Institute of Anatomy, Medical Faculty Carl Gustav Carus, TU Dresden, Dresden, Germany.
Invest Ophthalmol Vis Sci. 2010 Dec;51(12):6303-10. doi: 10.1167/iovs.10-5368. Epub 2010 Jul 14.
To use nanoscopically defined, two-dimensional matrices assembled from aligned collagen type I fibrils as a sheet substratum for in vitro cultivation of human corneal endothelial cells (HCECs). To assess the effect of matrix architecture on HCEC morphology and to characterize integrin-mediated HCEC-matrix interaction.
Cell alignment and cell-matrix interactions of primary HCECs and three different immortalized HCEC populations on native and UV-cross-linked collagen type I matrices were examined by time-lapse microscopy. Specific integrin α(2)β(1) binding to the collagen matrix was demonstrated using a function-blocking α(2) antibody. Integrin α(2) subunit expression levels of the four HCEC populations were analyzed by Western blot analysis.
All HCEC populations aligned along the oriented collagen fibrils. Primary HCECs and, to a lesser extent, the other tested HCEC populations exerted high traction forces, leading to progressive matrix destruction. Cross-linking of the collagen matrices considerably increased matrix stability. Integrin subunit α(2) expression levels of the four cell types correlated with the degree of cell alignment and exertion of traction forces. In turn, blocking integrin subunit α(2) reduced cell alignment and prevented matrix destruction.
HCECs align directionally along parallel arrays of collagen type I fibrils. The interactions of HCECs with collagen type I are primarily mediated by integrin α(2)β(1). Integrin subunit α(2) levels correlate with matrix contraction and subsequent destruction. Sustained cultivation of HCECs on ultrathin collagen matrices thus requires matrix cross-linking and moderate integrin α(2)β(1) expression levels.
使用从排列的 I 型胶原原纤维组装而成的微观定义的二维基质作为体外培养人角膜内皮细胞(HCEC)的片状基底。评估基质结构对 HCEC 形态的影响,并表征整合素介导的 HCEC-基质相互作用。
通过延时显微镜检查原代 HCEC 和三种不同永生化 HCEC 群体在天然和 UV 交联的 I 型胶原基质上的细胞排列和细胞-基质相互作用。使用功能阻断的α(2)抗体证明特定的整合素α(2)β(1)与胶原基质的结合。通过 Western blot 分析分析四种 HCEC 群体的整合素α(2)亚基表达水平。
所有 HCEC 群体都沿着定向的胶原原纤维排列。原代 HCEC 以及在较小程度上测试的其他 HCEC 群体施加了高牵引力,导致基质逐渐破坏。胶原基质的交联大大增加了基质的稳定性。四种细胞类型的整合素亚基α(2)的表达水平与细胞排列和牵引力的程度相关。反过来,阻断整合素亚基α(2)会减少细胞排列并防止基质破坏。
HCEC 沿 I 型胶原原纤维的平行阵列定向排列。HCEC 与 I 型胶原的相互作用主要由整合素α(2)β(1)介导。整合素亚基α(2)水平与基质收缩和随后的破坏相关。因此,要在超薄胶原基质上持续培养 HCEC,需要进行基质交联和适度的整合素α(2)β(1)表达水平。
