Streltsov Victor A, Carmichael Jennifer A, Nuttall Stewart D
CSIRO Molecular and Health Technologies, 343 Royal Parade, Parkville, Victoria 3052, Australia.
Protein Sci. 2005 Nov;14(11):2901-9. doi: 10.1110/ps.051709505. Epub 2005 Sep 30.
The new antigen receptor (IgNAR) antibodies from sharks are disulphide bonded dimers of two protein chains, each containing one variable and five constant domains. Three types of IgNAR variable domains have been discovered, with Type 3 appearing early in shark development and being overtaken by the antigen-driven affinity-matured Type 1 and 2 response. Here, we have determined the first structure of a naturally occurring Type 2 IgNAR variable domain, and identified the disulphide bond that links and stabilizes the CDR1 and CDR3 loops. This disulphide bridge locks the CDR3 loop in an "upright" conformation in contrast to other shark antibody structures, where a more lateral configuration is observed. Further, we sought to model the Type 3 isotype based on the crystallographic structure reported here. This modeling indicates (1) that internal Type 3-specific residues combine to pack into a compact immunoglobulin core that supports the CDR loop regions, and (2) that despite apparent low-sequence variability, there is sufficient plasticity in the CDR3 loop to form a conformationally diverse antigen-binding surface.
鲨鱼的新型抗原受体(IgNAR)抗体是由两条蛋白质链通过二硫键连接而成的二聚体,每条链包含一个可变结构域和五个恒定结构域。已发现三种类型的IgNAR可变结构域,其中3型在鲨鱼发育早期出现,后被抗原驱动的亲和力成熟的1型和2型反应所取代。在此,我们确定了天然存在的2型IgNAR可变结构域的首个结构,并鉴定了连接和稳定互补决定区1(CDR1)和互补决定区3(CDR3)环的二硫键。与其他观察到更侧向构型的鲨鱼抗体结构不同,该二硫桥将CDR3环锁定在“直立”构象。此外,我们试图根据此处报道的晶体结构对3型同种型进行建模。该建模表明:(1)3型特异性内部残基组合形成一个紧密的免疫球蛋白核心,支撑CDR环区域;(2)尽管CDR3环的序列变异性明显较低,但仍具有足够的可塑性以形成构象多样的抗原结合表面。