tsRNADisease

Entry Detail

General Information

Database ID:	TRD01877
Confidence:	High
Contents:	>> tsRNA Information >> tsRNA Association Statistics >> Disease Information >> Disease Association Statistics >> Evidence Support >> Reference

tsRNA Information

tsRNA Name:

3'tRF-CAT1

tsRNA Type:

tRF-3

Amino acid and Anticodon:

AlaAGC

Sequence:

TCCCCAGTACCTCCACCA

Related Target:

Predicted Target:

SEC14L1//RIC3//GNPTAB//RETREG3//C6orf223//SNX33//KLF14//COLGALT1//PDE6C//SEMA3G

External Links:

MINTbase ID:	tRF-18-8R1546D2
tRFdb ID:	N/A

[1] gtRNAdb_ID:	tRNA-Ala-AGC-1-1
Anticodon:	AlaAGC
tRNA_number:	trna108
Chromosome:	6
Strand:	-
Coordinate:	Start Site(bp): 28763741-3 End Site(bp): 28763755

tsRNA Association Statistics

Total Associated Disease Number:	55 More Information
Network: (Display the first 15 nodes)

Disease Information

	MeSH	Disease Ontology
Disease ID:	N/A	DOID:3907
Disease Name:	N/A	lung squamous cell carcinoma
Category:	MeSH	Disease Ontology
Type:	N/A	disease of anatomical entity//disease of cellular proliferation
Define:	N/A	A non-small cell lung carcinoma that has_material_basis_in the squamous cell.
Alias:	N/A	Epidermoid cell carcinoma of the lung//squamous cell carcinoma of lung

Disease Association Statistics

Total Associated tsRNA Number:	2 More Information
Network: (Display the first 15 nodes)

Evidence Support

Strong Evidence:	RT-PCR
Weak Evidence:	High-throughput sequencing

Reference

[1] PubMed ID:	37943661
Disease Name:	lung squamous cell carcinoma
Tissue:	N/A
Dysfunction Pattern:	Up-Regulation
Validated Method:	RT-PCR//High-throughput sequencing
Description:	Pan-cancer tRNA-derived fragment CAT1 coordinates RBPMS to stabilize NOTCH2 mRNA to promote tumorigenesis.
Comparision:	Cancer VS Normal
Mechanism:	We demonstrate that a pan-cancer 30 -tRF, CAT1 (cancer associated tRF 1), is ubiquitously upregulated in tumors and associated with poor prognosis of a variety of cancers, including lung cancer. The upregulated CAT1 in cancer cells binds to RNA-binding protein with multiple splicing (RBPMS) and displaces NOTCH2 association from RBPMS, thereby inhibiting the subsequent CCR4-NOT deadenylation-complexmediated NOTCH2 mRNA decay. The CAT1-enhanced NOTCH2 expression promotes lung cancer cell proliferation and metastasis in vitro and in vivo. In addition, plasma CAT1 levels are substantially increased in patients with lung cancer compared to non-cancer control subjects. Our findings reveal an intrinsic connection between cancer-specific upregulation of CAT1 and cancer progression, show the regulation of NOTCH signaling in cancer by a 30 -tRF, and highlight its great clinical potentia.