KDM5B-mediated microRNA-448 up-regulation restrains papillary thyroid cancer cell progression and slows down tumor growth via TGIF1 repression.

OBJECTIVE:Papillary thyroid cancer (PTC) is the most ordinary type of thyroid cancer. Studies pivoting on the mechanisms of microRNAs (miRNAs) are adequately explored but not much on miR-448 in PTC. Thus, this study is proposed to bring forward the uncovered mechanisms of miR-448 in PTC. METHODS:Lysine specific demethylase 5B (KDM5B), miR-448 and transforming growth factor β-induced factor 1 (TGIF1) expression in PTC tissues and cell lines were detected. The connection between miR-448 expression and clinicopathological characteristics of PTC patients was determined. PTC cell lines TPC-1 and K-1 were transfected with sh-KDM5B, si-TGIF1 or miR-448 mimic to explore their roles in PTC cell progression. Tumor xenografts in nude mice was performed to detect tumor volume and weight. RESULTS:KDM5B and TGIF1 were increased and miR-448 was declined in PTC tissues and cell lines. MiR-448 expression was connected with N stage, lymph node metastasis and advanced tumor node metastasis stage of PTC patients. KDM5B knockdown or TGIF1 reduction or miR-448 elevation undermined PTC cell progression and inhibited tumor growth of nude mice. Down-regulation of miR-448 followed by KDM5B knockdown reversed the effect of decreased KDM5B on the proliferation inhibition and apoptosis promotion of PTC cells. CONCLUSION:Our study elaborates that KDM5B-mediated miR-448 up-regulation restrains PTC cell progression and slows down tumor growth via TGIF1 repression, which provides a novel reference for treatment of PTC.

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