From the Division of Infectious Disease, Wadsworth Center, New York State Department of Health, Albany, New York 12208 and.
J Biol Chem. 2013 Dec 20;288(51):36538-47. doi: 10.1074/jbc.M113.519207. Epub 2013 Nov 7.
In an effort to engineer countermeasures for the category B toxin ricin, we produced and characterized a collection of epitopic tagged, heavy chain-only antibody VH domains (VHHs) specific for the ricin enzymatic (RTA) and binding (RTB) subunits. Among the 20 unique ricin-specific VHHs we identified, six had toxin-neutralizing activity: five specific for RTA and one specific for RTB. Three neutralizing RTA-specific VHHs were each linked via a short peptide spacer to the sole neutralizing anti-RTB VHH to create VHH "heterodimers." As compared with equimolar concentrations of their respective monovalent monomers, all three VHH heterodimers had higher affinities for ricin and, in the case of heterodimer D10/B7, a 6-fold increase in in vitro toxin-neutralizing activity. When passively administered to mice at a 4:1 heterodimer:toxin ratio, D10/B7 conferred 100% survival in response to a 10 × LD50 ricin challenge, whereas a 2:1 heterodimer:toxin ratio conferred 20% survival. However, complete survival was achievable when the low dose of D10/B7 was combined with an IgG1 anti-epitopic tag monoclonal antibody, possibly because decorating the toxin with up to four IgGs promoted serum clearance. The two additional ricin-specific heterodimers, when tested in vivo, provided equal or greater passive protection than D10/B7, thereby warranting further investigation of all three heterodimers as possible therapeutics.
为了对抗 B 类毒素蓖麻毒素,我们生产并鉴定了一组针对蓖麻毒素酶(RTA)和结合(RTB)亚基的表位标记重链仅抗体 VH 结构域(VHH)。在我们鉴定的 20 个独特的蓖麻毒素特异性 VHH 中,有 6 个具有毒素中和活性:5 个特异性针对 RTA,1 个特异性针对 RTB。通过短肽间隔子将 3 个中和 RTA 特异性 VHH 分别连接到唯一的中和抗 RTB VHH 上,以创建 VHH“异二聚体”。与各自单价单体的等摩尔浓度相比,所有三种 VHH 异二聚体对蓖麻毒素的亲和力更高,在异二聚体 D10/B7 的情况下,体外毒素中和活性提高了 6 倍。当以 4:1 的异二聚体:毒素比被动给予小鼠时,D10/B7 在 10×LD50 蓖麻毒素挑战下赋予 100%的存活率,而 2:1 的异二聚体:毒素比赋予 20%的存活率。然而,当将低剂量的 D10/B7 与 IgG1 抗表位标记单克隆抗体联合使用时,可实现完全存活,这可能是因为用多达四个 IgGs 修饰毒素促进了血清清除。另外两种蓖麻毒素特异性异二聚体在体内进行测试时,提供了与 D10/B7 相等或更高的被动保护,因此有必要进一步研究这三种异二聚体作为潜在的治疗方法。