Wallace H. Coulter Department of Biomedical Engineering, Georgia Institute of Technology and Emory University, 950 Atlantic Dr. NW, Engineered Biosystems Building, Atlanta, GA, 30332, USA.
In-Cell-Art, 21 rue de la Noue Bras de Fer, 44200, Nantes, France.
Biomaterials. 2018 Mar;159:189-203. doi: 10.1016/j.biomaterials.2018.01.010. Epub 2018 Jan 6.
The translational efficiency of an in vitro transcribed (IVT) mRNA was measured upon delivery to primary skeletal muscle cells and to a mouse model system, towards the development of a predictive in vitro assay for the screening and validation of intramuscular mRNA-based vaccines. When IVT mRNA was delivered either naked or complexed with novel aminoglycoside-based delivery vehicles, significant differences in protein expression in vitro and in vivo were observed. We hypothesized that this previously anticipated discrepancy was due to differences in the mechanism of IVT mRNA endosomal entry and release following delivery. To address this, IVT mRNA was fluorescently labeled prior to delivery, to visualize its distribution. Colocalization with endosomal markers indicated that different entry pathways were utilized in vivo and in vitro, depending on the delivery vehicle, resulting in variations in protein expression levels. Since extracellular matrix stiffness (ECM) influences mRNA entry, trafficking and release, the effect of mechanotransduction on mRNA expression was investigated in vitro upon delivery of IVT mRNA alone, and complexed with delivery vehicles to skeletal muscle cells grown on ∼10 kPa hydrogels. This in vitro hydrogel model more accurately recapitulated the results obtained in vivo upon IM injection, indicating that this approach may assist in the characterization of mRNA based vaccines.
将体外转录 (IVT) mRNA 递送至原代骨骼肌细胞和小鼠模型系统,以开发用于筛选和验证肌内 mRNA 疫苗的预测性体外测定法,测量了其翻译效率。当 IVT mRNA 以裸形式或与新型氨基糖苷类递送载体复合形式递送至细胞时,在体外和体内观察到蛋白质表达存在显著差异。我们假设,这种先前预期的差异是由于递送后 IVT mRNA 内体进入和释放的机制不同所致。为了解决这个问题,在递送之前对 IVT mRNA 进行了荧光标记,以可视化其分布。与内体标记物的共定位表明,根据递送载体,在体内和体外利用了不同的进入途径,从而导致蛋白质表达水平的变化。由于细胞外基质刚度 (ECM) 会影响 mRNA 的进入、转运和释放,因此在体外研究了单独递送 IVT mRNA 以及将其与递送载体复合递送至在约 10kPa 水凝胶上生长的骨骼肌细胞时,机械转导对 mRNA 表达的影响。这种体外水凝胶模型更准确地再现了肌内注射后在体内获得的结果,表明这种方法可能有助于对基于 mRNA 的疫苗进行表征。
