Toxins

18 pages, 14539 KiB

Open AccessArticle

Immunoinformatics Design and Identification of B-Cell Epitopes from Vespa affinis PLA1 Allergen

by Sophida Sukprasert, Siriporn Nonkhwao, Thitijchaya Thanwiset, Walter Keller and Sakda Daduang

Toxins 2025, 17(8), 373; https://doi.org/10.3390/toxins17080373 - 28 Jul 2025

Phospholipase A1 (Ves a 1), a major toxin from Vespa affinis venom, poses significant risks to allergic individuals. Nevertheless, the epitope determinants of Ves a 1 have not been characterized. Thus, identifying its linear B-cell epitopes is crucial for understanding envenomation mechanisms. In [...] Read more.

Phospholipase A1 (Ves a 1), a major toxin from Vespa affinis venom, poses significant risks to allergic individuals. Nevertheless, the epitope determinants of Ves a 1 have not been characterized. Thus, identifying its linear B-cell epitopes is crucial for understanding envenomation mechanisms. In this study, we predicted and identified B-cell epitopes EP5 and EP6 as potential candidates. EP5 formed an α-helix at the active site of Ves a 1, whereas EP6 adopted an extended loop conformation. Both synthetic peptides were synthesized and evaluated for their inhibitory effects using immune-inhibitory assays with polyclonal antibodies (pAbs) targeting both native (nVes a 1) and recombinant (rVes a 1) forms. The Ves a 1 polyclonal antibodies (pAb-nVes a 1 and pAb-Ves a 1) were produced, and their specificity binding to Ves a 1 was confirmed by Western blot. Next, ELISA inhibition assays showed that EP5 and EP6 significantly blocked pAb binding to both nVes a 1 and rVes a 1. Dot blot and Western blot assays supported these findings, particularly with stronger inhibition toward rVes a 1. Furthermore, enzymatic assays indicated that nVes a 1 and rVes a 1 retained phospholipase activity. Immunoinformatics docking showed that EP5 and EP6 specifically bind to a single-chain variable fragment antibody (scFv) targeting Naja naja PLA2. Molecular analysis revealed similar amino acid interactions to the template, suggesting effective paratope–epitope binding. These results support the potential of EP5 and EP6 for future diagnosis and therapy of V. affinis venom allergy. Full article

(This article belongs to the Section Animal Venoms)

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9 pages, 249 KiB

Open AccessArticle

Are Post-Care Recommendations Following Upper-Face Botulinum Toxin Treatment Scientifically Necessary? A Retrospective Study Based on 5000 Patients

by Adriano Santorelli, Giovanni Salti, Maurizio Cavallini, Salvatore Piero Fundarò, Matteo Basso, Martina Ponzo, Stefano Avvedimento and Stefano Uderzo

Toxins 2025, 17(8), 372; https://doi.org/10.3390/toxins17080372 - 28 Jul 2025

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Toxins

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