The George Washington University Medical Center, Department of Anatomy and Regenerative Biology, Washington, DC 20037, USA.
J Cell Sci. 2011 Aug 1;124(Pt 15):2666-75. doi: 10.1242/jcs.085480. Epub 2011 Jul 12.
Integrin α6β4 is an integral membrane protein within hemidesmosomes and it mediates adhesion of epithelial cells to their underlying basement membrane. During wound healing, disassembly of hemidesmosomes must occur for sheet movement-mediated cell migration. The mechanisms of disassembly and reassembly of hemidesmosomes are not fully understood. The current study was initiated to understand the underlying cause of recurrent corneal erosions in the mouse. Here, we show that in vivo: (1) MMP9 levels are elevated and β4 integrin is partially cleaved in epithelial cell extracts derived from debridement wounded corneas; (2) the β4 ectodomain is missing from sites where erosions develop; and (3) β4 cleavage can be reduced by inhibiting MMP activity. Although β4, α3 and β1 integrins were all cleaved by several MMPs, only MMP9 was elevated in cell extracts derived from corneas with erosions. Coimmunoprecipitation studies showed that β4 integrin associates with MMP9, and protein clustering during immunoprecipitation induced proteolytic cleavage of the β4 integrin extracellular domain, generating a 100 kDa β4 integrin cytoplasmic domain fragment. Confocal imaging with three-dimensional reconstruction showed that MMP9 localizes at erosion sites in vivo where the ectodomain of β4 integrin is reduced or absent. MMP activation experiments using cultured corneal and epidermal keratinocytes showed reduced levels of α6β4 and β1 integrins within 20 minutes of phorbol ester treatment. This report is the first to show that β4 integrin associates with MMP9 and that its ectodomain is a target for cleavage by MMP9 in vivo under pathological conditions.
整合素 α6β4 是半桥粒中的一种完整的膜蛋白,它介导上皮细胞与其下的基底膜的黏附。在伤口愈合过程中,半桥粒的解聚必须发生,以便片状运动介导的细胞迁移。半桥粒的解聚和组装的机制尚未完全理解。本研究旨在了解小鼠复发性角膜糜烂的根本原因。在这里,我们表明在体内:(1)MMP9 水平升高,上皮细胞提取物中的β4 整合素部分被切割;(2)β4 细胞外结构域在发生糜烂的部位缺失;(3)通过抑制 MMP 活性可以减少β4 切割。虽然几种 MMP 都能切割β4、α3 和β1 整合素,但只有 MMP9 在有糜烂的角膜细胞提取物中升高。共免疫沉淀研究表明,β4 整合素与 MMP9 相关,免疫沉淀过程中的蛋白聚集诱导β4 整合素细胞外结构域的蛋白水解切割,产生 100 kDa 的β4 整合素胞质结构域片段。共聚焦成像和三维重建显示,MMP9 在体内糜烂部位定位,β4 整合素的细胞外结构域减少或缺失。使用培养的角膜和表皮角质形成细胞进行 MMP 激活实验表明,佛波酯处理后 20 分钟内α6β4 和β1 整合素的水平降低。本报告首次表明,β4 整合素与 MMP9 相关,其细胞外结构域是 MMP9 在体内病理条件下切割的靶标。