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Baicalin suppresses lung cancer growth phenotypes via miR-340-5p/NET1 axis

Fucheng Zhao, Zhenxia Zhao, Yanru Han, Sujuan Li, Caili Liu, Kui Jia

2021Bioengineered42 citationsDOIOpen Access PDF

Abstract

As a malignant disease, lung cancer has a high morbidity and mortality rate. Baicalin is derived from Radix Scutellariae and has anti-tumor effects, however, its role in lung cancer remains unknown. Here, functional assays suggested baicalin suppressed in vitro lung cancer phenotypes. We used micro (mi)RNA array analysis to explore baicalin effects on miRNA expression. We observed baicalin increased miR-340-5p expression, whereas inhibition of this expression abolished anti-tumor effects of baicalin. Furthermore, neuroepithelial cell transforming 1 (NET1) functioned as a miR-340-5p target, and acted in a baicalin-dependent manner to regulate lung cancer progression. Thus, baicalin elicited antitumor activities by affecting the miR-340-5p/NET1 axis, suggesting a new approach to lung cancer clinical management.

Topics & Concepts

BaicalinLung cancerPhenotypeCancer researchCancermicroRNANeuroepithelial cellMedicineLungBiologyPathologyInternal medicineChemistryCell biologyGeneBiochemistryStem cellChromatographyNeural stem cellHigh-performance liquid chromatographyFlavonoids in Medical ResearchMachine Learning in BioinformaticsNatural product bioactivities and synthesis
Baicalin suppresses lung cancer growth phenotypes via miR-340-5p/NET1 axis | Litcius