Contribution of CDR3 in characterization of camelid VHH and its aflatoxin B1-binding interaction

Food chemistry advances Pub Date : 2025-01-07 DOI:10.1016/j.focha.2025.100885

Hina Mukhtar , Lan Ma , Qian Pang , Xiaohong Wang , Jia Wang

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Abstract

The single variable domain of heavy chain (VHH) antibodies, owing to their unique properties, has gained attention in immunoassays. However, compared with macromolecule antigens, in the case of small molecule haptens, such as aflatoxin B₁ (AFB₁), the role of the longer complementarity determining region 3 (CDR3) of VHH is still indistinct. In this study, anti-AFB₁ VHH was selected from a naïve VHH library, and its CDR3 roles in VHH characteristics were further explored. Anti-AFB₁ VHH-2 was selected with 6.33 × 10^–5 M of KD value. Two VHH chimeras (C3-Nb28 and C3-VHH2) were constructed by interchanging the CDR3 of VHH-2 with Nb28, a previously reported anti-AFB₁ VHH from immunized alpaca, and vice versa. Refolded C3-Nb28 was obtained from the inclusion body, and C3-VHH2 was purified as a soluble protein for prokaryotic expression. Computational analysis showed that the binding of VHH-2 to AFB₁ is mediated by two hydrogen bonds (Thr106 and Tyr115) and two hydrophobic interactions (Trp109 and Thr114) in CDR3. In contrast, no binding pockets were available in the CDR3 in either VHH chimera, which was further confirmed by VHH ELISA. Studying the CDR3 role of VHH can elucidate its effects and affinity for small molecular weight molecules and broaden its applications.

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CDR3在骆驼类VHH及其黄曲霉毒素b1结合相互作用表征中的贡献

重链（VHH）抗体的单一可变结构域因其独特的性质而在免疫测定中备受关注。然而，与大分子抗原相比，对于黄曲霉毒素 B1（AFB1）等小分子抗原，VHH 较长的互补决定区 3（CDR3）的作用仍不明确。本研究从原始 VHH 文库中筛选出了抗 AFB1 VHH，并进一步探讨了其 CDR3 在 VHH 特性中的作用。抗 AFB1 VHH-2 的 KD 值为 6.33 × 10-5 M。通过将 VHH-2 的 CDR3 与 Nb28（一种之前报道的来自免疫羊驼的抗 AFB1 VHH）互换，构建了两种 VHH 嵌合体（C3-Nb28 和 C3-VHH2），反之亦然。从包涵体中获得了重折叠的 C3-Nb28，并将 C3-VHH2 纯化为可溶性蛋白用于原核表达。计算分析表明，VHH-2 与 AFB1 的结合是由 CDR3 中的两个氢键（Thr106 和 Tyr115）和两个疏水相互作用（Trp109 和 Thr114）介导的。相反，两种 VHH 嵌合体的 CDR3 中都没有结合口袋，这一点在 VHH 酶联免疫吸附试验中得到了进一步证实。研究 VHH CDR3 的作用可以阐明其对小分子量分子的作用和亲和力，并拓宽其应用范围。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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