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塚崎 克和*; 宮崎 直幸*; 松本 淳; 長江 成典*; 米村 重信*; 田ノ上 拓自*; 岩崎 憲治*; 竹市 雅俊*
Proceedings of the National Academy of Sciences of the United States of America, 111(45), p.16011 - 16016, 2014/11
被引用回数:38 パーセンタイル:63.74(Multidisciplinary Sciences)Fat and Dachsous cadherins regulate cell polarity and proliferation via their heterophilic interactions at intercellular junctions. Their ectodomains are unusually large because of the repetitive EC domains, which raises questions of how they fit in regular intercellular spaces. Cadherins typically exhibit a linear topology through the binding of Ca to the linker between the EC domains. Our electron microscopic observations of mammalian Fat4 and Dachsous1 ectodomains, however, revealed that, while their N-terminal regions exhibit a linear configuration, the C-terminal regions are kinked with multiple hairpin-like bends. Notably, certain EC-EC linkers in Fat4 and Dachsous1 lost Ca-binding amino acids. When such non-Ca-binding linkers were substituted for a normal linker in E-cadherin, the mutant E-cadherins deformed more extensively than the wild-type molecule. To simulate cadherin structures with non-Ca-binding linkers, we used the elastic network model and confirmed that bent configurations can be generated by deformation of the non-Ca-binding linkers. These findings suggest that Fat and Dachsous self-bend due to the loss of Ca-binding amino acids from specific EC-EC linkers, and therefore adapt to confined spaces.