Abstract
Within the field of disc degeneration-related low back pain, the spine community has been increasingly acknowledging the regenerative potential of extracellular vesicles (EVs). EVs are small lipid bilayer-delimited particles naturally released by cells, involved in intercellular signaling. They do so by interacting with recipient cells and releasing their biological cargo (e.g., mRNA, miRNA, DNA, protein, lipid)EVs derived from mesenchymal stromal cells and, more recently, also EVs from notochordal cells, the cells residing within the core of the juvenile human disc, are being actively studied. In general, they have been proposed to mitigate inflammation/catabolic processes, reduce apoptosis, stimulate proliferation and even improve the matrix producing capacity of the treated cells. Within this context, appropriate characterization of EVs is essential to increase the level of evidence that the reported effects are indeed EV-associated. To analyze the purity and biochemical composition of EV preparations the International Society for Extracellular Vesicles (ISEV) has prepared guidelines recommending the analysis of multiple (EV) markers, as well as proteins co-isolated/recovered with EVs. Alongside, to prove that the effects are EV-associated and not due to co-isolated factors from the tissue or cells used to derive the EVs, appropriate technical controls need to be taken along (during cell/tissue culture). As such the question arises: “what is the evidence so far?”While from a fundamental perspective EVs are very appealing, the use of natural EVs in clinical applications is challenging. It comes with drawbacks, including biologic variability, yield, cumbersome isolation, and challenging upscaling and storage to achieve industrial levels. To date there is no FDA-approved EV-based therapy for disc-related lower back pain.Nonetheless, EV-based therapeutic approaches have unique advantages over the use of (pluripotent) stem cell-based therapies, such as a high biologic, but low immunogenic and tumorigenic potential.Acknowledgements: This talk is based on experiences from part of the project NC-CHOICE [no. 19251] of the research talent programme VICI financed by the Dutch Research Council (NWO) and the iPSpine project that receives funding from the European Union's Horizon 2020 research and innovation program under grant agreement no. 825925.
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