Kawazu K, Shiono H, Tanioka H, Ota A, Ikuse T, Takashina H, Kawashima Y
Santen Pharmaceutical Co., Ltd. Ophthalmic Laboratories, Ikomo-shi, Japan.
Curr Eye Res. 1998 Feb;17(2):125-31. doi: 10.1076/ceyr.17.2.125.5598.
To determine whether cultured rabbit corneal epithelial cells (RCEC), grown on permeable supports, provide a suitable in vivo model for characterizing transcellular drug permeation and metabolism.
Primary rabbit corneal epithelial cells grown in DMEM-F12 were seeded on Transwell-COL inserts coated with fibronectin. The epithelial barrier integrity was evaluated, based on measurements of 14C-mannitol and 3H-PEG900, and their transepithelial electrical resistance (TEER). Ultrastructure evaluation was based on scanning electron microscopy and transmission electron microscopy, which were performed 8 days after seeding. Measurements of beta adrenergic antagonist permeability were performed to assess transcellular permeability.
Eight days after seeding, the TEER reached a peak of 144 omega.cm2 and the 14C-mannitol and 3H-PEG900 permeabilities were 6.8 x 10(-6) and 2.9 x 10(-6) cm/sec, respectively. Ultrastructural analysis revealed a multilayered structure with numerous microplicae and typical cytoplasmic organelles along with desmosomes. The relationship between permeation of beta-blockers and lipophilicity resembled the intact isolated cornea.
This is the first description of cultured RCEC grown on permeable support. Many of its properties mimic those described in the intact corneal epithelium. Even though its electrical tightness is less than that of the intact cornea, the transcellular permeability to lipophilic beta-antagonists is comparable to the isolated preparation. Therefore, this model will facilitate characterization of ocular permeation mechanisms of hydrophobic drugs whose route of permeation is transcellular.
确定在可渗透支持物上培养的兔角膜上皮细胞(RCEC)是否为表征跨细胞药物渗透和代谢提供合适的体内模型。
将在DMEM-F12中生长的原代兔角膜上皮细胞接种到涂有纤连蛋白的Transwell-COL小室中。基于对14C-甘露醇和3H-PEG900的测量及其跨上皮电阻(TEER)评估上皮屏障完整性。超微结构评估基于接种8天后进行的扫描电子显微镜和透射电子显微镜检查。进行β肾上腺素能拮抗剂通透性测量以评估跨细胞通透性。
接种8天后,TEER达到144Ω·cm2的峰值,14C-甘露醇和3H-PEG900的通透性分别为6.8×10(-6)和2.9×10(-6) cm/秒。超微结构分析显示具有许多微褶、典型细胞质细胞器以及桥粒的多层结构。β受体阻滞剂的渗透与亲脂性之间的关系类似于完整的离体角膜。
这是对在可渗透支持物上培养的RCEC的首次描述。其许多特性类似于完整角膜上皮中描述的特性。尽管其电紧密性低于完整角膜,但其对亲脂性β拮抗剂的跨细胞通透性与离体制剂相当。因此,该模型将有助于表征渗透途径为跨细胞的疏水性药物的眼部渗透机制。
