MRC Human Genetics Unit, IGMM, Edinburgh, Scotland, UK.
Mol Immunol. 2010 Mar;47(6):1378-82. doi: 10.1016/j.molimm.2009.11.025.
Beta-defensins are both antimicrobial and able to chemoattract various immune cells including immature dendritic cells and CD4 T cells through CCR6. They are short, cationic peptides with a highly conserved six-cysteine motif. It has been shown that only the fifth cysteine is critical for chemoattraction of cells expressing CCR6. In order to identify other residues essential for functional interaction with CCR6 we used a library of peptide deletion derivatives based on Defb14. Loss of the initial two amino acids from the Defb14-1C(V) derivative destroys its ability to chemoattract cells expressing CCR6. As the second amino acid is an evolutionarily conserved leucine, we make full-length Defb14-1C(V) peptides with substitution of the leucine(2) for glycine (L2G), lysine (L2K) or isoleucine (L2I). Defb14-1C(V) L2G and L2K and are unable to chemoattract CCR6 expressing cells but the semi-conservative change L2I has activity. By circular dichroism spectroscopy we can see no evidence for a significant change in secondary structure as a consequence of these substitutions and so cannot attribute loss of chemotactic activity with disruption of the N-terminal helix. We conclude that isoleucine/leucine in the N-terminal alpha-helix region of this beta-defensin is essential for CCR6-mediated chemotaxis.
β-防御素具有抗微生物和趋化作用,能够通过 CCR6 趋化各种免疫细胞,包括未成熟树突状细胞和 CD4 T 细胞。它们是短的阳离子肽,具有高度保守的六半胱氨酸基序。已经表明,只有第五个半胱氨酸对于趋化表达 CCR6 的细胞是关键的。为了确定与 CCR6 功能相互作用的其他必需残基,我们使用了基于 Defb14 的肽缺失衍生物文库。从 Defb14-1C(V)衍生物中去除最初的两个氨基酸会破坏其趋化表达 CCR6 的能力。由于第二个氨基酸是进化上保守的亮氨酸,我们用甘氨酸 (L2G)、赖氨酸 (L2K) 或异亮氨酸 (L2I) 取代全长 Defb14-1C(V) 肽中的亮氨酸 (2)。Defb14-1C(V)L2G 和 L2K 不能趋化表达 CCR6 的细胞,但半保守变化 L2I 具有活性。通过圆二色性光谱分析,我们没有发现这些取代导致二级结构发生重大变化的证据,因此不能将趋化活性的丧失归因于 N 端螺旋的破坏。我们得出结论,该β-防御素 N 端α-螺旋区域的异亮氨酸/亮氨酸对于 CCR6 介导的趋化作用是必需的。
