Plant microRNAs from Moringa oleifera Regulate Immune Response and HIV Infection.

Antonella Minutolo,Carla Montesano,Sandro Grelli,Rosario Muleo,Federico Iacovelli,Massimo Andreoni,Vittorio Colizzi,Carlotta Cerva,Marina Potestà,Valentina Roglia,Alessandro Desideri,Marco Cirilli,Joseph Fokam

doi:10.3389/fphar.2020.620038

Abstract

Traditional medicine is often chosen due to its affordability, its familiarity with patient’s cultural practices, and its wider access to the local community. Plants play an important role in providing indispensable nutrients, while specific small RNAs can regulate human gene expression in a cross-kingdom manner. The aim of the study was to evaluate the effects of plant-enriched purified extract microRNAs from Moringa oleifera seeds (MO) on the immune response and on HIV infection. Bioinformatic analysis shows that plant microRNAs (p-miRs) from MO belonging to 18 conserved families, including p-miR160h, p-miR166, p-miR482b, p-miR159c, p-miR395d, p-miR2118a, p-miR393a, p-miR167f-3p, and p-miR858b are predicted to target with high affinity BCL2, IL2RA, TNF, and VAV1, all these being involved in the cell cycle, apoptosis, immune response and also in the regulation of HIV pathogenesis. The effects of MO p-miRs transfected into HIV+ PBMCs were analyzed and revealed a decrease in viability associated with an increase of apoptosis; an increase of T helper cells expressing Fas and a decrease of intracellular Bcl2 protein expression. Meanwhile no effects were detected in PBMCs from healthy donors. In CD4+ T cells, transfection significantly reduced cell activation and modified the T cell differentiation, thereby decreasing both central and effector memory cells while increasing terminal effector memory cells. Interestingly, the p-miRs transfection induces a reduction of intracellular HIV p24 protein and a reduction of viral DNA integration. Finally, we evaluated the effect of synthetic (mimic) p-miR858b whose sequence is present in the MO p-miR pool and predicted to target VAV1, a protein involved in HIV-Nef binding. This protein plays a pivotal role in T cell antigen receptor (TCR) signaling, so triggering the activation of various pathways. The transfection of HIV+ PBMCs with the synthetic p-miR858b showed a reduced expression of VAV1 and HIV p24 proteins. Overall, our evidence defines putative mechanisms underlying a supplementary benefit of traditional medicine, alongside current antiretroviral therapy, in managing HIV infection in resource-limited settings where MO remains widely available.

Highlights

MiRNAs are a short sequence of non-coding small RNAs that play a pivotal role in gene regulation at the post transcriptional level, in mammals and in plants
A novel prediction tool obtained by combining different RNARNA interaction prediction algorithms was used in order to test the probability of the most conserved plant microRNAs (p-miRs) to interact with the genes involved in HIV infection
The generated list of total genes, modulated by a pool of Moringa oleifera seeds (MO) p-miRs to perform a functional annotation clustering, enabled us to depict the potential importance of p-miRs treatment by modulating a span of gene sets dysregulated in several other diseases

Summary

Introduction

MiRNAs are a short sequence of non-coding small RNAs that play a pivotal role in gene regulation at the post transcriptional level, in mammals and in plants. In 2012 it was reported for the first time that plant-derived miRNAs from rice passing through the gastrointestinal tract could be absorbed and reach, via the bloodstream, the body organs, exerting their biological function (Zhang et al, 2012) Even though it remains an issue still much debated (Campbell, 2020), there is increasing evidence on the regulatory role of gene expression machinery in host cell by intake and bioavailability of dietary plantderived miRNAs (Liang et al, 2015; Zhou et al, 2015; Lukasik and Zielenkiewicz, 2017; Minutolo et al, 2018). Considering the complex interactions between the immune system and HIV, the present paper aims to investigate the effects of MO seed extracts enriched in miRNAs, on the regulation of immune response and on HIV replication and integration on peripheral blood mononuclear cells (PBMCs) from HIV-positive patients

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