circRNA basic information
circBase ID: -
Name: hsa_circ_CDK17
Synonym: circ_101119
Host Gene: CDK17
Genomic location(hg19): -
Genomic location(hg38): -
Subcellular localization: cytoplasm
 
 
 
 
 
 
 
Disease basic information
MONDO ID:
0002974
MONDO name: cervical cancer
Disease details: cervical cancer / CC
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; normal cervical tissues; tumor tissues

Cell lines:

C-33A; HeLa; Ect1/E6E7

In vivo animal model:

cell line-derived xenograft

circRNA-disease information
Expression pattern:
UP
Associated gene: YWHAZ, GLUT1, HK2
Associated microRNA: miR-1294
Biological function: promotes cell proliferation, migration, invasion and glycolysis, and inhibits apoptosis in cervical cancer
Molecular mechanism: acts as a miRNA sponge (ceRNA) for miR-1294 to regulate YWHAZ expression
Biological pathway or process:

proliferation (promotes); migration (promotes); invasion (promotes); apoptosis (inhibits); glycolysis (promotes); ceRNA regulation (promotes)

Detected method:
Q
S
Validation methods:

Bioinformatics Analysis; RT-qPCR; RNase R Treatment; Transfection; CCK8; Transwell Assay; Annexin V/PI Flow Cytometry; Luciferase Reporter Assay; RNA Pull-Down; Nuclear-Cytoplasmic Fractionation; Western Blot; In Vivo Animal Model; Clinical Sample Validation; RNA-seq

Clinical significance:

-

Description:

circCDK17 is up-regulated in cervical cancer tissues/cells and promotes malignant phenotypes and glycolysis. Mechanistically, it functions as a ceRNA by sponging miR-1294 to increase YWHAZ expression, thereby enhancing proliferation/migration/invasion and reducing apoptosis; circCDK17 knockdown suppresses tumor growth in a HeLa xenograft model.

Confidence score:

0.7893

Other information
Title:

CircCDK17 knockdown inhibits tumor progression and cell glycolysis by downregulaing YWHAZ expression through sponging miR-1294 in cervical cancer.

Journal: Journal of ovarian research
Published: 2022
PubMed ID: 35168653
Study type:

combined biological and clinical study

Data availability: GSE102686
Code availability: -