Maeda Takeshi, Inoue Makoto, Koshiba Seizo, Yabuki Takashi, Aoki Masaaki, Nunokawa Emi, Seki Eiko, Matsuda Takayoshi, Motoda Yoko, Kobayashi Atsuo, Hiroyasu Fumiko, Shirouzu Mikako, Terada Takaho, Hayami Nobuhiro, Ishizuka Yoshiko, Shinya Naoko, Tatsuguchi Ayako, Yoshida Mayumi, Hirota Hiroshi, Matsuo Yo, Tani Kazutoshi, Arakawa Takahiro, Carninci Piero, Kawai Jun, Hayashizaki Yoshihide, Kigawa Takanori, Yokoyama Shigeyuki
RIKEN Genomic Sciences Center, 1-7-22 Suehiro-cho, Tsurumi, Yokohama 230-0045, Japan.
J Biol Chem. 2004 Mar 26;279(13):13174-82. doi: 10.1074/jbc.M309417200. Epub 2004 Feb 4.
Human CA125, encoded by the MUC16 gene, is an ovarian cancer antigen widely used for a serum assay. Its extracellular region consists of tandem repeats of SEA domains. In this study we determined the three-dimensional structure of the SEA domain from the murine MUC16 homologue using multidimensional NMR spectroscopy. The domain forms a unique alpha/beta sandwich fold composed of two alpha helices and four antiparallel beta strands and has a characteristic turn named the TY-turn between alpha1 and alpha2. The internal mobility of the main chain is low throughout the domain. The residues that form the hydrophobic core and the TY-turn are fully conserved in all SEA domain sequences, indicating that the fold is common in the family. Interestingly, no other residues are conserved throughout the family. Thus, the sequence alignment of the SEA domain family was refined on the basis of the three-dimensional structure, which allowed us to classify the SEA domains into several subfamilies. The residues on the surface differ between these subfamilies, suggesting that each subfamily has a different function. In the MUC16 SEA domains, the conserved surface residues, Asn-10, Thr-12, Arg-63, Asp-75, Asp-112, Ser-115, and Phe-117, are clustered on the beta sheet surface, which may be functionally important. The putative epitope (residues 58-77) for anti-MUC16 antibodies is located around the beta2 and beta3 strands. On the other hand the tissue tumor marker MUC1 has a SEA domain belonging to another subfamily, and its GSVVV motif for proteolytic cleavage is located in the short loop connecting beta2 and beta3.
由MUC16基因编码的人CA125是一种广泛用于血清检测的卵巢癌抗原。其细胞外区域由SEA结构域的串联重复序列组成。在本研究中,我们使用多维核磁共振波谱法确定了小鼠MUC16同源物SEA结构域的三维结构。该结构域形成了一种独特的α/β三明治折叠结构,由两条α螺旋和四条反平行β链组成,并且在α1和α2之间有一个名为TY转角的特征性转角。整个结构域中主链的内部流动性较低。形成疏水核心和TY转角的残基在所有SEA结构域序列中完全保守,表明这种折叠在该家族中很常见。有趣的是,整个家族中没有其他残基是保守的。因此,基于三维结构对SEA结构域家族的序列比对进行了优化,这使我们能够将SEA结构域分为几个亚家族。这些亚家族表面的残基不同,表明每个亚家族具有不同的功能。在MUC16的SEA结构域中,保守的表面残基Asn-10、Thr-12、Arg-63、Asp-75、Asp-112、Ser-115和Phe-117聚集在β折叠表面,这可能具有重要的功能意义。抗MUC16抗体的推定表位(残基58 - 77)位于β2和β3链周围。另一方面,组织肿瘤标志物MUC1有一个属于另一个亚家族的SEA结构域,其用于蛋白水解切割的GSVVV基序位于连接β2和β3的短环中。
