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Platelet-Derived miR-126-3p Directly Targets AKT2 and Exerts Anti-Tumor Effects in Breast Cancer Cells: Further Insights in Platelet-Cancer Interplay

Matteo Sibilano, Valentina Tullio, Gaspare Adorno, Isabella Savini, Valeria Gasperi, Maria Valeria Catani

2022International Journal of Molecular Sciences32 citationsDOIOpen Access PDF

Abstract

Among the surrounding cells influencing tumor biology, platelets are recognized as novel players as they release microvesicles (MVs) that, once delivered to cancer cells, modulate signaling pathways related to cell growth and dissemination. We have previously shown that physiological delivery of platelet MVs enriched in miR-126 exerted anti-tumor effects in different breast cancer (BC) cell lines. Here, we seek further insight by identifying AKT2 kinase as a novel miR-126-3p direct target, as assessed by bioinformatic analysis and validated by luciferase assay. Both ectopic expression and platelet MV-mediated delivery of miR-126-3p downregulated AKT2 expression, thus suppressing proliferating and invading properties, in either triple negative (BT549 cells) or less aggressive Luminal A (MCF-7 cells) BC subtypes. Accordingly, as shown by bioinformatic analysis, both high miR-126 and low AKT2 levels were associated with favorable long-term prognosis in BC patients. Our results, together with the literature data, indicate that miR-126-3p exerts suppressor activity by specifically targeting components of the PIK3/AKT signaling cascade. Therefore, management of platelet-derived MV production and selective delivery of miR-126-3p to tumor cells may represent a useful tool in multimodal therapeutic approaches in BC patients.

Topics & Concepts

AKT2MicrovesiclesCancer researchEctopic expressionCancer cellProtein kinase BCancerPlateletmicroRNABiologySignal transductionMedicineAKT1Cell biologyCell cultureImmunologyInternal medicineBiochemistryGeneGeneticsExtracellular vesicles in diseaseCancer-related molecular mechanisms researchMicroRNA in disease regulation