miR-500a-3p negatively regulates SOCS2 and participates in the proliferation, glycolysis, and apoptosis of HCC cells via the JAK2/STAT5 pathway.
HCC is a prevalent malignant tumor globally with high mortality. MiR-500a-3p plays critical roles in tumorigenesis and tumor progression.
To evaluate miR-500a-3p's role in HCC, we first analyzed its expression and prognostic value via qRT-PCR and TCGA (Kaplan-Meier analysis). We then performed extensive in vitro functional studies after cell transfection (mimics, anti-miR, SOCS2 OE), measuring proliferation, migration, invasion, glycolytic parameters (glucose consumption, lactate, ECAR, ATP), and apoptosis. A target relationship with SOCS2 was predicted bioinformatically and confirmed by dual-luciferase assay. Using the JAK2/STAT5 signaling pathway inhibitor Fedratinib, the activator Erythropoietin, and transfection with si-STAT5 and oe-STAT5, the molecular mechanism of miR-500a-3p in HCC was investigated. In vivo experiments established tumor-bearing mouse models to evaluate the effect of miR-500a-3p on tumor growth.
miR-500a-3p was significantly upregulated in HCC tissues and cells, and was associated with poor patient prognosis. The overexpression of miR-500a-3p promotes the malignant progression of HCC cells. Mechanistically, miR-500a-3p directly targeted and negatively regulated SOCS2 expression. SOCS2 expression was suppressed in HCC, with its expression abrogating miR-500a-3p-mediated oncogenicity. miR-500a-3p activated the JAK2/STAT5 pathway by inhibiting SOCS2, thereby regulating the malignant biological behaviors of HCC cells. Both SOCS2 overexpression and JAK2 inhibitor treatment could reverse the activation of the JAK2/STAT5 axis and downstream effects induced by miR-500a-3p. MiR-500a-3p promoted tumor growth in tumor-bearing mice, accompanied by SOCS2 downregulation and JAK2/STAT5 pathway activation.
This study reveals that miR-500a-3p promotes proliferation and glycolysis while inhibiting apoptosis of HCC cells by negatively regulating SOCS2 and activating the JAK2/STAT5 pathway.
To evaluate miR-500a-3p's role in HCC, we first analyzed its expression and prognostic value via qRT-PCR and TCGA (Kaplan-Meier analysis). We then performed extensive in vitro functional studies after cell transfection (mimics, anti-miR, SOCS2 OE), measuring proliferation, migration, invasion, glycolytic parameters (glucose consumption, lactate, ECAR, ATP), and apoptosis. A target relationship with SOCS2 was predicted bioinformatically and confirmed by dual-luciferase assay. Using the JAK2/STAT5 signaling pathway inhibitor Fedratinib, the activator Erythropoietin, and transfection with si-STAT5 and oe-STAT5, the molecular mechanism of miR-500a-3p in HCC was investigated. In vivo experiments established tumor-bearing mouse models to evaluate the effect of miR-500a-3p on tumor growth.
miR-500a-3p was significantly upregulated in HCC tissues and cells, and was associated with poor patient prognosis. The overexpression of miR-500a-3p promotes the malignant progression of HCC cells. Mechanistically, miR-500a-3p directly targeted and negatively regulated SOCS2 expression. SOCS2 expression was suppressed in HCC, with its expression abrogating miR-500a-3p-mediated oncogenicity. miR-500a-3p activated the JAK2/STAT5 pathway by inhibiting SOCS2, thereby regulating the malignant biological behaviors of HCC cells. Both SOCS2 overexpression and JAK2 inhibitor treatment could reverse the activation of the JAK2/STAT5 axis and downstream effects induced by miR-500a-3p. MiR-500a-3p promoted tumor growth in tumor-bearing mice, accompanied by SOCS2 downregulation and JAK2/STAT5 pathway activation.
This study reveals that miR-500a-3p promotes proliferation and glycolysis while inhibiting apoptosis of HCC cells by negatively regulating SOCS2 and activating the JAK2/STAT5 pathway.