Entry Detail


General Information

Database ID:exR0286761
RNA Name:hsa-miR-377-3p
RNA Type:miRNA
Chromosome:chr14
Starnd:+
Coordinate:
Start Site(bp):101062094End Site(bp):101062115
External Links:hsa-miR-377-3p



Disease Information

Disease Name:Drug-induced Liver Injury
Disease Category:Digestive System Diseases
MeSH ID:D056486
Type:Diseases Category/Digestive System Diseases
Alias:Chemical and Drug Induced Liver Injury//Chemically-Induced Liver Toxicity//Chemically Induced Liver Toxicity//Chemically-Induced Liver Toxicities//Liver Toxicities, Chemically-Induced//Liver Toxicity, Chemically-Induced//Toxicities, Chemically-Induced Liver//Toxicity, Chemically-Induced Liver//Drug-Induced Acute Liver Injury//Drug Induced Acute Liver Injury//Liver Injury, Drug-Induced, Acute//Acute Liver Injury, Drug-Induced//Acute Liver Injury, Drug Induced//Hepatitis, Toxic//Toxic Hepatitis//Hepatitides, Toxic//Toxic Hepatitides//Drug-Induced Liver Disease//Disease, Drug-Induced Liver//Diseases, Drug-Induced Liver//Drug Induced Liver Disease//Drug-Induced Liver Diseases//Liver Disease, Drug-Induced//Liver Diseases, Drug-Induced//Drug-Induced Liver Injury//Drug Induced Liver Injury//Drug-Induced Liver Injuries//Injuries, Drug-Induced Liver//Injury, Drug-Induced Liver//Liver Injuries, Drug-Induced//Liver Injury, Drug-Induced//Liver Injury, Drug Induced//Hepatitis, Drug-Induced//Drug-Induced Hepatitides//Drug-Induced Hepatitis//Hepatitides, Drug-Induced//Hepatitis, Drug Induced



Expression Detail

GEO ID:GSE59565
Description:Circulating miRNAs of acetaminophen-overdosed patients
Experimental Design:Accidental Acetaminophen Overdose
Case Disease Type:Drug-induced Liver Injury
Case Disease SubType:NA
Case Sample:Healthy with APAP Overdose
Control Sample:Healthy
Number of Case:18
Number of Control:6
Number of Samples:24





Regulatory Relationship

mRNA targets:
Gene SymbolChromosomeStart Site(bp)End Site(bp)Strand
ATP9A
chr20
51596514
51768390
-
CLDN11
chr3
170418865
170454733
+
ETS1
chr11
128458761
128587558
-
GPR180
chr13
94601857
94634661
+
IGF1R
chr15
98648539
98964530
+
IRX3
chr16
54283304
54286787
-
MET
chr7
116672196
116798386
+
PALLD
chr4
168497052
168928457
+
PTBP3
chr9
112217716
112333667
-
RNMT
chr18
13726660
13764558
+
RUNX1
chr21
34787801
36004667
-
USP31
chr16
23061406
23149270
-
WDR82
chr3
52254434
52288020
-
miRNA targets:NA
circRNA targets:
circRNA SymbolChromosomeStart Site(bp)End Site(bp)Strand
hsa_circ_0000712
chr16
68208276
68225678
+
lncRNA targets:
lncRNA SymbolChromosomeStart Site(bp)End Site(bp)Strand
AC016876.2
chr17
7581964
7584086
-
AC021078.1
chr5
149494314
149504670
-
AL137129.1
chr14
61734138
61776260
+
AL356488.2
chr1
109100193
109100619
+
CKMT2-AS1
chr5
81201341
81301565
-
KCNQ1OT1
chr11
2608328
2699994
-
MIR17HG
chr13
91347820
91354579
+
NEAT1
chr11
65422774
65445540
+
NORAD
chr20
36045618
36051018
-
SNHG1
chr11
62851984
62855953
-
SNHG16
chr17
76557764
76565348
+
SNHG5
chr6
85650491
85678932
-
STAG3L5P-PVRIG2P-PILRB
chr7
100336104
100367831
+
VPS9D1-AS1
chr16
89711856
89718165
+
XIST
chrX
73820649
73852723
-
Display:



Experiment Detail

GEO ID:GSE59565
Sample Source:Blood
Source Fraction:Serum
Platform:GPL11154
Method:NGS
Num of detected RNA Type:1
Num of detected RNAs of this Type:2545
Sample treatment protocol:Serum samples were recovered from serum-separator tubes following centrifugation of whole blood at 3000×g for 10 minutes at room temperature.
RNA Extract protocol:Serum miRNA was isolated using the miRNeasy Mini Kit (QUIAGEN, CA, USA)
RNA library preparation protocol:TruSeq Small RNA-Seq Preparation Kit (Illumina, CA, USA)



Reference

PMID:25359176
Title:Application of high-throughput sequencing to circulating microRNAs reveals novel biomarkers for drug-induced liver injury
Author:Krauskopf J, Caiment F, Claessen SM, Johnson KJ, Warner RL, Schomaker SJ, Burt DA, Aubrecht J, Kleinjans JC
Journal:Toxicol Sci. 2015 Feb;143(2):268-76.
Description:Upon applying next generation high-throughput sequencing of small RNA libraries, 36 miRNAs, including 3 novel miRNA-like small nuclear RNAs were relevant to APAP toxic mechanisms.