Mietzner Raphael, Kade Christian, Froemel Franziska, Pauly Diana, Stamer W Daniel, Ohlmann Andreas, Wegener Joachim, Fuchshofer Rudolf, Breunig Miriam
Department of Pharmaceutical Technology, University of Regensburg, Universitaetsstrasse 31, 93040 Regensburg, Germany.
Institute of Analytical Chemistry, Chemo- and Biosensors, University of Regensburg, Universitaetsstrasse 31, 93040 Regensburg, Germany.
Pharmaceutics. 2020 Jul 27;12(8):706. doi: 10.3390/pharmaceutics12080706.
Rho-associated protein kinase (ROCK) inhibitors allow for causative glaucoma therapy. Unfortunately, topically applied ROCK inhibitors suffer from high incidence of hyperemia and low intraocular bioavailability. Therefore, we propose the use of poly (lactide-co-glycolide) (PLGA) microspheres as a depot formulation for intravitreal injection to supply outflow tissues with the ROCK inhibitor fasudil over a prolonged time. Fasudil-loaded microspheres were prepared by double emulsion solvent evaporation technique. The chemical integrity of released fasudil was confirmed by mass spectrometry. The biological activity was measured in cell-based assays using trabecular meshwork cells (TM cells), Schlemm's canal cells (SC cells), fibroblasts and adult retinal pigment epithelium cells (ARPE-19). Cellular response to fasudil after its diffusion through vitreous humor was investigated by electric cell-substrate impedance sensing. Microspheres ranged in size from 3 to 67 µm. The release of fasudil from microspheres was controllable and sustained for up to 45 days. Released fasudil reduced actin stress fibers in TM cells, SC cells and fibroblasts. Decreased collagen gel contraction provoked by fasudil was detected in TM cells (2.4-fold), SC cells (1.4-fold) and fibroblasts (~1.3-fold). In addition, fasudil readily diffused through vitreous humor reaching its target compartment and eliciting effects on TM cells. No negative effects on ARPE-19 cells were observed. Since fasudil readily diffuses through the vitreous humor, we suggest that an intravitreal drug depot of ROCK inhibitors could significantly improve current glaucoma therapy particularly for patients with comorbid retinal diseases.
Rho相关蛋白激酶(ROCK)抑制剂可用于青光眼的病因治疗。遗憾的是,局部应用的ROCK抑制剂存在高充血发生率和低眼内生物利用度的问题。因此,我们建议使用聚(丙交酯-乙交酯)(PLGA)微球作为玻璃体内注射的长效制剂,以便在较长时间内向房水流出组织提供ROCK抑制剂法舒地尔。通过双乳液溶剂蒸发技术制备了载有法舒地尔的微球。通过质谱法确认了释放的法舒地尔的化学完整性。使用小梁网细胞(TM细胞)、施莱姆管细胞(SC细胞)、成纤维细胞和成人视网膜色素上皮细胞(ARPE-19),在基于细胞的试验中测量了生物活性。通过电细胞基质阻抗传感研究了法舒地尔在通过玻璃体液扩散后的细胞反应。微球的大小范围为3至67μm。法舒地尔从微球中的释放是可控的,并且可持续长达45天。释放的法舒地尔减少了TM细胞、SC细胞和成纤维细胞中的肌动蛋白应力纤维。在TM细胞(约2.4倍)、SC细胞(约1.4倍)和成纤维细胞(约1.3倍)中检测到法舒地尔引起的胶原凝胶收缩减少。此外,法舒地尔很容易通过玻璃体液扩散到其靶区室,并对TM细胞产生影响。未观察到对ARPE-19细胞的负面影响。由于法舒地尔很容易通过玻璃体液扩散,我们认为ROCK抑制剂的玻璃体内药物长效制剂可以显著改善目前的青光眼治疗,特别是对于患有合并视网膜疾病的患者。
