miRNA-214-3p targets BNIP3 to affect autophagy and thus drive gastric cancer progression.

Abstract

With a fourth-place death rate among all malignancies, gastric cancer (GC) is one of the most prevalent tumors globally. As a primary malignant characteristic of GC, metastasis contributes substantially to a high death rate and unfavorable prognosis. miRNA-214-3p can influence cell apoptosis since it is an autophagy-regulating molecule. Its significance in GC malignant development has not, however, been investigated in terms of mechanism. qRT-PCR was utilized to confirm expression of miRNA-214-3p in GC tissues and cells. Bioinformatics analysis was then implemented to examine BNIP3 expression in GC as well as binding interaction between BNIP3 and miRNA-214-3p. The targeting capability of miRNA-214-3p on BNIP3 was confirmed using the dual-luciferase assay. Capacities of cells to proliferate, migrate, and invade were assayed using Transwell assays and colony formation. In order to determine if GC cells were capable of autophagy, immunofluorescence and western blot were employed. In GC, miRNA-214-3p was substantially expressed in GC tissues and cells, but BNIP3 was downregulated, as shown by bioinformatics analysis and verified by cell tests. MiRNA-214-3p targeted BNIP3, as shown by further bioinformatics analysis, and dual-luciferase experiment verified this binding connection. MicroRNA-214-3p facilitated cell invasion, migration, and proliferation, as shown by Transwell tests and colony formation. MiRNA-214-3p accelerated malignant development of GC by targeting BNIP3 to impact autophagy, as demonstrated by immunofluorescence and western blot analyses. By targeting BNIP3 to affect autophagy, miRNA-214-3p aided in the malignant growth of GC. This suggested that miRNA-214-3p may function as a likely therapeutic target or biomarker for the disease, with significant implications for early diagnosis and treatment of patients.