Randall Centre for Cell and Molecular Biophysics, Faculty of Life Sciences and Medicine, King's College London, London, United Kingdom.
Front Immunol. 2024 Oct 9;15:1389494. doi: 10.3389/fimmu.2024.1389494. eCollection 2024.
Antibody Fc regions harbour the binding sites for receptors that mediate effector functions following antigen engagement by the Fab regions. An extended "hinge" region in IgG allows flexibility between Fab and Fc, but in both the most primitive antibody, IgM, and in the evolutionarily more recent IgE, the hinge is replaced by an additional domain pair in the homodimeric six-domain Fc region. This permits additional flexibility the Fc region, which has been exploited by nature to modulate antibody effector functions. Thus, in pentameric or hexameric IgM, the Fc regions appear to adopt a planar conformation in solution until antigen binding causes a conformational change and exposes the complement binding sites. In contrast, IgE-Fc principally adopts an acutely bent conformation in solution, but the binding of different receptors is controlled by the degree of bending, and there is allosteric communication between receptor binding sites.
We sought to trace the evolution of Fc conformational diversity from IgM to IgE the intermediate avian IgY by studying the solution conformations of their Fc regions by small-angle X-ray scattering. We compared four extant proteins: human IgM-Fc homodimer, chicken IgY-Fc, platypus IgE-Fc, and human IgE-Fc. These are examples of proteins that first appeared in the jawed fish [425 million years ago (mya)], tetrapod (310 mya), monotreme (166 mya), and hominid (2.5 mya) clades, respectively.
We analysed the scattering curves in terms of contributions from a pool of variously bent models chosen by a non-negative linear least-squares algorithm and found that the four proteins form a series in which the proportion of acutely bent material increases: IgM-Fc < IgY-Fc < plIgE-Fc < huIgE-Fc. This follows their order of appearance in evolution. For the huIgM-Fc homodimer, although none are acutely bent, and a significant fraction of the protein is sufficiently bent to expose the C1q-binding site, it predominantly adopts a fully extended conformation. In contrast, huIgE-Fc is found principally to be acutely bent, as expected from earlier studies. IgY-Fc, in this first structural analysis of the complete Fc region, exhibits an ensemble of conformations from acutely bent to fully extended, reflecting IgY's position as an evolutionary intermediate between IgM and IgE.
抗体 Fc 区包含与 Fab 区结合的抗原结合后介导效应功能的受体结合位点。在 IgG 中,一个扩展的“铰链”区允许 Fab 和 Fc 之间的灵活性,但在最原始的抗体 IgM 和进化上更近的 IgE 中,铰链被同源二聚体六结构域 Fc 区中的另外一对结构域取代。这允许 Fc 区具有额外的灵活性,这种灵活性已被自然界利用来调节抗体的效应功能。因此,在五聚体或六聚体 IgM 中,Fc 区在溶液中似乎采用平面构象,直到抗原结合引起构象变化并暴露补体结合位点。相比之下,IgE-Fc 主要在溶液中采用锐角弯曲构象,但不同受体的结合受弯曲程度的控制,并且受体结合位点之间存在变构通讯。
我们通过小角度 X 射线散射研究 Fc 区的溶液构象,试图从 IgM 到 IgE(中间的禽类 IgY)追踪 Fc 构象多样性的进化。我们比较了四种现存的蛋白质:人 IgM-Fc 同源二聚体、鸡 IgY-Fc、鸭嘴兽 IgE-Fc 和人 IgE-Fc。这些是首次出现在有颌鱼类[4.25 亿年前(mya)]、四足动物(3.1 亿年前)、单孔类动物(1.66 亿年前)和人类(2.5 万年前)分支中的蛋白质的例子。
我们根据非负线性最小二乘算法选择的各种弯曲模型池的贡献来分析散射曲线,并发现这四种蛋白质形成了一个系列,其中锐角弯曲物质的比例增加:IgM-Fc < IgY-Fc < plIgE-Fc < huIgE-Fc。这遵循它们在进化中的出现顺序。对于人 IgM-Fc 同源二聚体,虽然没有一个是锐角弯曲的,并且相当一部分蛋白质弯曲得足以暴露 C1q 结合位点,但它主要采用完全伸展的构象。相比之下,根据早期的研究,huIgE-Fc 被发现主要是锐角弯曲的。在对完整 Fc 区的首次结构分析中,IgY-Fc 表现出从锐角弯曲到完全伸展的构象的集合,反映了 IgY 作为 IgM 和 IgE 之间进化中间体的位置。
