Department of Bioengineering, College of Engineering, Hanyang University, 222 Wangsimni-ro, Seondong-gu, Seoul 04763, Republic of Korea.
Hanyang Biomedical Research Institute, Hanyang University, Seoul 04763, Republic of Korea.
J Control Release. 2022 Oct;350:471-485. doi: 10.1016/j.jconrel.2022.08.049. Epub 2022 Aug 31.
Ischemic stroke is caused by the occlusion of cerebral arteries. In the ischemic stroke, ischemia-reperfusion injury increases the damage in the brain after reperfusion. In the previous study, heme oxygenase-1 (HO1) mRNA was delivered into the ischemic brain, showing that HO1-mRNA had higher therapeutic effect and less side-effect than HO1-plasmid (pHO1). However, mRNA is degraded faster than plasmid DNA reducing the duration of gene expression. In this study, self-replicating mRNA (Rep-mRNA) was developed using a replicon system from Venezuelan Equine Encephalitis virus to compensate this disadvantage of mRNA delivery. Deoxycholic acid-conjugated polyethylenimine (DA-PEI) was used as a carrier of the mRNAs. The Rep-mRNA/DA-PEI complex had a size of around 90 nm and a zeta-potential of 33 mV. In the in vitro transfection assays, gene expression by the HO1-Rep-mRNA/DA-PEI complex persisted at least 14 days, while that by the HO1-mRNA/DA-PEI complex approached basal level at 3 days after transfection. Therapeutic effects of the HO1-Rep-mRNA/DA-PEI complexes were evaluated in the ischemic stroke animal model. The complexes were injected into the brain stereotaxically. HO1 expression by the HO1-Rep-mRNA/DA-PEI complex persisted at least 7 days after injection, but the pHO1/DA-PEI or HO1-mRNA/DA-PEI complex showed basal level of HO1-expression at 7 days after injection. Due to higher and longer expression of HO1, the apoptosis level and infarct size were decreased by the HO1-Rep-mRNA/DA-PEI complexes, compared with the pHO1/DA-PEI and HO1-mRNA/DA-PEI complex. These results suggest that HO1-Rep-mRNA/DA-PEI complex may have a potential as a long-lasting therapeutic system for the treatment of ischemic stroke.
缺血性中风是由脑动脉阻塞引起的。在缺血性中风中,缺血再灌注损伤会增加再灌注后的脑损伤。在之前的研究中,血红素加氧酶-1 (HO1) mRNA 被递送到缺血性大脑中,结果表明 HO1-mRNA 比 HO1-质粒 (pHO1) 具有更高的治疗效果和更少的副作用。然而,mRNA 的降解速度比质粒 DNA 快,从而缩短了基因表达的时间。在这项研究中,使用来自委内瑞拉马脑炎病毒的复制子系统开发了自我复制的 mRNA (Rep-mRNA),以弥补 mRNA 传递的这一缺点。去氧胆酸偶联的聚乙烯亚胺 (DA-PEI) 被用作 mRNA 的载体。Rep-mRNA/DA-PEI 复合物的大小约为 90nm,zeta 电位为 33mV。在体外转染实验中,HO1-Rep-mRNA/DA-PEI 复合物的基因表达至少持续 14 天,而 HO1-mRNA/DA-PEI 复合物在转染后 3 天接近基础水平。HO1-Rep-mRNA/DA-PEI 复合物在缺血性中风动物模型中的治疗效果进行了评估。复合物通过立体定向脑内注射。HO1-Rep-mRNA/DA-PEI 复合物中 HO1 的表达至少在注射后 7 天持续,但 pHO1/DA-PEI 或 HO1-mRNA/DA-PEI 复合物在注射后 7 天显示出基础水平的 HO1 表达。由于 HO1 的表达更高且持续时间更长,与 pHO1/DA-PEI 和 HO1-mRNA/DA-PEI 复合物相比,HO1-Rep-mRNA/DA-PEI 复合物降低了细胞凋亡水平和梗死面积。这些结果表明,HO1-Rep-mRNA/DA-PEI 复合物可能作为治疗缺血性中风的长效治疗系统具有潜力。
