Qian Cheng, Ninomiya Ayumu, Shibukawa Natsuki, Ueda Hiroshi, Yasuda Takanobu, Zhu Bo, Kitaguchi Tetsuya
Graduate School of Life Science and Technology, Institute of Science Tokyo, Yokohama, Japan.
Laboratory for Chemistry and Life Science, Institute of Integrated Research, Institute of Science Tokyo, 4259 Nagatsuta-cho, Midori-Ku, Yokohama, 226-8501, Japan.
Anal Sci. 2025 Apr 8. doi: 10.1007/s44211-025-00754-4.
We developed PMBiT, an antibody-binding Protein M (PM)-based bioluminescent probe that detects large antigens via luciferase reconstitution by exposing a luciferase fragment. Detection is achieved by exploiting the principle that the antibody, large antigen, and PM cannot form a complex simultaneously. PMBiT was prepared by conjugating PM with a HiBiT-based peptide from split NanoLuc luciferase through an Azide-DBCO click reaction. It retained its binding activity to the antibody and showed bioluminescence upon reconstitution of the luciferase with LgBiT, the other fragment of the split NanoLuc. Mixing PMBiT with various IgG antibodies resulted in decreased bioluminescence. In contrast, when PMBiT was mixed with IgG bound to its large antigen, such as human C-reactive protein, a dose-dependent increase in bioluminescence was obtained. Molecular dynamics simulations of PM showed that two regions in the C-terminus contribute to steric clashes with antigens owing to their relatively rigid structures. Furthermore, in silico analysis of the structure suggested that the antigen size was the primary factor blocking the binding of PMBiT to IgG for antigen detection. An immunoassay utilizing PMBiT does not require genetic manipulation of antibodies, allowing for seamless and scalable antibody replacement, and will advance the future of on-site detection and rapid diagnostics.
我们开发了PMBiT,一种基于抗体结合蛋白M(PM)的生物发光探针,通过暴露荧光素酶片段,利用荧光素酶重组来检测大抗原。检测是通过利用抗体、大抗原和PM不能同时形成复合物的原理来实现的。PMBiT是通过叠氮化物-二苯并环辛炔(Azide-DBCO)点击反应,将PM与来自分裂纳米荧光素酶的基于HiBiT的肽偶联而制备的。它保留了与抗体的结合活性,并在与分裂纳米荧光素酶的另一个片段LgBiT重组荧光素酶时显示出生物发光。将PMBiT与各种IgG抗体混合会导致生物发光降低。相反,当PMBiT与结合其大抗原(如人C反应蛋白)的IgG混合时,会获得剂量依赖性的生物发光增加。PM的分子动力学模拟表明,C末端的两个区域由于其相对刚性的结构,会与抗原发生空间冲突。此外,对该结构的计算机模拟分析表明,抗原大小是阻碍PMBiT与IgG结合进行抗原检测的主要因素。利用PMBiT的免疫测定不需要对抗体进行基因操作,允许无缝且可扩展地替换抗体,并将推动现场检测和快速诊断的未来发展。
