Department of Biomedical Engineering, Translational Tissue Engineering Center, and Institute for NanoBiotechnology, Johns Hopkins University School of Medicine, 400 N. Broadway, Baltimore, MD 21231, USA.
Biomaterials. 2012 Nov;33(32):8142-51. doi: 10.1016/j.biomaterials.2012.07.036. Epub 2012 Aug 4.
Enhancing human mesenchymal stem cell (hMSC) differentiation via RNA interference (RNAi) could provide an effective way of controlling cell fate for tissue engineering, but a safe and effective delivery vehicle must first be developed. Here, we evaluated an array of synthetic end-modified poly(beta-amino ester) (PBAE)-based nanoparticles to optimize siRNA delivery into hMSCs. In general, cystamine-terminated polymers caused the most knockdown, with the best polymer achieving 91% knockdown 20 days post-transfection. Binding studies revealed that the cystamine-terminated polymer bound siRNA tightly at lower weight ratios of polymer to siRNA but then efficiently released siRNA upon exposure to a reducing environment, suggesting that this class of PBAEs can form tight initial interactions with its cargo and then cause efficient, environmentally-triggered release in the cytoplasm. Finally, we tested a functional application of this system by transfecting hMSCs with siRNA against an inhibitor of osteogenesis, B-cell lymphoma (Bcl)-like protein 2 (BCL2L2). This resulted in enhanced osteogenesis over 4 weeks as evidenced by Alizarin Red S staining and calcium quantification. The bioreducible PBAE/siRNA nanoparticles developed here can provide a means of safe and effective control of hMSC differentiation for a wide variety of applications.
通过 RNA 干扰 (RNAi) 增强人间充质干细胞 (hMSC) 的分化,可以为组织工程提供一种有效控制细胞命运的方法,但首先必须开发出一种安全有效的递送载体。在这里,我们评估了一系列合成的末端修饰的聚(β-氨基酯)(PBAE)-基于纳米粒子来优化 siRNA 递送到 hMSCs。一般来说,半胱胺封端的聚合物引起的敲低最多,最好的聚合物在转染后 20 天达到 91%的敲低。结合研究表明,半胱胺封端的聚合物在较低的聚合物与 siRNA 的重量比下与 siRNA 紧密结合,但随后在暴露于还原环境时有效地释放 siRNA,这表明这一类 PBAEs 可以与 cargo 形成紧密的初始相互作用,然后在细胞质中引起有效的、环境触发的释放。最后,我们通过用针对成骨抑制剂 B 细胞淋巴瘤 2 (Bcl)-样蛋白 2 (BCL2L2) 的 siRNA 转染 hMSC 来测试该系统的功能应用。这导致在 4 周内增强了成骨作用,如茜素红 S 染色和钙定量所证明的那样。这里开发的生物还原 PBAE/siRNA 纳米粒子可以为各种应用提供安全有效的 hMSC 分化控制手段。