HCSGD entry for ENPP3

1. General information

Official gene symbol	ENPP3
Entrez ID	5169
Gene full name	ectonucleotide pyrophosphatase/phosphodiesterase 3
Other gene symbols	B10 CD203c NPP3 PD-IBETA PDNP3
Links to Entrez Gene	Links to Entrez Gene

2. Neighbors in the network

This gene isn't in PPI subnetwork.

3. Gene ontology annotation

GO ID	GO term	Evidence	Category
GO:0003676	Nucleic acid binding	IEA	molecular_function
GO:0003824	Catalytic activity	IEA	molecular_function
GO:0004528	Phosphodiesterase I activity	IEA	molecular_function
GO:0004551	Nucleotide diphosphatase activity	TAS	molecular_function
GO:0005044	Scavenger receptor activity	IEA	molecular_function
GO:0005576	Extracellular region	IEA	cellular_component
GO:0005887	Integral component of plasma membrane	TAS	cellular_component
GO:0006796	Phosphate-containing compound metabolic process	IDA	biological_process
GO:0006955	Immune response	IEA	biological_process
GO:0009143	Nucleoside triphosphate catabolic process	IDA	biological_process
GO:0030247	Polysaccharide binding	IEA	molecular_function
GO:0030505	Inorganic diphosphate transport	IDA	biological_process
GO:0035529	NADH pyrophosphatase activity	IEA	molecular_function
GO:0046872	Metal ion binding	IEA	molecular_function
GO:0047429	Nucleoside-triphosphate diphosphatase activity	IDA	molecular_function
GO:0048471	Perinuclear region of cytoplasm	IDA	cellular_component
GO:0090305	Nucleic acid phosphodiester bond hydrolysis	TAS	biological_process

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4. Expression levels in datasets

Meta-analysis result

p-value up	p-value down	FDR up	FDR down
0.4706630751	0.9241793891	0.9999902473	1.0000000000

Individual experiment result
( "-" represent NA in the specific microarray platform )

Data source	Up or down	Log fold change
GSE11954	Up	0.1486739785
GSE13712_SHEAR	Down	-0.0783611501
GSE13712_STATIC	Down	-0.0537397730
GSE19018	Up	0.0702937595
GSE19899_A1	Up	0.0935187092
GSE19899_A2	Up	0.0605084969
PubMed_21979375_A1	Up	0.1047700166
PubMed_21979375_A2	Up	0.1115002561
GSE35957	Up	0.0043737150
GSE36640	Down	-0.0565692807
GSE54402	Up	0.0456635482
GSE9593	Down	-0.1628779482
GSE43922	Up	0.0406559956
GSE24585	Up	0.5638493912
GSE37065	Up	0.0502891725
GSE28863_A1	Up	0.0520925638
GSE28863_A2	Up	0.0432515930
GSE28863_A3	Down	-0.0126263466
GSE28863_A4	Down	-0.0653426819
GSE48662	Up	0.1408566570

5. Regulation relationships with compounds/drugs/microRNAs

Compounds

Not regulated by compounds

Drugs

Not regulated by drugs

MicroRNAs

mirTarBase

No target information from mirTarBase

mirRecord

No target information from mirRecord

6. Text-mining results about the gene

Gene occurances in abstracts of cellular senescence-associated articles: 1 abstracts the gene occurs.

PubMed ID of the article	Sentenece the gene occurs
19841470	After having identified prosenescent and proapoptotic doses of epirubicin and rat MAb c-erbB2/Her-2/neu Ab-9 clone B10 (B10), an anti-erbB2 monoclonal antibody, we investigated the effects of the sequential treatment with prosenescent doses of both drugs on H9c2 cells and neonatal rat cardiomyocytes pretreated with or without the cardioprotective agent dexrazoxane
19841470	Data demonstrate that 1) the toxic effects of epirubicin mainly occur through NAD(P)H oxidase activation; 2) the erbB2 overexpression induced by epirubicin is a redox-sensitive mechanism largely dependent on NAD(P)H oxidase; 3) the loss of erbB2-related functions caused by B10 determines marginal cellular changes in untreated cells, but causes massive death by apoptosis in cells previously exposed to a prosenescent dose of epirubicin, 4) dexrazoxane promotes survival pathways, as demonstrated by the activation of Akt and the PI3K-dependent erbB2 overexpression; and 5) it also prevents epirubicin-induced senescence and renders epirubicin-treated cells more resistant to treatment with B10

PubMed ID of the article

Sentenece the gene occurs

19841470

After having identified prosenescent and proapoptotic doses of epirubicin and rat MAb c-erbB2/Her-2/neu Ab-9 clone B10 (B10), an anti-erbB2 monoclonal antibody, we investigated the effects of the sequential treatment with prosenescent doses of both drugs on H9c2 cells and neonatal rat cardiomyocytes pretreated with or without the cardioprotective agent dexrazoxane

19841470

Data demonstrate that 1) the toxic effects of epirubicin mainly occur through NAD(P)H oxidase activation; 2) the erbB2 overexpression induced by epirubicin is a redox-sensitive mechanism largely dependent on NAD(P)H oxidase; 3) the loss of erbB2-related functions caused by B10 determines marginal cellular changes in untreated cells, but causes massive death by apoptosis in cells previously exposed to a prosenescent dose of epirubicin, 4) dexrazoxane promotes survival pathways, as demonstrated by the activation of Akt and the PI3K-dependent erbB2 overexpression; and 5) it also prevents epirubicin-induced senescence and renders epirubicin-treated cells more resistant to treatment with B10

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Navigator

1.General information
2.Neighbors in the network
3.Gene Ontology Annotation
4.Expression levels
5.Regulation
6.Text-mining results

HCSGD entry for ENPP3

1. General information

2. Neighbors in the network

3. Gene ontology annotation

GO ID

GO term

Evidence

Category

4. Expression levels in datasets

Meta-analysis result

Individual experiment result ( "-" represent NA in the specific microarray platform )

( "-" represent NA in the specific microarray platform )

5. Regulation relationships with compounds/drugs/microRNAs

Compounds

Drugs

MicroRNAs

mirTarBase

mirRecord

6. Text-mining results about the gene

Gene occurances in abstracts of cellular senescence-associated articles: 1 abstracts the gene occurs.

PubMed ID of the article

Sentenece the gene occurs

Navigator

Individual experiment result
( "-" represent NA in the specific microarray platform )