College of Life Science, Henan Normal University, Xinxiang, Henan, China.
CAREG, University of Ottawa, Ottawa, Ontario, Canada.
Dev Dyn. 2020 Feb;249(2):187-198. doi: 10.1002/dvdy.112. Epub 2019 Sep 18.
Matrix metalloproteinases 13 (MMP13) is a potent endopeptidase that regulate cell growth, migration, and extracellular matrix remodeling. However, its role in fin regeneration remains unclear.
mmp13a expression is strongly upregulated during blastema formation and persists in the distal blastema. mmp13a knockdown via morpholino electroporation impairs regenerative outgrowth by decreasing cell proliferation, which correlates with a downregulation of fgf10a and sall4 expression in the blastema. Laminin distribution in the basement membrane is also affected in mmp13a MO-injected rays. Another impact of mmp13a knockdown is observed in the skeletal elements of the fin rays. Expression of two main components of actinotrichia, Collagen II and Actinodin 1 is highly reduced in mmp13a MO-injected rays leading to highly disorganized actinotrichia pattern. Inhibition of mmp13a strongly affects bone formation as shown by a reduction of Zns5 and sp7 expression and of bone matrix mineralization in rays. These defects are accompanied by a significant increase in apoptosis in mmp13a MO-injected fin regenerates.
Defects of expression of this multifunctional proteinase drastically affects osteoblast differentiation, bone and actinotrichia formation as well as Laminin distribution in the basement membrane of the fin regenerate, suggesting the important role of Mmp13 during the regenerative process.
基质金属蛋白酶 13(MMP13)是一种强有力的内肽酶,可调节细胞生长、迁移和细胞外基质重塑。然而,其在鳍再生中的作用尚不清楚。
在芽基形成过程中,mmp13a 的表达被强烈上调,并在远端芽基中持续存在。通过电穿孔的形态发生素敲低 mmp13a 会通过降低细胞增殖来损害再生性生长,这与芽基中 fgfl0a 和 sall4 表达的下调相关。mmp13a MO 注射射线中的层粘连蛋白在基底膜中的分布也受到影响。mmp13a 敲低的另一个影响是在鳍射线的骨骼元素中观察到的。在 mmp13a MO 注射射线中,actinotrichia 的两个主要成分(胶原 II 和 actinodin 1)的表达高度降低,导致 actinotrichia 模式高度紊乱。Mmp13a 的抑制强烈影响骨形成,表现为 Zns5 和 sp7 表达以及射线中骨基质矿化的减少。这些缺陷伴随着 mmp13a MO 注射鳍再生物中凋亡的显著增加。
这种多功能蛋白酶的表达缺陷严重影响成骨细胞分化、骨和 actinotrichia 形成以及鳍再生基底膜中的层粘连蛋白分布,表明 Mmp13 在再生过程中起着重要作用。
