miRNAs; a novel strategy for the treatment of COVID‐19

Hao, Ying; Ebrahimi, Mohsen; Keivan, Mona; Khoshnam, Seyed Esmaeil; Salahi, Sarvenaz; Farzaneh, Maryam

doi:10.1002/cbin.11653

Cited by 70 publications

(35 citation statements)

References 102 publications

(123 reference statements)

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“…Recent reports indicate that miRNAs could be promising tools for early diagnosis and treatment of COVID-19 infection. This alternative novel therapy with miRNA regulation could prevent disease progression and severe condition [14]. The miRNAs identi ed in the present study could be used as potential biomarkers for identi cation of individuals who could be more prone to develop severe symptoms of COVID-19 as well as could be used as putative targets for developing treatment strategies for COVID-19 in future.…”

Section: -3pmentioning

confidence: 80%

“…Host miRNA expression can be important anti-viral tool [11] as they stimulate immune response [12] by mediating T cells and antiviral effector functions [13]. Thus miRNA biomarkers could be an alternate treatment strategy for COVID-19 [14]. In addition, pathogeneis of several human diseases are associated with dysregulation of miRNAs and biological processes controlled by these miRNAs.…”

Section: Introductionmentioning

confidence: 99%

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Evaluation of altered miRNA expression pattern to predict COVID-19 severity.

Srivast

Garg

Singh³

et al. 2021

Preprint

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Outbreak of COVID-19 pandemic in December 2019 affected millions of people globally. After substantial research, there is no specific and reliable biomarker available till date. Present study was designed to identify specific biomarkers to predict COVID-19 severity and tool for formulating treatment. A small cohort of subjects (n=43) were enrolled and categorized in four study groups; Dead (n=16), Severe (n=10) and Moderate (n=7) patients and healthy controls (n=10). Small RNA sequencing was done on Illumina platform after isolation of microRNA from peripheral blood. Differential expression (DE) of miRNA (patients groups compared to control) revealed 118 down-regulated and 103 up-regulated known miRNAs with fold change (FC) expression ≥2 folds and p≤0.05. DE miRNAs were then subjected to functional enrichment and network analysis. Bioinformatic analysis resulted in 31 miRNAs (24 Down-regulated; 7 up-regulated) significantly associated with COVID-19 having AUC>0.8 obtained from ROC curve. Seventeen out of 31 DE miRNAs have been linked to COVID-19 in previous studies. Three miRNAs, hsa-miR-147b-5p and hsa-miR-107 (down-regulated) and hsa-miR-1299 (up-regulated) showed significant unique DE in Dead patients. Another set of 4 miRNAs, hsa-miR-224-5p (down-regulated) and hsa-miR-4659b-3p, hsa-miR-495-3p and hsa-miR-335-3p were differentially up-regulated uniquely in Severe patients. Members of three miRNA families, hsa-miR-20, hsa-miR-32 and hsa-miR-548 were significantly down-regulated in all patients group in comparison to healthy controls. Thus a distinct miRNA expression profile was observed in Dead, Severe and Moderate COVID-19 patients. Present study suggests a panel of miRNAs which identified in COVID-19 patients and could be utilized as potential diagnostic biomarkers for predicting COVID-19 severity.

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Section: -3pmentioning

confidence: 80%

Section: Introductionmentioning

confidence: 99%

Evaluation of altered miRNA expression pattern to predict COVID-19 severity.

Srivast

Garg

Singh³

et al. 2021

Preprint

View full text Add to dashboard Cite

show abstract

“…The genome of SARS-CoV-2 comprises a variable number of open reading frames (ORFs) with 5’ and 3’ flanking UTRs which code for accessory proteins, structural proteins including spike (S), membrane (M), and envelope (E) and nucleocapsid (N) along with 16 nonstructural proteins (nsps), which are encoded by the first ORF (ORF1/ab) through a frameshift mutation producing pp1 a and ab ( Fig. 1 ) [16] , [17] . Viral chymotrypsin-like protease (3CLpro) or the main protease (Mpro) and one or two papain-like proteases, play key roles in translational processing of these two polypeptides and convert them into 16 nsps.…”

Section: Sars-cov-2 Genome Structurementioning

confidence: 99%

Role of microRNAs in COVID-19 with implications for therapeutics

Arghiani¹,

Nissan²,

Matin³

2021

Biomedicine & Pharmacotherapy

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COVID-19 is a pneumonia-like disease with highly transmittable and pathogenic properties caused by severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), which infects both animals and humans. Although many efforts are currently underway to test possible therapies, there is no specific FDA approved drug against SARS-CoV-2 yet. miRNA-directed gene regulation controls the majority of biological processes. In addition, the development and progression of several human diseases are associated with dysregulation of miRNAs. In this regard, it has been shown that changes in miRNAs are linked to severity of COVID-19 especially in patients with respiratory diseases, diabetes, heart failure or kidney problems. Therefore, targeting these small noncoding-RNAs could potentially alleviate complications from COVID-19. Here, we will review the roles and importance of host and RNA virus encoded miRNAs in COVID-19 pathogenicity and immune response. Then, we focus on potential miRNA therapeutics in the patients who are at increased risk for a severe disease.

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“…Other factors that have previously been associated with epigenetic regulations of gene expression, disease, and recently implicated in COVID-19 are microRNA (miRNA) [161][162][163][164][165] and competitive endogenous RNA (ceRNA) [166][167][168][169]. miRNA has been associated with active COVID-19 infection with several molecular species upregulated (e.g., miR-31-5p) and down regulated [164].…”

Section: Epigenomicsmentioning

confidence: 99%

“Multiomics” Approaches to Understand and Treat COVID-19: Mass Spectrometry and Next-Generation Sequencing

Appiasie

Guerra²,

Tanguay

et al. 2021

BioChem

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In the race against COVID-19 for timely therapeutic developments, mass spectrometry-based high-throughput methods have been valuable. COVID-19 manifests an extremely diverse spectrum of phenotypes from asymptomatic to life-threatening, drastic elevations in immune response or cytokine storm, multiple organ failure and death. These observations warrant a detailed understanding of associated molecular mechanisms to develop therapies. In this direction, high-throughput methods that generate large datasets focusing on changes in protein interactions, lipid metabolism, transcription, and epigenetic regulation of gene expression are extremely beneficial sources of information. Hence, mass spectrometry-based methods have been employed in several studies to detect changes in interactions among host proteins, and between host and viral proteins in COVID-19 patients. The methods have also been used to characterize host and viral proteins, and analyze lipid metabolism in COVID-19 patients. Information obtained using the above methods are complemented by high-throughput analysis of transcriptomic and epigenomic changes associated with COVID-19, coupled with next-generation sequencing. Hence, this review discusses the most recent studies focusing on the methods described above. The results establish the importance of mass spectrometry-based studies towards understanding the infection process, immune imbalance, disease mechanism, and indicate the potential of the methods’ therapeutic developments and biomarker screening against COVID-19 and future outbreaks.

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miRNAs; a novel strategy for the treatment of COVID‐19

Cited by 70 publications

References 102 publications

Evaluation of altered miRNA expression pattern to predict COVID-19 severity.

Evaluation of altered miRNA expression pattern to predict COVID-19 severity.

Role of microRNAs in COVID-19 with implications for therapeutics

“Multiomics” Approaches to Understand and Treat COVID-19: Mass Spectrometry and Next-Generation Sequencing

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