Young H, Roongta V, Daly T J, Mayo K H
Department of Biochemistry, Biomedical Engineering Center, University of Minnesota, 435 Delaware Street, S.E., Minneapolis, MN 55455, USA.
Biochem J. 1999 Mar 15;338 ( Pt 3)(Pt 3):591-8.
Neutrophil-activating peptide 2 (NAP-2), which demonstrates a range of proinflammatory activities, is a 72-residue protein belonging to the alpha-chemokine family. Although NAP-2, like other alpha-chemokines, is known to self-associate into dimers and tetramers, it has been shown that the monomeric form is physiologically active. Here we investigate the solution structure of monomeric NAP-2 by multi-dimensional 1H-NMR and 15N-NMR spectroscopy and computational modelling. The NAP-2 monomer consists of an amphipathic, triple-stranded, anti-parallel beta-sheet on which is folded a C-terminal alpha-helix and an aperiodic N-terminal segment. The backbone fold is essentially the same as that found in other alpha-chemokines. 15N T1, T2 and nuclear Overhauser effects (NOEs) have been measured for backbone NH groups and used in a model free approach to calculate order parameters and conformational exchange terms that map out motions of the backbone. N-terminal residues 1 to 17 and the C-terminus are relatively highly flexible, whereas the beta-sheet domain forms the most motionally restricted part of the fold. Conformational exchange occurring on the millisecond time scale is noted at the top of the C-terminal helix and at proximal residues from beta-strands 1 and 2 and the connecting loop. Dissociation to the monomeric state is apparently responsible for increased internal mobility in NAP-2 compared with dimeric and tetrameric states in other alpha-chemokines.
中性粒细胞激活肽2(NAP-2)是一种属于α趋化因子家族的72个氨基酸残基的蛋白质,具有一系列促炎活性。尽管已知NAP-2与其他α趋化因子一样会自缔合形成二聚体和四聚体,但已表明单体形式具有生理活性。在这里,我们通过多维1H-NMR和15N-NMR光谱以及计算建模来研究单体NAP-2的溶液结构。NAP-2单体由一个两亲性的三链反平行β折叠片层组成,在其上折叠着一个C端α螺旋和一个无规的N端片段。其主链折叠与其他α趋化因子基本相同。已测量了主链NH基团的15N T1、T2和核Overhauser效应(NOE),并用于无模型方法来计算序参数和构象交换项,这些参数描绘了主链的运动。N端1至17位残基和C端相对高度灵活,而β折叠片层结构域是折叠中运动受限最大的部分。在C端螺旋顶部以及β链1和2以及连接环的近端残基处,注意到在毫秒时间尺度上发生的构象交换。与其他α趋化因子的二聚体和四聚体状态相比,解离为单体状态显然导致了NAP-2内部流动性的增加。