Hosono Masahiro, Sugawara Shigeki, Ogawa Yukiko, Kohno Takayuki, Takayanagi Motoaki, Nitta Kazuo
Cancer Research Institute, Tohoku Pharmaceutical University, 4-4-1 Komatsushima, Aoba-ku, Sendai 981-8558, Japan.
Biochim Biophys Acta. 2005 Sep 15;1725(2):160-73. doi: 10.1016/j.bbagen.2005.07.009.
A novel C-type lectin (OLABL) was isolated from the eggs of shishamo smelt [Osmerus (Spirinchus) lanceolatus] by affinity chromatography on asialofetuin-Sepharose. OLABL had a molecular mass of 29 kDa on SDS-PAGE under nonreducing conditions and two subunits with masses of 15 kDa (OLABL-H) and 14 kDa (OLABL-L) under reducing conditions. Thus, OLABL is a heterodimeric protein. cDNA sequence analysis revealed that the H- and L-subunits of OLABL were composed of 137 and 136 amino acid residues, respectively, and showed almost identical (95%) sequences, with slight differences in the N-terminal and C-terminal regions. Since each subunit contained only the characteristic motif of C-type lectin-like domain (CTLD), EPN-E-WND, OLABL is a member of group VII of the CTLD-containing protein family. Although OLABL had an EPN sequence that is known as a mannose-specific motif found in the collectin family, OLABL agglutinated rabbit erythrocytes without the addition of Ca(2+) ion, and this activity was inhibited by l-rhamnose and d-galactose derivatives, but not by d-mannose and d-glucose. These results indicate that OLABL has similar characteristics to AJL-2, a calcium-independent lactose specific lectin isolated from Japanese eel skin mucus. Recombinant OLABLs (rHisOLABLs), His-tagged homodimers of the H- and L-subunits, were refolded from inclusion bodies expressed by Escherichia coli. rHisOLABL-L was recovered as a soluble form, but rHisOLABL-H was hardly dissolved in a renaturing buffer. The specific activities of rHisOLABL-L, rHisOLABL-H, and native OLABL were 500, 36, and 20, respectively. These findings suggest that the combination of subunits may affect the solubility and activity of these dimeric form lectins.
通过在去唾液酸胎球蛋白-琼脂糖凝胶上进行亲和层析,从柳叶鱼[Osmerus (Spirinchus) lanceolatus]的卵中分离出一种新型C型凝集素(OLABL)。在非还原条件下,OLABL在SDS-PAGE上的分子量为29 kDa,在还原条件下有两个亚基,分子量分别为15 kDa(OLABL-H)和14 kDa(OLABL-L)。因此,OLABL是一种异二聚体蛋白。cDNA序列分析表明,OLABL的H亚基和L亚基分别由137和136个氨基酸残基组成,序列几乎相同(95%),仅在N端和C端区域存在细微差异。由于每个亚基仅包含C型凝集素样结构域(CTLD)的特征基序EPN-E-WND,OLABL是含CTLD蛋白家族第七组的成员。尽管OLABL具有在凝集素家族中发现的作为甘露糖特异性基序的EPN序列,但OLABL在不添加Ca(2+)离子的情况下就能凝集兔红细胞,且这种活性受到L-鼠李糖和D-半乳糖衍生物的抑制,而不受D-甘露糖和D-葡萄糖的抑制。这些结果表明,OLABL具有与AJL-2相似的特性,AJL-2是一种从日本鳗鲡皮肤黏液中分离出的不依赖钙的乳糖特异性凝集素。重组OLABL(rHisOLABL),即H亚基和L亚基的His标签同二聚体,从大肠杆菌表达的包涵体中复性。rHisOLABL-L以可溶形式回收,但rHisOLABL-H几乎不溶于复性缓冲液。rHisOLABL-L、rHisOLABL-H和天然OLABL的比活性分别为500、36和20。这些发现表明亚基的组合可能会影响这些二聚体形式凝集素的溶解性和活性。
