Noncoding RNAs in acute kidney injury

Ren, Gui-Ling; Zhu, Jie; Li, Jun; Meng, Xiao‐Ming

doi:10.1002/jcp.27203

Cited by 69 publications

(50 citation statements)

References 135 publications

(216 reference statements)

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“…Godwin et al first compared the genome-wide miRNA expression profile between I/R-and Sham-treated kidneys 20 . Several specific miRNAs, such as miR-24, miR-30a, miR-146, and miR-210, were also investigated in subsequent studies 21 . Accumulating evidence has elucidated that miR-21 protected renal epithelial cells against hypoxic and inflammatory injury and participated in renal protection of delayed IPC 2 , xenon preconditioning 22 , and delayed remote IPC 23 in AKI.…”

Section: Discussionmentioning

confidence: 99%

LncRNA GAS5 promotes apoptosis as a competing endogenous RNA for miR-21 via thrombospondin 1 in ischemic AKI

et al. 2020

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Mounting evidence has indicated that long noncoding RNAs (lncRNAs) and microRNAs (miRNAs) played important roles in renal ischemia/reperfusion (I/R) injury. However, the involvement of lncRNA growth arrest specific 5 (GAS5) in acute kidney injury (AKI) remained largely unexplored. This study aimed to determine possible mechanisms of GAS5 in the renal I/R process. We found that GAS5, noticeably upregulated by renal I/R injury, was further suppressed by delayed IPC while knockdown of miR-21 in vivo before IPC could significantly increased the GAS5 levels. Concurrently, TSP-1 was negatively regulated by miR-21 in vivo and vitro. Additionally, Reciprocal repression of GAS5 and miR-21 was identified. Knockdown of miR-21 in H6R0.5 treated HK-2 cells promoted apoptosis. Co-transfection of miR-21 mimic and pcDNA-GAS5 or pcDNA-Vector were performed, results of which showed that inhibition of miR-21 on TSP-1 could be rescued by overexpression of GAS5. This study suggested that GAS5 facilitated apoptosis by competitively sponging miR-21, which negatively regulated TSP-1 in renal I/R injury. This novel regulatory axis could act as a therapeutic target for AKI in the future.

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Section: Discussionmentioning

confidence: 99%

LncRNA GAS5 promotes apoptosis as a competing endogenous RNA for miR-21 via thrombospondin 1 in ischemic AKI

et al. 2020

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“…Modulation of renal disease-specific miRNAs (e.g., miR-24, miR-26, miR-126, and miR-205) has demonstrated encouraging therapeutic outcomes in animal models of AKI. These findings indicate that miRNAs serve as key regulators and potential therapeutic targets for AKI (10). Previous studies also indicate that miRNAs confer function through specific targeting of molecules correlated with necroptosis.…”

Section: Discussionmentioning

confidence: 57%

“…They are also well-studied epigenetic regulators; miRNAs bind to mRNAs during posttranscriptional regulation, with their primary function involving degradation of target mRNAs. Accumulating evidence shows that miRNAs play a significant role in AKI (10,20). Knockout of dicer block miRNAs alleviates renal damage induced by ischemic reperfusion injury (21).…”

Section: Discussionmentioning

confidence: 99%

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hsa‐miR‐500a‐3P alleviates kidney injury by targeting MLKL‐mediated necroptosis in renal epithelial cells

Jiang

Liu

et al. 2018

FASEB j.

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MLKL is a central mediator for necroptosis. Its knockout significantly relieves acute kidney injury (AKI). However, its upstream regulatory mechanism in AKI has not been fully elucidated. We recently reviewed how microRNAs (miRNAs), a type of well‐studied epigenetic regulator, play critical roles in AKI. Here, we evaluated miRNAs that potentially target MLKL and evaluated their function in human tubular epithelial cells in response to toxic and ischemic insults. TargetScan analysis showed that miR‐194‐5P, miR‐338‐3P, miR‐500a‐3P, and miR‐577 had MLKL binding sites. Although all 4 miRNAs are reduced in AKI, our data show that only hsa‐miR‐500a‐3P was significantly suppressed in cisplatin‐treated human tubular epithelial (HK2) cells. We further found that hsa‐miR‐500a‐3P alleviated cisplatin‐induced HK2 cell death, which was confirmed by transmission electron microscopy and flow cytometry. In addition, overexpression of hsa‐miR‐500a‐3P decreased kidney injury molecule‐1 mRNA and protein levels. Real‐time PCR, ELISA, and immunofluorescence data show that hsa‐miR‐500a‐3P protected against inflammatory response, evidenced by decreased monocyte chemotactic protein‐1 and proinflammatory cytokines TNF‐α and IL‐8. Further, hsa‐miR‐500a‐3P attenuated P65 NF‐κB phosphorylation and promoter activity. Mechanistically, luciferase reporter assay showed that hsa‐miR‐500a‐3P bound the 3′UTR of MLKL, thereby suppressing phosphorylation and membrane translocation of MLKL. In agreement with these findings, we identified that overexpression of hsa‐miR‐500a‐3P attenuated cell injury and the inflammatory response in response to sodium azide treatment in an in vitro model. Results show that circulating exosomes from patients with AKI down‐regulated miR‐500a‐3P, which suppressed cell injury and inflammation in HK2 cells. hsa‐miR‐500a‐3P alleviated toxic and ischemic insults that were triggered by cell necroptosis and the inflammatory response in human HK2 cells by targeting MLKL. This may serve as a novel therapeutic target for treatment of AKI.—Jiang, L., Liu, X.‐Q., Ma, Q., Yang, Q., Gao, L., Li, H.‐D., Wang, J.‐N., Wei, B., Wen, J., Li, J., Wu, Y.‐G., Meng, X.‐M. hsa‐miR‐500a‐3P alleviates kidney injury by targeting MLKL‐mediated necroptosis in renal epithelial cells. FASEB J. 33, 3523–3535 (2019). http://www.fasebj.org

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“…atherosclerotic vascular disease risk, neurological disorders, prion and Alzheimer diseases, rheumatoid arthritis or kidney injury. circRNAs can play a crucial role in tumorigenic processes in different types of cancers, such as: ovarian carcinoma, bladder, papillary thyroid, colorectal, lung or breast cancers (Hu et al, 2018b;Ren et al, 2018;Wang et al, 2018b;Yang et al, 2018a;Zhang et al, 2018). circRNAs were described also as potential disease biomarkers in human saliva and blood and as biomarkers for ageing and gastric cancer (Bachmayr-Heyda et al, circRNAs function as microRNA (miRNA) sponges .…”

Section: Introductionmentioning

confidence: 99%

Circular and long non-coding RNAs and their role in ophthalmologic diseases

et al. 2018

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Long non-coding RNAs are >200-nucleotide-long RNA molecules which lack or have limited protein-coding potential. They can regulate protein formation through several different mechanisms. Similarly, circular RNAs are reported to play a critical role in post-transcriptional gene regulation. Changes in the expression pattern of these molecules are known to underlie various diseases, including cancer, cardiovascular, neurological and immunological disorders (Rinn & Chang, 2012; Sun & Kraus, 2015). Recent studies suggest that they are differentially expressed both in healthy ocular tissues as well as in eye pathologies, such as neovascularization, proliferative vitreoretinopathy, glaucoma, cataract, ocular malignancy or even strabismus (Li et al., 2016). Aetiology of ocular diseases is multifactorial and combines genetic and environmental factors, including epigenetic and non-coding RNAs. In addition, disorders like diabetic retinopathy or age-related macular degeneration lack biomarkers for early detection as well as effective treatment methods that would allow controlling the disease progression at its early stages. The newly discovered non-coding RNAs seem to be the ideal candidates for novel molecular markers and therapeutic strategies. In this review, we summarized the current knowledge about gene expression regulators – long non-coding and circular RNA molecules in eye diseases.

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Noncoding RNAs in acute kidney injury

Cited by 69 publications

References 135 publications

LncRNA GAS5 promotes apoptosis as a competing endogenous RNA for miR-21 via thrombospondin 1 in ischemic AKI

LncRNA GAS5 promotes apoptosis as a competing endogenous RNA for miR-21 via thrombospondin 1 in ischemic AKI

hsa‐miR‐500a‐3P alleviates kidney injury by targeting MLKL‐mediated necroptosis in renal epithelial cells

Circular and long non-coding RNAs and their role in ophthalmologic diseases

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