Hou Zhi-Guo, Wang Yuan, Hui Kaimin, Fang Wen-Hong, Zhao Shu, Zhang Jing-Xiao, Ma Hongyu, Li Xin-Cang
East China Sea Fisheries Research Institute, Chinese Academy of Fishery Sciences, Key Laboratory of East China Sea and Oceanic Fishery Resources Exploitation, Ministry of Agriculture, Shanghai 200090, China; School of Aquaculture and Life Science, Shanghai Ocean University, Shanghai 201306, China.
East China Sea Fisheries Research Institute, Chinese Academy of Fishery Sciences, Key Laboratory of East China Sea and Oceanic Fishery Resources Exploitation, Ministry of Agriculture, Shanghai 200090, China.
Dev Comp Immunol. 2017 Jul;72:44-56. doi: 10.1016/j.dci.2017.02.009. Epub 2017 Feb 20.
In crustaceans, anti-lipopolysaccharide factors (ALFs) are important immune effectors that have sequence diversity and exhibit broad antimicrobial activities. In this study, we characterized a novel ALF homolog SpALF6 from mud crab Scylla paramamosain and its variant SpALF6-V, which was generated by mutations of two amino acids (H46 to R and A110 to P) due to the presence of two single nucleotide polymorphisms (SNPs). SpALF6 was an anionic peptide with isoelectric point (pI) 6.79, whereas SpALF6-V was a cationic protein with pI 7.98. These two proteins shared a common lipopolysaccharide (LPS)-binding domain (LBD) with pI 6.05. SpALF6 was expressed mainly in hemocytes and up-regulated by Vibrio parahaemolyticus or Staphylococcus aureus challenge, indicating that SpALF6 may participate in the antibacterial immune responses. To investigate the likely functional differences between SpALF6 and SpALF6-V and elucidate the underlying mechanisms, a single amino acid mutant SpALF6-M (from H46 to R, outside but very close to LBD), which had the same pI as SpALF6-V, was harvested by a fusion PCR. Then, both SpALF6 and SpALF6-M were overexpressed and purified to test antimicrobial activity and binding activity to microbial cells or polysaccharides. SpALF6-M exhibited more potent antimicrobial and cell-binding activity on Gram-positive bacteria and fungi than SpALF6. Furthermore, SpALF6-M possessed stronger lipoteichoic acid (LTA)-binding activity than SpALF6, demonstrating that this particular positively charged amino acid outside but close to LBD contributed to the increase in SpALF6-M antibacterial activity. In addition, SpALF6 LBD peptide and its biotin-labeled form were synthesized in this study. Results showed that this anionic LBD peptide itself did not exhibit any significant antimicrobial activity against 10 kinds of microorganisms but it possessed strong binding activity to LPS, LTA, and peptidoglycan. These findings suggested that this anionic LBD was still an important active center and required collaboration with some particular positively charged amino acids outside LBD to exhibit antibacterial activity. Thus, SpALF6-M antimicrobial activity was increased by the mutation of H46 to R instead of A110 to P, which did not change the protein charge, suggesting that SpALF6-V may have more potent antimicrobial activity than SpALF6 and play more important roles in antibacterial immunity. This study provided a new insight into the mechanisms of how ALF amino acid sequence diversity resulted in their functional divergence.
在甲壳类动物中,抗脂多糖因子(ALFs)是重要的免疫效应分子,具有序列多样性并表现出广泛的抗菌活性。在本研究中,我们鉴定了一种来自拟穴青蟹(Scylla paramamosain)的新型ALF同源物SpALF6及其变体SpALF6-V,后者是由于存在两个单核苷酸多态性(SNP)导致两个氨基酸(H46突变为R和A110突变为P)突变而产生的。SpALF6是一种等电点(pI)为6.79的阴离子肽,而SpALF6-V是一种pI为7.98的阳离子蛋白。这两种蛋白共享一个pI为6.05的共同脂多糖(LPS)结合域(LBD)。SpALF6主要在血细胞中表达,并在副溶血性弧菌或金黄色葡萄球菌攻击后上调,表明SpALF6可能参与抗菌免疫反应。为了研究SpALF6和SpALF6-V之间可能的功能差异并阐明潜在机制,通过融合PCR获得了一个与SpALF6-V具有相同pI的单氨基酸突变体SpALF6-M(从H46突变为R,位于LBD外部但非常靠近LBD)。然后,SpALF6和SpALF6-M均进行了过表达和纯化,以测试其抗菌活性以及与微生物细胞或多糖的结合活性。SpALF6-M对革兰氏阳性菌和真菌表现出比SpALF6更强的抗菌和细胞结合活性。此外,SpALF6-M比SpALF6具有更强的脂磷壁酸(LTA)结合活性,表明LBD外部但靠近LBD的这种特定带正电荷的氨基酸有助于SpALF6-M抗菌活性的增加。此外,本研究中合成了SpALF6 LBD肽及其生物素标记形式。结果表明,这种阴离子LBD肽本身对10种微生物没有表现出任何显著的抗菌活性,但它对LPS、LTA和肽聚糖具有很强的结合活性。这些发现表明,这种阴离子LBD仍然是一个重要的活性中心,需要与LBD外部的一些特定带正电荷的氨基酸协同作用才能表现出抗菌活性。因此,H46突变为R而不是A110突变为P增加了SpALF6-M的抗菌活性,后者没有改变蛋白质电荷,这表明SpALF6-V可能比SpALF6具有更强的抗菌活性,并在抗菌免疫中发挥更重要的作用。本研究为ALF氨基酸序列多样性如何导致其功能差异的机制提供了新的见解。
