Division of Biology, Kansas State University, Manhattan, Kansas 66506-4901, USA.
Invest Ophthalmol Vis Sci. 2013 Feb 5;54(2):1014-25. doi: 10.1167/iovs.12-11277.
Extracellular matrix metalloproteinases (MMPs) are thought to play a crucial role in corneal degradation associated with the pathological progression of keratoconus. Currently, corneal cross-linking by riboflavin and ultraviolet A (RFUVA) has received significant attention for treatment of keratoconus. However, the extent to which MMPs digest cross-linked collagen and small leucine-rich proteoglycans (SLRPs) remains unknown. In this study, the resistance of RFUVA-cross-linked collagens and SLRPs to MMPs has been investigated.
To investigate the ability of MMPs to digest cross-linked collagen and SLRPs, a model reaction system using purified collagen type I, type IV, and nonglycosylated, commercially available recombinant SLRPs, keratocan, lumican, mimecan, decorin, and biglycan in solution in vitro has been compared using reactions inside an intact bovine cornea, ex vivo.
Our data demonstrate that corneal cross-linked collagen type I and type IV are resistant to cleavage by MMP-1, MMP-2, MMP-9, and MMP-13, whereas non-cross-linked collagen I, IV, and natively glycosylated SLRPs are susceptible to degradation by MMPs. In addition, both cross-linked SLRPs themselves and cross-linked polymers of SLRPs and collagen appear able to resist degradation. These results suggest that the interactions between SLRPs and collagen caused by RFUVA protect both SLRPs and collagen fibrils from cleavage by MMPs.
A novel approach for understanding the biochemical mechanism whereby RFUVA cross-linking stops keratoconus progression has been achieved.
细胞外基质金属蛋白酶(MMPs)被认为在与圆锥角膜病理进展相关的角膜降解中发挥关键作用。目前,核黄素和紫外线 A(RFUVA)交联已受到广泛关注,用于治疗圆锥角膜。然而,MMP 消化交联胶原和小亮氨酸丰富的蛋白聚糖(SLRPs)的程度尚不清楚。在这项研究中,研究了 MMP 对 RFUVA 交联胶原和 SLRPs 的抗性。
为了研究 MMP 消化交联胶原和 SLRPs 的能力,使用纯化的 I 型和 IV 型胶原以及非糖基化的、商业上可获得的重组 SLRPs,即角膜蛋白聚糖、亮蛋白、mimecan、decorin 和 biglycan,在体外溶液中进行了模型反应系统,与完整牛角膜内的反应进行了比较,离体。
我们的数据表明,角膜交联的 I 型和 IV 型胶原对 MMP-1、MMP-2、MMP-9 和 MMP-13 的裂解具有抗性,而未交联的 I 型、IV 型胶原和天然糖基化的 SLRPs 易被 MMPs 降解。此外,交联的 SLRPs 本身以及 SLRPs 和胶原的交联聚合物似乎能够抵抗降解。这些结果表明,RFUVA 交联引起的 SLRPs 与胶原之间的相互作用保护 SLRPs 和胶原纤维免受 MMP 切割。
已经实现了一种理解 RFUVA 交联阻止圆锥角膜进展的生化机制的新方法。