大鼠对硫代寡核苷酸的摄取动力学和视网膜耐受及其通过视网膜下给药直接递送至脉络膜新生血管部位。

W. Shen, P. Rakoczy
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引用次数: 16

摘要

本研究旨在研究视网膜下注射硫代寡核苷酸(PS-oligos)后的摄取动力学和视网膜耐受性。采用经巩膜-脉络膜-视网膜色素上皮(RPE)注射的方法,将随机序列的荧光标记PS-oligo (FL-oligo)按0.129、1.29和12.9 μ g的剂量在2.0 μ l溶液中注入大鼠视网膜下间隙。通过眼底荧光实时摄影和荧光显微镜平载和冷冻切片评估摄取动力学。对CD4+、CD8+细胞毒性淋巴细胞和CD68+巨噬细胞进行免疫表型分析,评估视网膜细胞浸润情况。此外,在大鼠脉络膜新生血管(CNV)模型中,通过视网膜下注射fl寡核苷酸,直接递送到CNV部位。在视网膜下给药FL-oligo导致在视网膜中的剂量依赖性和时间依赖性分布,它进入RPE和神经视网膜的所有层。针刺部位观察到CD4+、CD8+细胞毒淋巴细胞和CD68+巨噬细胞。然而,在远离注射部位强烈出现FL-oligo的区域,没有细胞浸润,视网膜形态保存得很好。fl寡聚物成功地传递到强激光光凝部位。它主要局限于RPE、巨噬细胞和一些脉络膜细胞,注射后至少56天仍可检测到。我们的研究结果首次证明,视网膜下注射有效地将PS-oligo引入RPE和神经视网膜,并具有可接受的安全水平。视网膜下给药抗血管生成寡核苷酸可能具有治疗CNV的巨大潜力。
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Uptake dynamics and retinal tolerance of phosphorothioate oligonucleotide and its direct delivery into the site of choroidal neovascularization through subretinal administration in the rat.
This study aimed to investigate uptake dynamics and retinal tolerance of phosphorothioate oligonucleotides (PS-oligos) following subretinal injection. A fluorescent-labeled PS-oligo (FL-oligo) with random sequence was administered into the subretinal space of rat by transsclera-choroid-retinal pigment epithelium (RPE) injection at doses of 0.129, 1.29, and 12.9 microg in 2.0 microl solution. The uptake dynamics were evaluated by fundus fluorescent photography in real time and by fluorescence microscopy using flat mounts and cryosections. Immunophenotyping for CD4+, CD8+ cytotoxic lymphocytes, and CD68+ macrophages was performed to assess cellular infiltration in the retina. In addition, the FL-oligo was injected subretinally in a rat model of choroidal neovascularization (CNV) for direct delivery into the site of CNV. Subretinal administration of FL-oligo resulted in both dose-dependent and time-dependent distribution in the retina, where it accessed the RPE and all layers of the neuroretina. CD4+, CD8+ cytotoxic lymphocytes, and CD68+ macrophages were observed at the site of needle penetration. However, in areas far from the injection site where the FL-oligo appeared strongly, cellular infiltration was absent, and the retinal morphology was preserved very well. The FL-oligo was successfully delivered into the site of intense laser photocoagulation. It was predominantly localized to the RPE, macrophages, and some choroid cells and remained detectable for at least 56 days after injection. Our results demonstrate for the first time that subretinal injection efficiently introduced PS-oligo into the RPE and neuroretina with an acceptable level of safety. Subretinal administration of antiangiogenic oligonucleotides may hold great potential for the treatment of CNV.
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