Schmidt A, Utepbergenov D I, Mueller S L, Beyermann M, Schneider-Mergener J, Krause G, Blasig I E
Forschungsinstitut für Molekulare Pharmakologie, Robert-Rössle-Str. 10, 13125 Berlin, Germany.
Cell Mol Life Sci. 2004 Jun;61(11):1354-65. doi: 10.1007/s00018-004-4010-6.
The interaction between tight junction proteins occludin and zona occludens protein 1 (ZO-1) was clarified. The sequence cc1 within the hinge region of ZO-1, connecting its SH3 and GuK domains, was identified as a new association site for the occludin C-terminus, core binding area GLRSSKRNLRKSR (mouse ZO-1(606-618)). Occludin also bound to the sequence H2 within GuK, core area HKLRKNNH (ZO-1(759-766)). In occludin, the binding core was ELSRLDKELDDYREESEEY (mouse occludin(455-473)). Helicity of the sequences was suggested by circular dichroism. Because basic residues in ZO-1, acidic residues in occludin (underlined), coiled-coil helix-forming leucine heptad motifs (bold) in occludin and, probably, in cc1 were essential, we conclude that interactions were both helical and ionic. Moreover, the GuK domain bound other GuK molecules, suggesting oligomerization of ZO-1. Generally, the assumption is supported that the SH3-hinge-GuK region represents a functional and regulatory unit in ZO-1 forming a multiprotein tight junction complex with occludin.
紧密连接蛋白闭合蛋白与闭合蛋白区域蛋白1(ZO-1)之间的相互作用得以阐明。ZO-1铰链区域内连接其SH3和GuK结构域的cc1序列,被确定为闭合蛋白C末端的一个新结合位点,核心结合区域为GLRSSKRNLRKSR(小鼠ZO-1(606 - 618))。闭合蛋白还与GuK内的H2序列结合,核心区域为HKLRKNNH(ZO-1(759 - 766))。在闭合蛋白中,结合核心为ELSRLDKELDDYREESEEY(小鼠闭合蛋白(455 - 473))。圆二色性表明这些序列具有螺旋结构。由于ZO-1中的碱性残基、闭合蛋白中的酸性残基(下划线标注)、闭合蛋白中以及可能在cc1中的形成卷曲螺旋的亮氨酸七肽基序(加粗)至关重要,我们得出结论,相互作用既是螺旋的也是离子性的。此外,GuK结构域与其他GuK分子结合,提示ZO-1发生寡聚化。总体而言,SH3-铰链-GuK区域代表ZO-1中一个功能和调节单元,与闭合蛋白形成多蛋白紧密连接复合物这一假设得到了支持。