt could antagonize the function of Brg1, a chromatin‐remodelling factor that is activated by stress to trigger aberrant gene expression and cardiac myopathy, protecting the heart from pathological hypertrophy 6.…”

Section: Introductionmentioning

confidence: 99%

Integrative analysis of competing endogenous RNA networks reveals the functional lncRNAs in heart failure

Fan

Gao

Chen

et al. 2018

J Cellular Molecular Medi

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Heart failure has become one of the top causes of death worldwide. It is increasing evidence that lncRNAs play important roles in the pathology processes of multiple cardiovascular diseases. Additionally, lncRNAs can function as ceRNAs by sponging miRNAs to affect the expression level of mRNAs, implicating in numerous biological processes. However, the functional roles and regulatory mechanisms of lncRNAs in heart failure are still unclear. In our study, we constructed a heart failure‐related lncRNA‐mRNA network by integrating probe re‐annotation pipeline and miRNA‐target interactions. Firstly, some lncRNAs that had the central topological features were found in the heart failure‐related lncRNA‐mRNA network. Then, the lncRNA‐associated functional modules were identified from the network, using bidirectional hierarchical clustering. Some lncRNAs that involved in modules were demonstrated to be enriched in many heart failure‐related pathways. To investigate the role of lncRNA‐associated ceRNA crosstalks in certain disease or physiological status, we further identified the lncRNA‐associated dysregulated ceRNA interactions. And we also performed a random walk algorithm to identify more heart failure‐related lncRNAs. All these lncRNAs were verified to show a strong diagnosis power for heart failure. These results will help us to understand the mechanism of lncRNAs in heart failure and provide novel lncRNAs as candidate diagnostic biomarkers or potential therapeutic targets.

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“…An enhanced role for atherosclerotic disease burden rather than socalled vulnerable plaque in cardiovascular event prognosis, even in the case of non-obstructive CAD, also supports this hypothesis [5,6], and the disregulation of RNA expression in circulating cells appears to correlate with the burden of atherosclerosis [7,8]. In addition, extracellular RNAs, especially microRNAs, as well as long non-coding RNAs may also be of diagnostic utility [9,10]. Finally, recent analysis of the relative global importance of transcriptional and translational regulation of protein expression has suggested that the former has been underestimated in prior work and that transcriptional regulation accounts for a large majority of variation in the expressed genome, reinforcing the importance of examining RNA levels [11][12][13].…”

mentioning

confidence: 97%