Abstract

BackgroundAdipose-derived mesenchymal stem cells (ADSC)-based therapy is an outstanding treatment strategy for ischaemic disease. However, the therapeutic efficacy of this strategy is not ideal due to the poor paracrine function and low survival rate of ADSCs in target regions. Platelet extracellular vesicles (PEVs) are nanoparticles derived from activated platelets that can participate in communication between cells. Accumulating evidence indicates that PEVs can regulate the biological functions of several cell lines. In the present study, we aimed to investigate whether PEVs can modulate the proangiogenic potential of ADSCs in vitro and in vivo.MethodsPEVs were identified using scanning electron microscope (SEM), flow cytometry (FCM) and nanoparticle tracking analysis (NTA). The CCK8 assay was performed to detect proliferation of cells. Transwell and wound healing assays were performed to verify migration capacity of cells. AnnexinV-FITC/PI apoptosis kit and live/dead assay were performed to assess ADSCs apoptosis under Cocl2-induced hypoxia condition. The underlying mechanisms by which PEVs affected ADSCs were explored using real time-PCR(RT-PCR) and Western blot. In addition, matrigel plug assays were conducted and mouse hindlimb ischaemic models were established to investigate the proangiogenic potential of PEV-treated ADSCs in vivo.ResultsWe demonstrated that ADSC could internalize PEVs, which lead to a series of biological reactions. In vitro, dose-dependent effects of PEVs on ADSC proliferation, migration and antiapoptotic capacity were observed. Western blotting results suggested that multiple proteins such as ERK, AKT, FAK, Src and PLCγ1 kinase may contribute to these changes. Furthermore, PEVs induced upregulation of several growth factors expression in ADSCs and amplified the proliferation, migration and tube formation of HUVECs induced by ADSC conditioned medium (CM). In in vivo experiments, compared with control ADSCs, the injection of PEV-treated ADSCs resulted in more vascularization in matrigel plugs, attenuated tissue degeneration and increased blood flow and capillary density in ischaemic hindlimb tissues.ConclusionOur data demonstrated that PEVs could enhance the proangiogenic potential of ADSCs in mouse hindlimb ischaemia. The major mechanisms of this effect included the promotion of ADSC proliferation, migration, anti-apoptosis ability and paracrine secretion.

Highlights

  • Adipose-derived mesenchymal stem cells (ADSC)-based therapy is an outstanding treatment strategy for ischaemic disease

  • The flow cytometry results showed that the Platelet extracellular vesicles (PEVs) we extracted were strongly positive for Annexin V and the PLT-specific surface marker CD41a [23] (Fig. 1B)

  • The results indicated that the ADSCs were strongly positive for the stem cell surface markers CD29 (92.7%), CD44 (99.6%), CD90 (99.8%) and CD105 (99.8%) but did not express CD45 (0.1%) or CD34 (6.71%) (Fig. 2D)

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Summary

Introduction

Adipose-derived mesenchymal stem cells (ADSC)-based therapy is an outstanding treatment strategy for ischaemic disease. The therapeutic efficacy of this strategy is not ideal due to the poor paracrine function and low survival rate of ADSCs in target regions. Many preclinical studies have confirmed that transplantation of ADSCs into an ischaemic model accelerates angiogenesis primarily through the paracrine function of proangiogenic and antiapoptotic factors rather than through the direct formation of new vessels via differentiation [6, 7]. ADSCs have poor cell retention and survival rate in target areas which significantly limit its optimal in vivo therapeutic efficacy [8, 9]. Increasing the proliferation, migration and antiapoptotic capacity and promoting the paracrine and proangiogenic abilities of transplanted stem cells are crucial for ADSC-based therapy [12, 13]

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