A novel microRNA boosts hyper-β-oxidation of fatty acids in liver by impeding CEP350-mediated sequestration of PPARα and thus restricts chronic hepatitis C.
Cell Line
Fatty Acids
/ metabolism
Gene Expression Regulation
Hepacivirus
Hepatitis C, Chronic
/ diagnosis
Host-Pathogen Interactions
/ genetics
Humans
Lipid Metabolism
Liver
/ metabolism
MicroRNAs
/ chemistry
Microtubule Proteins
/ metabolism
Nuclear Proteins
/ metabolism
Nucleic Acid Conformation
Oxidation-Reduction
PPAR alpha
/ metabolism
Promoter Regions, Genetic
Protein Binding
RNA Interference
Severity of Illness Index
HCV
Lipid metabolism
hepatitis C virus
microrna
novel microRNA
Journal
RNA biology
ISSN: 1555-8584
Titre abrégé: RNA Biol
Pays: United States
ID NLM: 101235328
Informations de publication
Date de publication:
09 2020
09 2020
Historique:
pubmed:
9
6
2020
medline:
8
7
2021
entrez:
9
6
2020
Statut:
ppublish
Résumé
Imbalance in lipid metabolism induces steatosis in liver during Chronic hepatitis C (CHC). Contribution of microRNAs in regulating lipid homoeostasis and liver disease progression is well established using small RNA-transcriptome data. Owing to the complexity in the development of liver diseases, the existence and functional importance of yet undiscovered regulatory miRNAs in disease pathogenesis was explored in this study using the unmapped sequences of the transcriptome data of HCV-HCC liver tissues following miRDeep2.pl pipeline. MicroRNA-c12 derived from the first intron of LGR5 of chromosome 12 was identified as one of the miRNA like sequences retrieved in this analysis that showed human specific origin. Northern blot hybridization has proved its existence in the hepatic cell line. Enrichment of premiR-c12 in dicer-deficient cells and miR-c12 in Ago2-RISC complex clearly suggested that it followed canonical miRNA biogenesis pathway and accomplished its regulatory function. Expression of this miRNA was quite low in CHC tissues than normal liver implying HCV-proteins might be regulating its biogenesis. Promoter scanning and ChIP analysis further revealed that under expression of p53 and hyper-methylation of STAT3 binding site upon HCV infection restricted its expression in CHC tissues. Centrosomal protein 350 (CEP350), which sequestered PPARα, was identified as one of the targets of miR-c12 using Miranda and validated by luciferase assay/western blot analysis. Furthermore, reduced triglyceride accumulation and enhanced PPARα mediated transcription of β-oxidation genes upon restoration of miR-c12 in liver cells suggested its role in lipid catabolism. Thus this study is reporting miR-c12 for the first time and showed its' protective role during chronic HCV infection.
Identifiants
pubmed: 32507013
doi: 10.1080/15476286.2020.1768353
pmc: PMC7549687
doi:
Substances chimiques
CEP350 protein, human
0
Fatty Acids
0
MicroRNAs
0
Microtubule Proteins
0
Nuclear Proteins
0
PPAR alpha
0
Types de publication
Journal Article
Research Support, Non-U.S. Gov't
Langues
eng
Sous-ensembles de citation
IM
Pagination
1352-1363Commentaires et corrections
Type : ErratumIn
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