Entry Detail

General Information

Database ID: LDA0004183
Species: Homo sapiens
Confidence Score: 0.731059
Contents: >> ncRNA Information
>> ncRNA Association Statistics
>> Disease Information
>> Disease Association Statistics
>> Evidence Support
>> Reference
Causality: Yes
Clinical Significance: Unknown

 


ncRNA Information

Reference Genome Note: GRCh38 for human lncRNAs; GRCm39 for mouse lncRNAs; mRatBN7.2 for rat lncRNAs; hg19 for human circRNAs; mm9 for mouse circRNAs.

ncRNA Symbol:AGAP2-AS1
Full Name:AGAP2 antisense RNA 1
Category:LncRNA
Species:Homo sapiens
Synonyms:PUNISHER
Chromosome:12
Strand:+
Coordinate:
Start Site(bp):57726240End Site(bp):57728356
External Links:
Ensembl ID:ENSG00000255737
Ensembl Transcript ID:N/A
Entrez Gene:100130776.0
NONCODE ID:N/A
RefSeq Accession:N/A

 

ncRNA Association Statistics

Total Associated Disease Number:38   
More Information
Causal Disease Number:34
Network:
Top Causal Diseases:
Colorectal Neoplasms  (Score: 0.999893)
Colorectal Neoplasms  (Score: 0.999893)
Glioma  (Score: 0.985791)
Cholangiocarcinoma  (Score: 0.985791)
Prostatic Neoplasms  (Score: 0.985791)
Thyroid Cancer, Papillary  (Score: 0.985791)
Colonic Neoplasms  (Score: 0.985791)
Glioma  (Score: 0.985791)
Colonic Neoplasms  (Score: 0.985791)
Prostatic Neoplasms  (Score: 0.985791)
More Information

 

 

Disease Information

 Disease OntologyMeSH
Disease ID:DOID:3393D003324
Disease Name:coronary artery diseaseCoronary Artery Disease
Category:Disease OntologyMeSH
Type:Cardiovascular Diseases
Define:An artery disease that is characterized by plaque building up along the inner walls of the arteries of the heart resulting in a narrowing of the arteries and a reduced blood supply to the cardiac muscles.Pathological processes of CORONARY ARTERIES that may derive from a congenital abnormality, atherosclerotic, or non-atherosclerotic cause.
Alias:CHD//Coronary disease//coronary arteriosclerosis//coronary heart diseaseCoronary Artery Disease//Artery Disease, Coronary//Artery Diseases, Coronary//Coronary Artery Diseases//Left Main Coronary Artery Disease//Left Main Disease//Left Main Diseases//Left Main Coronary Disease//Coronary Arteriosclerosis//Arterioscleroses, Coronary//Coronary Arterioscleroses//Atherosclerosis, Coronary//Atheroscleroses, Coronary//Coronary Atheroscleroses//Coronary Atherosclerosis//Arteriosclerosis, Coronary

 

Disease Association Statistics

Total Associated ncRNA Number:134   
More Information
Causal ncRNA Number:24
Network:
Top Causal ncRNAs:
MALAT1  (Score: 1)
MALAT1  (Score: 1)
LINC00968  (Score: 0.985791)
LINC00968  (Score: 0.985791)
uc003pxg.1  (Score: 0.731059)
GAS5  (Score: 0.731059)
AGAP2-AS1  (Score: 0.731059)
circLDLR  (Score: 0.731059)
circNPHP4  (Score: 0.731059)
NEAT1  (Score: 0.731059)
More Information

 

Evidence Support

Strong Evidence:qRT-PCR
Weak Evidence:

 

Reference

[1] PubMed ID:34484864
Disease Name:Coronary Artery Disease
Sample:EV recipient cells
Dysfunction Pattern:Regulation(VEGFA-dependent mechanism)
Validated Method:qRT-PCR
Description:A human lncRNA array revealed that certain EV-lncRNAs are significantly dysregulated in CAD patients. Circulating small EVs (sEVs) from patients with (n = 30) or without (n = 30) CAD were used to quantify PUNISHER (also known as AGAP2-antisense RNA 1 [AS1]), GAS5, MALAT1, and H19 RNA levels. PUNISHER (p = 0.002) and GAS5 (p = 0.02) were significantly increased in patients with CAD, compared to non-CAD patients. Fluorescent labeling and quantitative real-time PCR of sEVs demonstrated that functional PUNISHER was transported into the recipient cells. Mechanistically, the RNA-binding protein, heterogeneous nuclear ribonucleoprotein K (hnRNPK), interacts with PUNISHER, regulating its loading into sEVs. Knockdown of PUNISHER abrogated the EV-mediated effects on endothelial cell (EC) migration, proliferation, tube formation, and sprouting. Angiogenesis-related gene profiling showed that the expression of vascular endothelial growth factor A (VEGFA) RNA was significantly increased in EV recipient cells. Protein stability and RNA immunoprecipitation indicated that the PUNISHER-hnRNPK axis regulates the stability and binding of VEGFA mRNA to hnRNPK. Loss of PUNISHER in EVs abolished the EV-mediated promotion of VEGFA gene and protein expression. Intercellular transfer of EV-incorporated PUNISHER promotes a pro-angiogenic phenotype via a VEGFA-dependent mechanism.
Causality:Yes
Causal Description:Knockdown of PUNISHER abrogated the EV-mediated effects on endothelial cell (EC) migration, proliferation, tube formation, and sprouting.
Clinical-realted Application: