Taken together, this study highlights an important role for miR-31 in the suppression of BAP1 in lung cancer cells and may provide insights into the molecular mechanisms of lung carcinogenesis.
Taken together, our results demonstrate for the first time that miR-31 plays a significant role in activating the RAS signaling pathway through the inhibition of RASA1 translation, thereby improving colorectal cancer cell growth and stimulating tumorigenesis.
Additionally, correlation of the miR-31 expression with clinicopathologic features in CRC samples was examined in support of the driving role of newly identified miR-31/FIH-1 nexus in CRC tumorigenesis.
A serum-tolerant subline, M31OK1-D, exhibits potent anchorage-independent growth that is attenuated by knockdown of both hTERT and miR-31. miR-31-targeted factors inhibiting HIF (FIH), which upregulated vascular endothelial growth factor (VEGF), was found crucial for oral tumorigenesis.
Overexpression of SATB2 induces malignant transformation of human bronchial epithelial (BEAS-2B) cells indicating the importance of the expression of miR-31 in preventing carcinogenesis by suppressing SATB2 protein levels.
CONCLUSIONS Reduced expression level of miR-31-3p might play a key role in the tumorigenesis of MTC by targeting critical pathways, especially Ras signaling pathway.
These findings suggest possibilities that miR-200a and miR-31 target Dicer and are involved in the carcinogenesis, migration, and behavior of castration-resistant PCa, indicating that they could be potential biomarkers for monitoring PCa progression.
The enhanced expression of miR-31 has been observed in many human malignancies including lung cancer, and this microRNA regulates several aspects of oncogenesis.
Ectopic expression of SATB2 by transiently transfected with pCAG-SATB2 vector encoding the entire SATB2 coding sequence could reverse the effects of miR-31 on CRC tumorigenesis and progression.
Here, we show that the genomic region surrounding human miR-31 at 9p21.3 is frequently deleted in many solid tumor cell lines, and reintroducing miR-31 into DAOY cells, a line of human medulloblastoma cells devoid of miR-31, strongly suppresses cell growth, causes cell cycle arrest at the G1/S boundary, and inhibits colony formation in vitro and xenograft tumorigenesis in nude mice.
Our study distinguishes miR-31 as a driver of lung tumorigenesis that promotes mutant KRAS-mediated oncogenesis and reveals that miR-31 directly targets and reduces expression of negative regulators of RAS/MAPK signaling.
Although aberrant expression of miR-31 has been found in different types of cancer, its pathophysiological effect and role in tumorigenesis still remain to be elucidated.
MicroRNAs (miRNAs) are short, non-coding RNAs that regulate gene expression and modulate physiological or pathological processes including OSCC carcinogenesis. miR-31 has been found to be up-regulated in OSCC and to act as an oncogenic miRNA.
This new information may help to clarify the molecular mechanisms involved in gastric carcinogenesis and to indicate that miR-31 may be a novel diagnostic biomarker of gastric cancer.