Abstract
Retinoblastoma, often referred to as eye cancer, is a common primary pediatric intraocular malignancy. In this framework, micro ribose nucleic acids (miRNAs) play essential roles in retinoblastoma oncogenesis and development. However, the function and mechanism of the miR-141-3p/sushi domain-containing protein 2 (SUSD2) axis in retinoblastoma are unclear. To address these issues, miR-141-3p and SUSD2 expressions between the retinoblastoma patients and the normal control are identified by analyzing the Gene Expression Omnibus (GEO) datasets. Moreover, bioinformatics analysis, a dual-luciferase reporter assay, functional loss, and gain together with rescue experiments are employed to explore the biological function and molecular mechanisms of the miR-141-3p/SUSD2 axis in retinoblastoma oncogenesis and development. Our data showed that SUSD2 levels are considerably decreased in retinoblastoma cells and tissues. SUSD2 overexpression inhibited viability, promoting apoptosis of retinoblastoma cells and inhibiting tube formation of primary human umbilical vein endothelial cells (HUVECs) in vitro. The bioinformatics analysis and dual-luciferase reporter tests showed that SUSD2 is directly regulated by miR-141-3p. The miR-141-3p inhibition suppressed retinoblastoma growth and angiogenesis, while miR-141-3p overexpression increased retinoblastoma growth and angiogenesis, which is partially reversed when SUSD2 is over-expressed both in vivo and in vitro. In conclusion, SUSD2 is a tumor-suppressor in retinoblastoma. miR-141-3p/SUSD2 axis played an essential role in regulating angiogenesis and retinoblastoma progression, serving as a new biomarker for management of retinoblastoma.
Keywords:
Retinoblastoma; SUSD2; miR-141-3p.