Search Result Details | circRNADisease v3.0

circRNA basic information

circBase ID:	hsa_circ_0000069
Name:	-
Synonym:	-
Host Gene:	-
Genomic location(hg19):	chr1:47745912-47748131:-
Genomic location(hg38):	chr1:47280240-47282459:-
Subcellular localization:	cytoplasm

Disease basic information

MONDO ID:	0002974
MONDO name:	cervical cancer
Disease details:	cervical cancer
Disease DO ID:	4362
Disease MeSH ID:	-
Disease NCIt ID:	C9311
Disease ICD11 ID:	1256072522
Disease OMIM ID:	603956
Species:	Human
Species details:	Homo sapiens
Tissue specimen:	CC tissues; para-tumor tissues; adjacent normal tissues; tumor tissues; xenografts
Cell lines:	SiHa; C-4I; HeLa; C-33A; End1/E6E7
In vivo animal model:	cell line-derived xenograft

circRNA-disease information

Expression pattern:	UP
Associated gene:	TUSC3
Associated microRNA:	miR-873-5p
Biological function:	promotes proliferation, migration and invasion; promotes tumor growth in vivo
Molecular mechanism:	Acts as a miRNA sponge for miR-873-5p to facilitate TUSC3 expression
Biological pathway or process:	proliferation (promotes); migration (promotes); invasion (promotes); metastasis (promotes); ceRNA regulation (promotes)
Detected method:	Q M
Validation methods:	Microarray; RT-qPCR; Clinical Sample Validation; Transfection; CCK8; Colony Formation Assay; Transwell Assay; Nuclear-Cytoplasmic Fractionation; RNA Pull-Down; Luciferase Reporter Assay; Western Blot; In Vivo Animal Model; Survival Analysis; Bioinformatics Analysis
Clinical significance:	Upregulated in CC tissues and associated with lymph node metastasis and lower survival of CC patients
Description:	hsa_circ_0000069 is up-regulated in cervical cancer and promotes proliferation, migration, invasion, and xenograft tumor growth. It functions as a ceRNA by sponging miR-873-5p, thereby increasing TUSC3 expression, and its high expression is associated with lymph node metastasis and poor overall survival.
Confidence score:	0.7855

Other information

Title:	CircRNA hsa_circRNA_0000069 promotes the proliferation, migration and invasion of cervical cancer through miR-873-5p/TUSC3 axis.
Journal:	Cancer cell international
Published:	2020
PubMed ID:	32655319
Study type:	combined biological and clinical study
Data availability:	GSE102686
Code availability:	-