Download Table 1

Cheung et al
MicroRNAs and nonalcoholic steatohepatitis
1
Supporting Table 1. Transcription factors
SOX TRANSCTIPTION FACTOR
GENE
↑ miRNA
↓ miRNA
IDENTIFIER
DESCRIPTION (GO TERM)
PHYSIOLOGIC FUNCTIONS & IMPLICATIONS
SOX-3
SOX-4
SOX-5
SOX-6
SOX-8
SOX-9
SOX-11
miR-26b, 30d, 122, 188
miR-361
miR-30d, 188, 203
miR-30d, 126, 145
miR-26b, 122
miR-28
ENSG00000134595
ENSG00000124766
ENSG00000134532
ENSG00000110693
ENSG00000005513
ENSG00000125398
ENSG00000176887
Transcription factor activity
Apoptosis, gluconeogenesis, embryogenesis
SOX-17
SOX-21
miR-21, 128a, 128b
miR-21, 99b
miR-224
miR-181b, 199a*
miR-224
miR-24, 199a*
miR-23a, 23b, 27b, 34a,
miR-125b, 128a, 128b, 224
miR-200a
miR-21, 23a, 23b, 214
GENE
↑ miRNA
↓ miRNA
IDENTIFIER
DESCRIPTION (GO TERM)
PHYSIOLOGIC FUNCTIONS & IMPLICATIONS
HOX-A1
HOX-A3
HOX-A4
HOX-A5
HOX-A9
miR-92b
miR-26b
miR-139
miR-26b
miR-122
miR-188
miR-92b, 188, 191*
miR-188
miR-26b, 188
miR-188
miR-139, 145
miR-122
miR-139
miR-139, 145
ENSG00000105991
ENSG00000105997
ENSG00000197576
ENSG00000106004
ENSG00000078399
Transcription factor activity
Target osteopontin (OPN) that modulates
angiogenesis, inflammation, apoptosis
HOX-C4
HOX-C6
HOX-C9
HOX-C10
HOX-C11
HOX-C13
HOX-D1
HOX-D4
HOX-D9
HOX-D10
HOX-D12
miR-100, 181b
miR-16, 23b, 146b
miR-128a
miR-23b
miR-27b, 128a, 128b,
miR-199a*
miR-16, 99b, 128a, 128b,
miR-199a*, 455
miR-23b, 181b
miR-27b, 125, 128a, 128b
miR-127, 181b
miR-23a, 23b
miR-16
miR-27b, 128a, 128b, 146b,
miR-199a*
miR-125b, 146b
miR-146b
miR-23b
miR-146b
miR-27b, 181b
miR-214
miR-214
miR-16
miR-146b
GENE
↑ miRNA
↓ miRNA
IDENTIFIER
DESCRIPTION (GO TERM)
PHYSIOLOGIC FUNCTIONS & IMPLICATIONS
HNF1α
HNF1β
HNF3β
HNF6
miR-214
miR-146b
miR-146b
miR-23b
miR-375, 617
miR-92b
miR-26b
ENSG00000135100
ENSG00000125798
ENSG00000125798
ENSG00000169856
Liver specific transcription factor
HNF3β controls genes in secretion coupling of
glucose induced insulin release
FOXO1 -> transcription of G6P gluconeogenesis
HNF6 interacts selectively with NFAT proteins
GENE
↑ miRNA
↓ miRNA
IDENTIFIER
DESCRIPTION (GO TERM)
PHYSIOLOGIC FUNCTIONS & IMPLICATIONS
NFAT4
PBP
miR-23a
miR-128a, 146b
miR-122, 191*
ENSG00000072736
ENSG00000125686
Transcription factor activity
PPAR binding protein
T-cell activation, liver specific
Co-activator of PPARs, lipid homeostasis [4]
Sox-4-induced apoptosis is accompanied with
caspase-1 activation
Animal studies have shown that Sox-6 may be an
important factor in obesity-related insulin
resistance by negatively regulating glucose
stimulated insulin secretion from beta-cells [1]
ENSG00000164736
ENSG00000125285
HOX TRANSCRIPTION FACTOR
HOX-A10
HOX-A11
HOX-A13
HOX-B4
HOX-B5
HOX-B6
HOX-B7
HOX-B8
Glycoprotein OPN is a pro-inflammatory cytokine,
adhesion molecule. Chemoattractamt of monocyte
in cell mediated immunity. Expressed in hepatic
stellate cells and activated macrophage in injured
liver [2]
ENSG00000153807
ENSG00000005073
ENSG00000106031
ENSG00000182742
ENSG00000120075
ENSG00000108511
ENSG00000120087
ENSG00000120068
LXR ligands inhibit cytokine-induced OPN
expression in macrophages [3]
ENSG00000198353
ENSG00000197757
ENSG00000180806
ENSG00000180818
ENSG00000123388
ENSG00000123364
ENSG00000128645
ENSG00000170166
ENSG00000128709
ENSG00000128710
ENSG00000170178
HEPATOCYTE NUCLEAR FACTOR
OTHERS
Cheung et al
MicroRNAs and nonalcoholic steatohepatitis
2
Supporting Table 2. Translation and protein processing
PROTEIN SYNTEHSIS – EUKARYOTIC TRANSLATION INITIATION FACTOR (eIF)
GENE
↑ miRNA
↓ miRNA
IDENTIFIER
DESCRIPTION (GO TERM)
PHYSIOLOGIC FUNCTIONS & IMPLICATIONS
eIF2A1
eIF2A2
eIF2C1
eIF2C2
eIF2C4
eIF3A1
eIF4A1
eIF4A2
miR-122, 188, 191*
miR-92b, 122
miR-26b, 92b, 188
miR-188
miR-145
miR-145
miR-122
miR-188, 191*
miR-139
miR-92b
miR-26b, 145, 361
ENSG00000134001
ENSG00000055332
ENSG00000092847
ENSG00000123908
ENSG00000134698
ENSG00000104131
ENSG00000161960
ENSG00000156976
Eukaryotic translation initiation factor
Rate-limiting component of translation initiation
Phosphorylation is associated with stress
response, causes a reduction in protein synthesis
CREB1
CREBBP
miR-23a, 23b, 146b
miR-146b
miR-128a, 128b, 199a*
miR-100, 125b, 199a*
miR-13b, 27b
miR-16, 23b, 146b, 199a*
miR-16, 23a, 23b, 27b,
miR-128a, 128b
miR-16, 139, 214
miR-146b
miR-27b, 181b, 128a, 128b,
miR-199a*
miR-24
miR-16, 200a
GENE
↑ miRNA
↓ miRNA
IDENTIFIER
DESCRIPTION (GO TERM)
PHYSIOLOGIC FUNCTIONS & IMPLICATIONS
UBE2-17
UBE2-32
UBE2A
UBE2B
UBE2D
UBE2D3
UBE2E1
UBE2E3
UBE2H
UBE2G1
UBE2Q
UBE3A
RNF144
PJA1
XBP1
EDEM
miR-16, 23b
miR-23b
miR-16
miR-146b
miR-23b
miR-146b
miR-27b, 199a*
miR-16, 128a, 128b
miR-125b
miR-16, 128a
miR-27b
miR-214
miR-34a
miR-125b, 200a, 214
miR-122
miR-139, 145
miR-145
miR-139
miR-122
miR-92b, 145, 188, 191*
miR-26b
miR-26b
-
ENSG00000131508
ENSG00000099804
ENSG00000077721
ENSG00000119048
ENSG00000109332
ENSG00000109332
ENSG00000170142
ENSG00000170035
ENSG00000186591
ENSG00000132388
ENSG00000160714
ENSG00000114062
ENSG00000151692
ENSG00000181191
ENSG00000100219
ENSG00000134109
Ubiquitin conjugating enzyme
Ubiquitin conjugating enzymes (E2), ubiquitin
ligase (E3) and ubiquitin activating enzyme (E1)
are involved in the ubiquitin pathway, e.g. ubiquitin
proteosome pathway is an intracellular proteolytic
mechanism that destroy misfolded or damaged
proteins
GENE
↑ miRNA
↓ miRNA
IDENTIFIER
DESCRIPTION (GO TERM)
PHYSIOLOGIC FUNCTIONS & IMPLICATIONS
PTP4A3
TP4A2
TMEM59
INSIG2
ATF6
miR-24, 199a*, 222, 455,
miR-23a, 23b
miR-26b, 34a, 181b , 200a
miR-16, 23b
miR-16
miR-198, 601
miR-26b, 145
miR-30d, 92b, 223
-
ENSG00000184489
ENSG00000184007
ENSG00000116209
ENSG00000125629
ENSG00000118217
Amino acid dephosphorylation
Protein dephosphorylation
Serine endopeptidase inhibitor activity
Respond to sterol depletion
Unfolded protein response (UPR)
Protein phosphatase activity
Protein phosphatase activity
Inhibit breakage of peptide bond
DNA damage induced protein phosphorylation.
Transcription factor induces transcription of genes
carrying the ER stress response elements (ERSE)
that mediates protein folding
eIF4B
eIF4E
eIF4E3
eIF4G1
eIF4G2
eIF4G3
eIF5A
Phosphorylation of eIF2A1 by ER stress activated
protein kinase PERK modulates protein synthesis
and couples the production of ER client proteins
with the organelle’s capacity to fold, process them
ENSG00000063046
ENSG00000151247
ENSG00000163412
ENSG00000114867
ENSG00000110321
ENSG00000075151
ENSG00000132502
ENSG00000118260
ENSG00000005339
Protein dimerization activity
Transcription factor family (e.g. ATF4), downstream
of PERK pathway in UPR (eIF2A1 phosphorylation)
PROTEIN DEGRADATION
Ubiquitin ligase activity
Ubiquitin cycle, protein binding
Ubiquitin cycle, ligase activity
Protein dimerization activity
Response to unfolded protein
ER stress induced transcription factor for EDEM
ER stress induced protein that regulates disposal of
misfolded proteins
PROTEIN PROCESSING
Cheung et al
MicroRNAs and nonalcoholic steatohepatitis
3
Supporting Table 3. Cellular stress, growth and differentiation
CELL RESPONSE TO OXIDATIVE STRESS
GENE
↑ miRNA
↓ miRNA
IDENTIFIER
DESCRIPTION (GO TERM)
PHYSIOLOGIC FUNCTIONS & IMPLICATIONS
COX6A1
COX7A2
COX8A
BLVRB
OXSR1
OKL38
miR-99b,
miR-423
miR-27b, 127, 128a, 128b
miR-99b, 100, 221
miR-128a, 128b
miR-23a, 23b, 127
miR-601
miR-198, 361, 563
miR-563, 601
ENSG00000111775
ENSG00000112695
ENSG00000176340
ENSG00000090013
ENSG00000172939
ENSG00000140961
Cytochrome C-oxidase activity
Oxidoreductase activity
Biliverdin reductase activity
Ser/Thr kinase family
Negative regulation of cell growth
Oxidoreductase activity
Regulate downstream kinases in response to stress
Oxidative stress induced growth inhibitor
GENE
↑ miRNA
↓ miRNA
IDENTIFIER
DESCRIPTION (GO TERM)
PHYSIOLOGIC FUNCTIONS & IMPLICATIONS
PINX1
STARD13
CDC2L5
CGREF1
MYCN
MET
IRF1
IRF2
miR-24, 34a, 181b
miR-125b
miR-125b
miR-199a*
miR-16, 24, 23a, 23b, 125b
miR-23b, 125b, 128a, 128b
miR-214
miR-188
miR-122
miR-122
miR-145
miR-26b, 145
-
ENSG00000104637
ENSG00000133121
ENSG00000065883
ENSG00000138028
ENSG00000134323
ENSG00000105976
ENSG00000125347
ENSG00000168310
Chromosome, telomeric region
GTPase activator activity
Protein serine/threonine kinase activity
(-) regulation of cell proliferation
(+) regulation of cell proliferation
Protein tyrosine kinase activity
Transcription factor activity
CDK6
CDK7
CDK10
PIK3CB
PIK3R1
PIK3R3
miR-34a, 199a*
miR-99b
miR-23b
miR-27b
miR-23b
miR-26
miR-122
miR-26b
miR-145
ENSG00000105810
ENSG00000134058
ENSG00000185324
ENSG00000051382
ENSG00000145675
ENSG00000117461
Cell cycle arrest
(-) regulation of cell growth, differentiation
Cell signaling, negative regulation cell cycle
Cell proliferation, cytokinesis
Ca++ dependent growth/cell cycle inhibitor
Transcription factor promoting cell growth/cycle
Cell development and proliferation
Function not only as regulator of the interferon
system, also key transcription factors in the
regulation of cell growth and apoptosis via
downstream INF inducible effector genes
Cyclin dependent kinases play a key role in the
different phases of the cell cycle, either promote or
prohibit cell cycle progression
Catalyzes the conversion of phosphatidylinositol to
phosphatidylinositol 3-phosphate, the first committed
step in the biosynthesis of phosphatidylinositol 3,4bisphosphate which plays critical role in DNA repair
GENE
↑ miRNA
↓ miRNA
IDENTIFIER
DESCRIPTION (GO TERM)
DDEFL1
GDF3
miR-99b
miR-125b
-
ENSGT0000088280
ENSG00000184344
Development and differentiation
Growth factory activity
LMBRD1
miR-16, 200a
ENSG00000168216
Integral to membrane
FAD104
AEBP2
MMD
MST1R
CSF1
miR-23b, 125b, 181a, 214
miR-23b, 146b
miR-16, 27b, 30d, 92
miR-24
miR-23a, 27b, 34a, 128b,
miR-214
miR-30d, 203, 361, 641
miR-768-5p
miR-26b, 122, 145
miR-26b, 139
miR-122, 375
miR-198
miR-122, 188
-
ENSG00000075420
ENSG00000139154
ENSG00000108960
ENSG00000164078
ENSG00000184371
(+) regulation of fat cell differentiation
Transcription repressor activity
Receptor, cytolysis activity
Protein tyrosine kinase activity
M-CSF receptor binding
GENE
↑ miRNA
↓ miRNA
IDENTIFIER
DESCRIPTION (GO TERM)
PHYSIOLOGIC FUNCTIONS & IMPLICATIONS
GJB1
CDH17
miR-21, 23a, 139, 214
-
miR-223
ENSG00000169562
ENSG00000079112
Cell-cell signaling; connexon complex
Cadherin-17 precursor
Gap junction β connexin
Maintain cell adhesion
CELL GROWTH AND CELL CYCLE
Phosphatidylinositol kinase activity
Phosphatidylinositol binding
Phosphatidylinositol 3 kinase activity
CELL DIFFERENTIATION
PHYSIOLOGIC FUNCTIONS & IMPLICATIONS
TGF-β family, both (+) and (-) regulating
cellular differentiation
p-53 related protein regulating hepatocyte
regeneration
Adipocyte differentiation
Macrophage differentiation
CELL ADHESION
Cheung et al
MicroRNAs and nonalcoholic steatohepatitis
4
Supporting Table 4. Apoptosis
ANTI-APOPTOSIS
GENE
↑ miRNA
↓ miRNA
IDENTIFIER
DESCRIPTION (GO TERM)
PHYSIOLOGIC FUNCTIONS & IMPLICATIONS
BCL2L1
BCL2L2
AVEN
miR-16, 24, 214
miR-16, 24, 100, 214, 224
miR-200a
miR-145
miR-188
miR-92b
ENSG00000171552
ENSG00000129473
ENSG00000169857
Apoptosis regulator BCL-X
Positive regulation of anti-apoptosis
Apoptosis, anti-apoptosis
(-) regulation of apoptosis
GENE
↑ miRNA
↓ miRNA
IDENTIFIER
DESCRIPTION (GO TERM)
PHYSIOLOGIC FUNCTIONS & IMPLICATIONS
BCL2L7
BCL2L11
BBC3
miR-27b, 125b
miR-16, 24, 181, 199a*, 224
miR-24, 125b, 199a*,
miR-214, 221, 222
miR-16, 21, 199a*, 200a
miR-26b
miR-92b
miR-122, 145
ENSG00000030110
ENSG00000153094
ENSG00000105327
(+) regulation of apoptosis
Induce apoptosis via caspase activation
ENSG00000150593
Apoptosis , cell cycle
miR-199, 214
miR-125b, 214
miR-16, 34a
miR-16, 24, 128a, 128b,
miR-181b, 199a*, 423
miR-145
miR-122
miR-188, 375
-
ENSG00000076604
ENSG00000118503
ENSG00000180447
ENSG00000181649
Signal transduction
(-) regulation of NF-қβ cascade
Programmed cell death
Pleckstrin homology-like
Expression is modulated by cytokines, upregulated
in apoptosis and possibly inhibits translation
Role in p-53 related pro-apoptotic pathway
Deactivation of MAPK and NF-қβ, induces apoptosis
Blocks G0-to-S phase transition
Induces growth arrest
PRO-APOPTOSIS
PDCD4
TRAF4
TNFAIP3
GAS1
PHLDA2
Cheung et al
MicroRNAs and nonalcoholic steatohepatitis
5
Supporting Table 5. Inflammation
ANTI-INFLAMMATORY
GENE
↑ miRNA
↓ miRNA
IDENTIFIER
DESCRIPTION (GO TERM)
PHYSIOLOGIC FUNCTIONS & IMPLICATIONS
SOCS2
SOCS4
miR-16, 199a*, 214
miR-16, 23a, 23b, 27b,
miR-125b, 128a, 128b, 181b
miR-23b, 214
miR-199a*
miR-139
miR-188, 191*
miR-145
-
ENSG00000120833
ENSG00000180008
Intracellular signaling cascade
Intracellular signaling cascade
Suppress cytokine signaling e.g. JAK/STAT
Suppress cytokine signaling
ENSG00000114737
ENSG00000171150
ENSG00000113520
(-) regulation signal transduction
SOCS family, inhibit JAK-STAT pathways; inhibit
macrophage differentiation [5]
Th2 immune response
CISH1
CISH5
IL4 precursor
cytokine receptor activity
PRO-INFLAMMATORY – MAP KINASES ACTIVATION
GENE
↑ miRNA
↓ miRNA
IDENTIFIER
DESCRIPTION (GO TERM)
PHYSIOLOGIC FUNCTIONS & IMPLICATIONS
MAPKKK1
MAPKKK3
MAPKKKK4
MAPKKK4
MAPK4
MAPKKKK5
MAPKKKK6
MAPK6
MAPKKK7
MAPK7
MAPKKK8
MAPKKK12
MAPK14
PM20
C-JUN k3
CXCR4
miR-23b, 125b, 199a*
miR-199a*
miR-214
miR-27b, 128a, 128b
miR-16, 181b, 214
miR-23b, 128a, 128b
miR-199a*
miR-214
miR-23a
miR-23a, 125b
miR-27b, 128a, 128b
miR-125b, 128b
miR-27b, 128a, 128b, 214
miR-16, 146b
miR-145, 188, 191*
miR-145
miR-145
miR-92b, 145
miR-139
miR-145
miR-188
-
ENSG00000095015
ENSG00000087997
ENSG00000071054
ENSG00000085511
ENSG00000141639
ENSG00000012983
ENSG00000141503
ENSG00000069956
ENSG00000055208
ENSG00000166484
ENSG00000107968
ENSG00000139625
ENSG00000112062
ENSG00000055070
ENSG00000138834
ENSG00000121966
Protein serine/threonine kinase
All MAP kinases regulate intracellular signaling,
crucial role in immune mediated inflammatory
response, cell proliferation, cell differentiation
and cell death. 3 main components: JNK, ERK
and p38
MAPK activating protein
Activation of MAPK
Activation of MAPK
Activates ERK1/2 pathway
Activation of JNK pathway
In response to binding its ligand SDF-1 (stromal
cell-derived factor-1), CXCR4 triggers the
migration and recruitment of immune cells. Potent
chemotatic activity for lymphocytes
GENE
↑ miRNA
↓ miRNA
IDENTIFIER
DESCRIPTION (GO TERM)
PHYSIOLOGIC FUNCTIONS & IMPLICATIONS
IL2RA
IL16 precursor
IL17 precursor
IL18 precursor
IL20 precursor
IL22 precursor
TNFSF11
CCL16
CCL20
miR-125b, 214
miR-16
miR-128a, 128b
miR-23b
miR-23b
miR-21
miR-122
miR-188, 191*
miR-26b
miR-617
miR-126
ENSG00000134460
ENSG00000172349
ENSG00000112115
ENSG00000014381
ENSG00000162891
ENSG00000164485
ENSG00000120659
ENSG00000161573
ENSG00000115009
Cytokine receptor activity
Th1 immune response
TNF receptor binding
Chemokine activity, chemoattractant
Th1 immune response
IL inducible chemokine, lymphocyte and
monocyte chemoattractant
PRO-INFLAMMATORY – CYTOKINE RECEPTOR ACTIVITY
Cheung et al
MicroRNAs and nonalcoholic steatohepatitis
6
Supporting Table 5. Inflammation continued
PRO-INFLAMMATORY – RAS GTPASE ACTIVITY
GENE
↑ miRNA
↓ miRNA
IDENTIFIER
DESCRIPTION (GO TERM)
PHYSIOLOGIC FUNCTIONS & IMPLICATIONS
RAB 1A
RAB 2A
RAB 5B
RAB 5C
RAB 6A
RAB 7
RAB 9B
RAB 10
miR-16
miR-23a, 23b
miR-27b, 214
miR-125b
miR-27b, 127
miR-146b
miR-16, 23a, 23b, 146b,
miR-199a*
miR-128a, 128b
miR-146
miR-27b
miR-199a*
miR-27b, 125b, 128a, 128b
miR-23b
miR-23b, 128b
miR-16, 23a, 23b, 27b,
miR-128a, 128b
miR-125b, 199a*
miR-100, 146b
miR-23b
miR-139
miR-26b, 122
miR-139
miR-126
miR-145
miR-139
miR-26b
miR-92b, 139
miR-122
-
ENSG00000138069
ENSG00000104388
ENSG00000111540
ENSG00000108774
ENSG00000175582
ENSG00000075785
ENSG00000123570
ENSG00000084733
GTPase activity
GTPase mediated intracellular signal transduction
phagocytosis, cell growth, differentiation and death
RAB is a subfamily of RAS
GTP-binding protein
Subfamily of RAS. RAP 2B may be involved in
platelet function
RAB 11A
RAB 14
RAB 18
RAB 24
RAB 26
RAB 34
RAB 35
RAB 39B
RAL A
RAP 1B
RAP 2B
RAS GTPase 1
RAS GTPase 2
ENSG00000103769
ENSG00000119396
ENSG00000099246
ENSG00000169236
ENSG00000167964
ENSG00000109113
ENSG00000111737
ENSG00000155961
ENSG00000006451
ENSG00000127314
ENSG00000181467
ENSG00000145907
ENSG00000138757
Cheung et al
MicroRNAs and nonalcoholic steatohepatitis
7
Supporting Table 6. Metabolism
PHOSPHOLIPID SYNTHESIS, DEGRADATION AND METABOLISM
GENE
↑ miRNA
↓ miRNA
IDENTIFIER
DESCRIPTION (GO TERM)
PHYSIOLOGIC FUNCTIONS & IMPLICATIONS
DGKT
DGKZ
PL D2
PL Cγ1
LYPLA1
miR-27b
miR-214
miR-23b, 214
miR-23a, 23b, 26b, 214
miR-122
miR-203
miR-122
-
ENSG00000145214
ENSG00000149091
ENSG00000129219
ENSG00000124181
ENSG00000120992
Diacylglycerol kinase activity
PIB5PA
miR-146b
-
ENSG00000185133
Phosphatidylinositol phosphatase
Converts DAG → phosphatidic acid (DAG 3phosphate), ↓ precursor for TAG synthesis
Hydrolyzes PC → phosphatidic acid and choline
PI biphosphate → inositol triphosphate and DAG
Hydrolyzes fatty acid ester bond in lyso-glycerophosphatidates → glycerol-phosphatidates and FA
Inositol phosphate metabolism
Phospholipase D activity
Lipid catabolic process
Lipid metabolic process
CHOLESTEROL SYNTHESIS AND METABOLISM
↓ miRNA
miR-26b
miR-188, 191*
miR-145
miR-145, 191*
miR-375, 574
miR-92b, 139
miR-122
miR-122, 145, 188, 375
-
IDENTIFIER
ENSG00000184792
ENSG00000070882
ENSG00000079156
ENSG00000091039
OSBPL 9
OSBPL 11
NR1H3
NR1H2
NR5A2
HMGCR
ACAT
SC4MOL
↑ miRNA
miR-128b, 146b, 214
miR-181b
miR-23a, 23b, 181b,
miR-199a*, 200a, 221
miR-125b
miR-23b, 27b, 200a, 224
miR-423
miR-423
miR-125b, 224
miR-146b
GENE
↑ miRNA
↓ miRNA
IDENTIFIER
DESCRIPTION (GO TERM)
PHYSIOLOGIC FUNCTIONS & IMPLICATIONS
CPT1A
PPAR-γ
PPAR-α
AMPK
miR-16, 34a
miR-128a, 128b, 146
miR-24, 125b, 214
miR-16, 24, 128a, 128b,
miR-181b, 214
miR-23b
miR-16, 23b, 199a*
-
miR-188
miR-188
miR-122
miR-122, 203
miR-26b
miR-26b, 145, 188, 191*
miR-122
ENSG00000110090
ENSG00000132170
ENSG00000186951
ENSG00000074590
Carnitine O-palmitoyltransferase
Nuclear factor
Lipid metabolism
AMP related protein kinase
Fatty acid oxidation, inhibited by malonyl CoA
Ligand TZD, increases glucose uptake by tissues
Ligands FA/eicosinoid, regulates genes in oxidation
FA oxidation via activation of lipase. Inhibits ACC
ENSG00000123983
ENSG00000068366
ENSG00000166035
Lipid metabolic process
Long chain fatty acid CoA ligase, FA oxidation
Triacylglycerol lipase activity
TG breakdown to FA
GENE
OSBPL 2
OSBPL 3
OSBPL 6
OSBPL 8
ENSG00000117859
ENSG00000144909
ENSG00000025434
ENSG00000131408
ENSG00000116833
ENSG00000113161
ENSG00000075239
ENSG00000052802
DESCRIPTION (GO TERM)
Steroid metabolic process
PHYSIOLOGIC FUNCTIONS & IMPLICATIONS
Regulates cholesterol homeostasis. Binds to LXR
thus induces transcription of cholesterol-7 alpha
hydroxylase, increasing the removal of cholesterol as
bile acids
Nuclear hormone receptor
Oxysterols receptor LXR-beta
Cholesterol homeostasis
Cholesterol biosynthetic process
Acetyl CoA acyltransferase activity
C4-methylsterol oxidase activity
Activated by oxysterol, regulate cholesterol efflux
Rate limiting step of cholesterol synthesis
Cholesterol metabolism
A SREBP target gene, microsomal enzyme in
cholesterol synthesis
FATTY ACID OXIDATION
ACSL3
ACSL4
LIPC
FATTY ACID SYNTHESIS
GENE
↑ miRNA
↓ miRNA
IDENTIFIER
DESCRIPTION (GO TERM)
PHYSIOLOGIC FUNCTIONS & IMPLICATIONS
ACC1
ACC2
FASN
DGAT1
DGAT2
ULA4 (MAWDBP)
SREBP-1
miR-122
miR-122
miR-122
miR-122
miR-122
miR-122
miR-26b, 145, 203
miR-122
ENSG00000132142
ENSG00000076555
ENSG00000169710
ENSG00000185000
ENSG00000062282
ENSG00000035104
ENSG00000072310
Acetyl CoA carboxylase 1
1st committed step of fatty acid synthesis,
inactivated when phosphorylated by AMPK
Acetyl CoA, malonyl CoA → saturated FA
Catalyzes DAG → TAG
CREB
ACLY
miR-16
miR-125b
miR-24
miR-146b
miR-23a, 23b, 181b, 200a,
miR-224
miR-16, 128b, 200a
miR-30d, 214
ENSG00000118260
ENSG00000131473
CRE binding protein
Metabolic process
CB1
CS
miR-16, 214, 222
-
miR-30d, 361
miR-122
ENSG00000118432
ENSF00000001721
Cannabinoid receptor
Citrate synthase
Fatty acid biosynthetic process
Diacylglycerol acyltransferase
Diacylglycerol acyltransferase
SREBP transcriptional activation
Regulation of transcription
Transcriptional activation of FASN, ACC, SCD
Hepatic gluconeogenesis and ↓ hepatic lipid
Converts acetyl CoA from mitochondria to
oxaloacetate & acetyl CoA in the cytoplasm
FA synthesis
Citric acid cycle, acetyl CoA synthesis
Cheung et al
MicroRNAs and nonalcoholic steatohepatitis
8
Supporting Table 6. Metabolism continued
FATTY ACID DESATURATION AND ELONGATION
GENE
↑ miRNA
↓ miRNA
IDENTIFIER
DESCRIPTION (GO TERM)
PHYSIOLOGIC FUNCTIONS & IMPLICATIONS
SCD
SCD1
ELOV1
miR-23b, 214
miR-128a, 128b, 199a*
miR-122
-
ENSG00000099194
ENSG00000099194
ENSG00000066322
Stearoyl CoA desaturase
In mitochondria & ER, saturated →unsaturated FA
Fatty acid biosynthesis
Elongation of long chain FA
GENE
↑ miRNA
↓ miRNA
IDENTIFIER
DESCRIPTION (GO TERM)
PHYSIOLOGIC FUNCTIONS & IMPLICATIONS
VLDLR
LDLR6
VIGILIN
PNPLA7
FABP1
miR-23b, 181b, 199a*
miR-16
miR-214
miR-128a, 214
-
miR-26b
miR-122, 198
miR-203
ENSG00000147852
ENSG00000070018
ENSG00000115677
ENSG00000130653
ENSG00000163586
Receptor activity
VLDL (mainly TAG) endocytosis
Transcription induced by SREBP, LDL endocytosis
Overexpression is seen in ↑ lipid laden macrophage
Cleaves FA from PL, also a role in FA oxidation
Extract FA from PL
GENE
↑ miRNA
↓ miRNA
IDENTIFIER
DESCRIPTION (GO TERM)
PHYSIOLOGIC FUNCTIONS & IMPLICATIONS
ALDOA
PRKCB1
PRKCD
PRKCQ
PFKFB1
PYGL
GYG1 (glycogenin)
PHKA2
PHKG2
GYS1
GYS2
miR-27b
miR-23b
miR-34a, 221
miR-21
miR-21
miR-27b, 125b
miR-27b, 128b
miR-181b, 222
miR-122
miR-145
miR-375
miR-28, 191*
miR-145
miR-28, 126, 198, 203
miR-122
-
ENSG00000149925
ENSG00000166501
ENSG00000163932
ENSG00000065675
ENSG00000158571
ENSG00000100504
ENSG00000163754
ENSG00000044446
ENSG00000156873
ENSG00000104812
ENSG00000111713
Fructose metabolic process
PKC activity
PKC activity
PKC activity
Nucleotide binding
Glycogen phosphorylase activity
Glycogen biosynthetic process
Phosphorylase kinase
Phosphorylase kinase
Glycogen synthase activity
Glycogen synthase activity
Glycolysis
Activates enzymes in glycolysis and citric acid cycle
Glycolysis
Glycolysis
Gluconeogensis
Glycogen metabolism
Substrate for elongation by GYS, glycogen synthesis
Glycogenosis
GENE
↑ miRNA
↓ miRNA
IDENTIFIER
DESCRIPTION (GO TERM)
PHYSIOLOGIC FUNCTIONS & IMPLICATIONS
IRS1
IRS4
ISLET1
Myotrophin
miR-23a
miR-16, 27b, 128a, 128b
miR-16, 128a
-
miR-126, 145
miR-375
ENSG00000169047
ENSG00000133124
ENSG00000016082
ENSG00000100857
Insulin receptor binding
Regulate insulin signaling (IRS1-skeletal, IRS2-liver)
(IRS4-most recently characterized)
Induces transcription of insulin gene
Stimulates insulin secretion
FATTY ACID AND CHOLESTEROL TRANSPORT
Lipid metabolic process
Lipid acyl hydrolase
Fatty acid-binding protein
CARBOHYDRATE METABOLISM
Glycogen synthesis
INSULIN SIGNALING
Energy pathways, transcription factor
Regulation of translation
Human miRNA gene targets were searched at: microrna.org, sanger.ac.uk, cbio.mskcc.org, PicTar, TargetScan and pubmed literature. Full names for gene abbreviations are available at
www.ensembl.org
References:
1.
Iguchi, H., et al., SOX6 suppresses cyclin D1 promoter activity by interacting with beta -catenin and histone deacetylase 1 and its down-regulation induces pancreatic beta -cell proliferation. J
Biol Chem, 2007.
2.
Mochida, S., et al., Transgenic mice expressing osteopontin in hepatocytes as a model of autoimmune hepatitis. Biochem Biophys Res Commun, 2004. 317(1): p. 114-20.
3.
Ogawa, D., et al., Liver x receptor agonists inhibit cytokine-induced osteopontin expression in macrophages through interference with activator protein-1 signaling pathways. Circ Res, 2005.
96(7): p. e59-67.
4.
Jia, Y., et al., Transcription coactivator PBP, the peroxisome proliferator-activated receptor (PPAR)-binding protein, is required for PPARalpha-regulated gene expression in liver. J Biol
Chem, 2004. 279(23): p. 24427-34.
5.
Starr, R., et al., A family of cytokine-inducible inhibitors of signalling. Nature, 1997. 387(6636): p. 917-21.