Miki Takao, Takegami Yujiro, Okawa Katsuya, Muraguchi Teruyuki, Noda Makoto, Takahashi Chiaki
Department of Molecular Oncology, Kyoto University Graduate School of Medicine, Kyoto 606-8501, Japan.
J Biol Chem. 2007 Apr 20;282(16):12341-52. doi: 10.1074/jbc.M610948200. Epub 2007 Feb 28.
The reversion-inducing cysteine-rich protein with Kazal motifs (RECK) is anchored to the cell surface via glycosylphosphatidylinositol. This molecule antagonizes the function of membrane type 1 matrix metalloproteinase (MT1-MMP) to promote proMMP-2 maturation. Here, we attempt to clarify the mechanism underlying RECK functions. First, we found that RECK forms a complex with MT1-MMP and inhibits its proteolytic activity. Notably, RECK increases the amount of MT1-MMP that associates with detergent-resistant membranes during sucrose gradient ultracentrifugation. Furthermore, perturbation of membrane cholesterol significantly affected the function of RECK in suppressing MT1-MMP function. These findings indicate that RECK possibly regulates MT1-MMP function by modulating its behavior on the cell surface as well as by enzymatic action; this prompted us to find another molecule whose behavior in detergent-resistant membranes is influenced by RECK. Subsequently, we found that RECK interacts with CD13/aminopeptidase N. Further, we found that RECK inhibits the proteolytic activity of CD13 in a cholesterol perturbation-sensitive manner. Finally, we examined whether RECK influences the behavior of MT1-MMP and CD13 during their internalization from the cell surface. In the absence of RECK, MT1-MMP and CD13 were internalized along with the markers of clathrin- or caveolae-dependent endocytosis. However, interestingly, in the presence of RECK these molecules were internalized preferentially with an endocytic marker that is neither clathrinnor caveolae-dependent, indicating that RECK modulates endocytic pathways of MT1-MMP and CD13. This modulation was correlated with the accelerated internalization and decay of MT1-MMP and CD13. This study unveils the novel function and target molecules of RECK.
具有Kazal基序的逆转录诱导富含半胱氨酸蛋白(RECK)通过糖基磷脂酰肌醇锚定在细胞表面。该分子拮抗膜型1基质金属蛋白酶(MT1-MMP)的功能以促进前MMP-2的成熟。在此,我们试图阐明RECK功能的潜在机制。首先,我们发现RECK与MT1-MMP形成复合物并抑制其蛋白水解活性。值得注意的是,在蔗糖梯度超速离心过程中,RECK增加了与抗去污剂膜相关的MT1-MMP的量。此外,膜胆固醇的扰动显著影响RECK在抑制MT1-MMP功能方面的作用。这些发现表明,RECK可能通过调节其在细胞表面的行为以及酶促作用来调节MT1-MMP的功能;这促使我们寻找另一种其在抗去污剂膜中的行为受RECK影响的分子。随后,我们发现RECK与CD13/氨肽酶N相互作用。此外,我们发现RECK以胆固醇扰动敏感的方式抑制CD13的蛋白水解活性。最后,我们研究了RECK在MT1-MMP和CD13从细胞表面内化过程中是否影响它们的行为。在没有RECK的情况下,MT1-MMP和CD13与网格蛋白或小窝蛋白依赖性内吞作用的标志物一起内化。然而,有趣的是,在有RECK的情况下,这些分子优先与既不依赖网格蛋白也不依赖小窝蛋白的内吞标志物一起内化,表明RECK调节MT1-MMP和CD13的内吞途径。这种调节与MT1-MMP和CD13的加速内化和降解相关。本研究揭示了RECK的新功能和靶分子。
