Department of Pharmaceutical Sciences, University of Colorado, Anschutz Medical Campus, Aurora, Colorado 80045, United States.
Mol Pharm. 2012 Nov 5;9(11):3228-35. doi: 10.1021/mp300305f. Epub 2012 Oct 15.
Retinal pigment epithelium, which forms the outer blood-retinal barrier, is a critical barrier for transport of drugs to the retina. The purpose of this study was to develop a pigmented MDCK (P-MDCK) cell line as a rapidly established in vitro model for the outer blood-retinal barrier to assess the influence of melanin pigment on solute permeability. A melanin synthesizing P-MDCK cell line was developed by lentiviral transduction of human tyrosinase and p-protein genes in MDCK (NBL-2) cells. Melanin content, tyrosinase activity (conversion of L-dopa to dopachrome), and transepithelial electrical resistance (TEER) were measured. Expression of tyrosinase protein and p-protein in P-MDCK cells was confirmed by confocal microscopy. Effect of l-tyrosine (0 to 2 mM) in culture medium on melanin synthesis in P-MDCK cells was evaluated. Cell uptake and transepithelial transport of pigment-binding chloroquine (Log D = 1.59) and a negative control salicylic acid (Log D = -1.14) were investigated. P-MDCK cells expressed tyrosinase and p-protein. Tyrosinase activity was 4.5-fold higher in P-MDCK cells compared to wild type MDCK cells. The transepithelial electrical resistance stabilized by day 4 in both cell types, with the TEER being 958 ± 33 and 964 ± 58 Ω·cm(2) for P-MDCK and wild type cells, respectively. Melanin content in P-MDCK cells depended on the concentration of l-tyrosine in culture medium, and increased from 3 to 54 μg/mg protein with an increase in l-tyrosine content from 0 to 2 mM. When the cells were grown in 2 mM l-tyrosine, uptake of chloroquine was 2.3-fold higher and the transepithelial transport was 2.2-fold lower in P-MDCK cells when compared to wild type MDCK cells. No significant difference was observed for both cell uptake and transport of salicylic acid. We developed a P-MDCK cell line with tunable melanin synthesis as a rapidly developing surrogate for retinal pigment epithelium.
视网膜色素上皮细胞形成了外血视网膜屏障,是药物向视网膜转运的关键屏障。本研究旨在建立一个色素性 MDCK(P-MDCK)细胞系,作为外血视网膜屏障的快速体外模型,以评估黑色素对溶质渗透性的影响。通过慢病毒转导人酪氨酸酶和 p 蛋白基因在 MDCK(NBL-2)细胞中建立了黑色素合成 P-MDCK 细胞系。测量黑色素含量、酪氨酸酶活性(L-多巴转化为多巴醌)和跨上皮电阻(TEER)。通过共焦显微镜证实 P-MDCK 细胞中酪氨酸酶蛋白和 p 蛋白的表达。评估培养基中 l-酪氨酸(0 至 2 mM)对 P-MDCK 细胞中黑色素合成的影响。研究了色素结合氯喹(Log D = 1.59)和阴性对照水杨酸(Log D = -1.14)的细胞摄取和跨上皮转运。P-MDCK 细胞表达酪氨酸酶和 p 蛋白。与野生型 MDCK 细胞相比,P-MDCK 细胞中的酪氨酸酶活性高 4.5 倍。两种细胞类型的跨上皮电阻在第 4 天稳定,P-MDCK 和野生型细胞的 TEER 分别为 958 ± 33 和 964 ± 58 Ω·cm2。P-MDCK 细胞中的黑色素含量取决于培养基中 l-酪氨酸的浓度,当 l-酪氨酸含量从 0 增加到 2 mM 时,黑色素含量从 3 增加到 54 μg/mg 蛋白。当细胞在 2 mM l-酪氨酸中生长时,与野生型 MDCK 细胞相比,P-MDCK 细胞中氯喹的摄取增加了 2.3 倍,跨上皮转运减少了 2.2 倍。水杨酸的细胞摄取和转运均无显著差异。我们开发了一种具有可调节黑色素合成的 P-MDCK 细胞系,作为快速发育的视网膜色素上皮替代物。