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Παρασκευή 8 Ιουνίου 2018

Microfiber Drug/Gene Delivery Platform for Study of Myelination

Publication date: Available online 7 June 2018
Source:Acta Biomaterialia
Author(s): William Ong, Junquan Lin, Marie E. Bechler, Kai Wang, Mingfeng Wang, Charles ffrench-Constant, Sing Yian Chew
Our ability to rescue functional deficits after demyelinating diseases or spinal cord injuries is limited by our lack of understanding of the complex remyelination process, which is crucial to functional recovery. In this study, we developed an electrospun suspended poly(ε-caprolactone) microfiber platform to enable the screening of therapeutics for remyelination. As a proof of concept, this platform employed scaffold-mediated non-viral delivery of a microRNA (miR) cocktail to promote oligodendrocyte precursor cells (OPCs) differentiation and myelination. We observed enhanced OPCs differentiation when the cells were transfected with miR-219 and miR-338 on the microfiber substrates. Moreover, miRs promoted the formation of MBP+ tubular extensions around the suspended fibers, which was indicative of myelination, instead of flat myelin membranes on 2D substrates. In addition, OPCs that were transfected with the cocktail of miRs formed significantly longer and larger amounts of MBP+ extensions. Taken together, these results demonstrate the efficacy of this functional screening platform for understanding myelination.Statement of SignificanceThe lack of understanding of the complex myelination process has hindered the discovery of effective therapeutic treatments for demyelinating diseases. Hence, in vitro models that enable systematic understanding, visualization and quantification of myelination are valuable. Unfortunately, achieving reproducible in vitro myelination by oligodendrocytes (OLs) remains highly challenging. Here, we engineered a suspended microfiber platform that enables sustained non-viral drug/gene delivery to study OL differentiation and myelination. Sustained drug delivery permits the investigation of OL development, which spans several weeks. We show that promyelinogenic microRNAs promoted OL differentiation and myelination on this platform. Our engineered microfiber substrate could serve as a drug/gene screening platform and facilitate future translation into direct implantable devices for in vivo remyelination purposes.

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