Department of Biology, National Changhua University of Education, Changhua 50058, Taiwan.
Gen Comp Endocrinol. 2010 May 15;167(1):68-76. doi: 10.1016/j.ygcen.2010.02.013. Epub 2010 Feb 18.
Sco-CHH and Sco-CHH-L (CHH-like peptide), two structural variants of the crustacean hyperglycemic hormone family identified in the mud crab (Scylla olivacea), are presumably alternatively spliced gene products. In this study, Sco-CHH and Sco-CHH-L were isolated from the tissues using high performance liquid chromatography. Identity of the native peptides was confirmed using mass spectrometric (MS) analyses of purified materials and of trypsin-digested peptide fragments. Additionally, characterizations using circular dichroism (CD) spectrometry revealed that the 2 peptides have similar CD spectral profiles, showing they are composed mainly of alpha-helices, and are similarly thermo-stable with a melting temperature of 74-75 degrees C. Results of bioassays indicated that Sco-CHH exerted hyperglycemic and molt-inhibiting activity, whereas Sco-CHH-L did not. Further, recombinant Sco-CHH-Gly (rSco-CHH-Gly, a glycine extended Sco-CHH) and Sco-CHH-L (rSco-CHH-L) were produced using an Escherichia coli expression system, refolded, and purified. rSco-CHH-Gly was further alpha-amidated at the C-terminal end to produce rSco-CHH. MS analyses of enzyme-digested peptide fragments of rSco-CHH-Gly and rSco-CHH-L showed that the two peptides share a common disulfide bond pattern: C7-C43, C23-C39, and C26-C52. Circular dichroism analyses and hyperglycemic assay revealed that rSco-CHH and rSco-CHH-L resemble their native counterparts, in terms of CD spectral profiles, melting curve profiles, and biological activity. rSco-CHH-Gly has a lower alpha-helical content (32%) than rSco-CHH (47%), a structural deviation that may be responsible for the significant decrease in the biological activity of rSco-CHH-Gly. Finally, modeled structure of Sco-CHH and Sco-CHH-L indicated that they are similarly folded, each with an N-terminal tail region and 4 alpha-helices. Putative surface residues located in corresponding positions of Sco-CHH and Sco-CHH-L but with side chains of different properties were identified. The combined results support the notion that Sco-CHH and Sco-CHH-L are functionally different, but resemble each other at higher-level structures. Functional diversity between the 2 peptides is probably due to critical residues located in the C-terminus. The availability of large amounts of recombinant proteins will permit additional functional and structural studies of these CHH family peptides.
Sco-CHH 和 Sco-CHH-L(类 CHH 肽)是在泥蟹(Scylla olivacea)中鉴定出的甲壳动物高血糖素家族的两种结构变体,推测是通过选择性剪接基因产物产生的。在这项研究中,使用高效液相色谱法从组织中分离出 Sco-CHH 和 Sco-CHH-L。通过对纯化材料和胰蛋白酶消化肽片段的质谱(MS)分析,确认了天然肽的身份。此外,使用圆二色性(CD)光谱学进行的特征描述表明,这两种肽具有相似的 CD 光谱特征,表明它们主要由α-螺旋组成,并且具有相似的热稳定性,熔点为 74-75°C。生物测定结果表明,Sco-CHH 具有高血糖和抑制蜕皮活性,而 Sco-CHH-L 则没有。此外,使用大肠杆菌表达系统产生了重组 Sco-CHH-Gly(rSco-CHH-Gly,甘氨酸延伸的 Sco-CHH)和 Sco-CHH-L(rSco-CHH-L),并进行了复性和纯化。rSco-CHH-Gly 的 C 末端进一步α-酰胺化,得到 rSco-CHH。对 rSco-CHH-Gly 和 rSco-CHH-L 的酶消化肽片段的 MS 分析表明,这两种肽共享一个共同的二硫键模式:C7-C43、C23-C39 和 C26-C52。圆二色性分析和高血糖测定表明,rSco-CHH 和 rSco-CHH-L 在 CD 光谱特征、熔融曲线特征和生物学活性方面与天然对应物相似。rSco-CHH-Gly 的α-螺旋含量(32%)低于 rSco-CHH(47%),结构偏差可能导致 rSco-CHH-Gly 的生物学活性显著降低。最后,Sco-CHH 和 Sco-CHH-L 的模型结构表明它们的折叠方式相似,都有一个 N 端尾巴区域和 4 个α-螺旋。鉴定了位于 Sco-CHH 和 Sco-CHH-L 相应位置但侧链性质不同的推定表面残基。这些结果支持这样的观点,即 Sco-CHH 和 Sco-CHH-L 在功能上不同,但在高级结构上彼此相似。这两种肽之间的功能多样性可能是由于位于 C 末端的关键残基。大量重组蛋白的可用性将允许对这些 CHH 家族肽进行额外的功能和结构研究。
