Generation of high affinity ICAM-1-specific nanobodies and evaluation of their suitability for allergy treatment

Zettl, Ines; Иванова, Т. И.; Zghaebi, Mohammed; Rutovskaya, M. V.; Ellinger, Isabella; Goryainova, Oksana; Kollarova, Jessica; Villazala-Merino, Sergio; Lupinek, Christian; Weichwald, Christina; Drescher, Axel; Eckl‐Dorna, Julia; Тиллиб, С. В.; Flicker, Sabine

doi:10.3389/fimmu.2022.1022418

Cited by 9 publications

(1 citation statement)

References 58 publications

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“…To overcome this challenge, gene-based approaches and various delivery modes of monoclonal antibodies such as inhalation or intranasal application have emerged as promising and advantageous options (27,29). In parallel, nanobodies have recently been discovered as potentially appropriate tools for allergy treatment (30)(31)(32)(33)(34)(35)(36). Their unique features such as their capacity to bind epitopes on their cognate antigens with a strong affinity that may not be accessible for monoclonal antibodies, their single domain organization, their easy and inexpensive generation in prokaryotic cells, render nanobodies valuable agents for food safety inspections but also for nanobody-mediated interventional studies (31,32,(36)(37)(38).…”

Section: Introductionmentioning

confidence: 99%

Trimeric Bet v 1-specific nanobodies cause strong suppression of IgE binding

Bauernfeind,

Zettl,

Ivanova

et al. 2024

Front. Immunol.

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BackgroundAround 20% of the population in Northern and Central Europe is affected by birch pollen allergy, with the major birch pollen allergen Bet v 1 as the main elicitor of allergic reactions. Together with its cross-reactive allergens from related trees and foods, Bet v 1 causes an impaired quality of life. Hence, new treatment strategies were elaborated, demonstrating the effectiveness of blocking IgG antibodies on Bet v 1-induced IgE-mediated reactions. A recent study provided evidence for the first time that Bet v 1-specific nanobodies reduce patients´ IgE binding to Bet v 1. In order to increase the potential to outcompete IgE recognition of Bet v 1 and to foster cross-reactivity and cross-protection, we developed Bet v 1-specific nanobody trimers and evaluated their capacity to suppress polyclonal IgE binding to corresponding allergens and allergen-induced basophil degranulation.MethodsNanobody trimers were engineered by adding isoleucine zippers, thus enabling trimeric formation. Trimers were analyzed for their cross-reactivity, binding kinetics to Bet v 1, and related allergens, and patients’ IgE inhibition potential. Finally, their efficacy to prevent basophil degranulation was investigated.ResultsTrimers showed enhanced recognition of cross-reactive allergens and increased efficiency to reduce IgE-allergen binding compared to nanobody monomers. Furthermore, trimers displayed slow dissociation rates from allergens and suppressed allergen-induced mediator release.ConclusionWe generated high-affine nanobody trimers that target Bet v 1 and related allergens. Trimers blocked IgE-allergen interaction by competing with IgE for allergen binding. They inhibited IgE-mediated release of biological mediators, demonstrating a promising potential to prevent allergic reactions caused by Bet v 1 and relatives.

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