Food-Borne Biotoxin Neutralization <i>in Vivo</i> by Nanobodies: Current Status and Prospects

Liu, Min-Ling; Liang, Xiao-Min; Jin, Ming-Yu; Huang, Hui-Wei; Luo, Lin; Wang, Hong; Shen, Xing; Xu, Zhen-Lin

doi:10.1021/acs.jafc.4c02257

J. Agric. Food Chem.

2024

DOI: 10.1021/acs.jafc.4c02257

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Food-Borne Biotoxin Neutralization in Vivo by Nanobodies: Current Status and Prospects

Min-Ling Liu,

Xiao-Min Liang,

Ming-Yu Jin

et al.

Abstract: Food-borne biotoxins from microbes, plants, or animals contaminate unclean, spoiled, and rotten foods, posing significant health risks. Neutralizing such toxins is vital for human health, especially after food poisoning. Nanobodies (Nbs), a type of single-domain antibodies derived from the genetic cloning of a variable domain of heavy chain antibodies (VHHs) in camels, offer unique advantages in toxin neutralization. Their small size, high stability, and precise binding enable effective neutralization. The use… Show more

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Cited by 2 publications

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Current trends in colorimetric biosensors using nanozymes for detecting biotoxins (bacterial food toxins, mycotoxins, and marine toxins)

Feng,

Zhang,

Fan

2024

Anal. Methods

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Current trends in colorimetric biosensors using nanozymes for detecting biotoxins (bacterial food toxins, mycotoxins, and marine toxins)

Feng,

Zhang,

Fan

2024

Anal. Methods

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Single domain antibody: Development and application in biotechnology and biopharma

Yu,

Zheng,

et al. 2024

Immunological Reviews

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SummaryHeavy‐chain antibodies (HCAbs) are a unique type of antibodies devoid of light chains, and comprised of two heavy chains‐only that recognize their cognate antigen by virtue of a single variable domain also referred to as VHH, single domain antibody (sdAb), or nanobody (Nb). These functional HCAbs, serendipitous discovered about three decades ago, are exclusively found in camelids, comprising dromedaries, camels, llamas, and vicugnas. Nanobodies have become an essential tool in biomedical research and medicine, both in diagnostics and therapeutics due to their beneficial properties: small size, high stability, strong antigen‐binding affinity, low immunogenicity, low production cost, and straightforward engineering into more potent affinity reagents. The occurrence of HCAbs in camelids remains intriguing. It is believed to be an evolutionary adaptation, equipping camelids with a robust adaptive immune defense suitable to respond to the pressure from a pathogenic invasion necessitating a more profound antigen recognition and neutralization. This evolutionary innovation led to a simplified HCAb structure, possibly supported by genetic mutations and drift, allowing adaptive mutation and diversification in the heavy chain variable gene and constant gene regions. Beyond understanding their origins, the application of nanobodies has significantly advanced over the past 30 years. Alongside expanding laboratory research, there has been a rapid increase in patent application for nanobodies. The introduction of commercial nanobody drugs such as Cablivi, Nanozora, Envafolimab, and Carvykti has boosted confidence among in their potential. This review explores the evolutionary history of HCAbs, their ontogeny, and applications in biotechnology and pharmaceuticals, focusing on approved and ongoing medical research pipelines.

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Food-Borne Biotoxin Neutralization in Vivo by Nanobodies: Current Status and Prospects

Cited by 2 publications

References 155 publications

Current trends in colorimetric biosensors using nanozymes for detecting biotoxins (bacterial food toxins, mycotoxins, and marine toxins)

Current trends in colorimetric biosensors using nanozymes for detecting biotoxins (bacterial food toxins, mycotoxins, and marine toxins)

Single domain antibody: Development and application in biotechnology and biopharma

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