Sustained release of MAPK14‐targeting siRNA from polyelectrolyte complex hydrogels mitigates MSC osteogenesis in vitro with potential application in growth plate injury

材料科学 自愈水凝胶 间充质干细胞 细胞生物学 基因敲除 体外 生物医学工程 MAPK/ERK通路 软骨 小干扰RNA 体内 解剖 生物化学 信号转导 医学 转染 细胞培养 高分子化学 生物 生物技术 细胞凋亡 遗传学
作者
Bikram Adhikari,Michael A. Stager,Elise G. Collins,Kristine M. Fischenich,Jesutomisin Olusoji,Ana Ferreira Ruble,Karin A. Payne,Melissa D. Krebs
出处
期刊:Journal of Biomedical Materials Research Part A [Wiley]
卷期号:112 (12): 2346-2357 被引量:2
标识
DOI:10.1002/jbm.a.37784
摘要

The growth plate is a cartilage structure at the end of long bones which mediates growth in children. When fractured, the formation of bony repair tissue known as a "bony bar" can occur and cause limb deformities. There are currently no effective clinical solutions for the prevention of the bony bar formation or regeneration of healthy growth plate cartilage after a fracture. This study employs previously developed alginate/chitosan polyelectrolyte complex (PEC) hydrogels as a sustained release vehicle for the delivery of short-interfering RNA (siRNA). Specifically, the siRNA targets the p38-MAPK pathway in mesenchymal stem cells (MSCs) to prevent their osteogenic differentiation. In vitro experimental findings show sustained release of siRNA from the hydrogels for 6 months. Flow cytometry and confocal imaging indicate that the hydrogels release siRNA to effectively knockdown GFP expression over a sustained period. MAPK-14 targeting siRNA was used to knockdown the expression of MAPK-14 and correspondingly decrease the expression of other osteogenic genes in MSCs in vitro over the span of 21 days. These hydrogels were used in a rat model of growth plate injury to determine whether siMAPK-14 released from the gels could inhibit bony bar formation. No significant reduction of bony bar formation was seen in vivo at the one concentration of siRNA examined. This PEC hydrogel represents a significant advancement for siRNA sustained delivery, and presents an interesting potential therapeutic delivery system for growth plate injuries and other regenerative medicine applications.
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