ADDovenom: Thermostable Protein-Based ADDomer Nanoparticles as New Therapeutics for Snakebite Envenoming

Stefanie Menzies; Raquel Arinto-Garcia; Fernanda Gobbi Amorim; Iara Aime Cardoso; Camille Abada; Thomas Crasset; Fabien Durbesson; Becky Edge; Priscila El-Kazzi; Sophie Hall; Damien Redureau; Richard Stenner; Johara Boldrini-França; Huan Sun; António Roldão; Paula M. Alves; Robert Harrison; Renaud Vincentelli; Imre Berger; Loïc Quinton; Nick Casewell; Christiane Schaffitzel

doi:10.3390/toxins15120673

ADDovenom: Thermostable Protein-Based ADDomer Nanoparticles as New Therapeutics for Snakebite Envenoming

Stefanie Menzies, Raquel Arinto-Garcia, Fernanda Gobbi Amorim, Iara Aime Cardoso, Camille Abada, Thomas Crasset, Fabien Durbesson, Becky Edge, Priscila El-Kazzi, Sophie Hall, Damien Redureau, Richard Stenner, Johara Boldrini-França, Huan Sun, António Roldão, Paula M. Alves, Robert Harrison, Renaud Vincentelli, Imre Berger, Loïc QuintonNick Casewell, Christiane Schaffitzel

Research output: Contribution to journal › Article › peer-review

3 Citations (Scopus)

Abstract

Snakebite envenoming can be a life-threatening medical emergency that requires prompt medical intervention to neutralise the effects of venom toxins. Each year up to 138,000 people die from snakebites and threefold more victims suffer life-altering disabilities. The current treatment of snakebite relies solely on antivenom—polyclonal antibodies isolated from the plasma of hyperimmunised animals—which is associated with numerous deficiencies. The ADDovenom project seeks to deliver a novel snakebite therapy, through the use of an innovative protein-based scaffold as a next-generation antivenom. The ADDomer is a megadalton-sized, thermostable synthetic nanoparticle derived from the adenovirus penton base protein; it has 60 high-avidity binding sites to neutralise venom toxins. Here, we outline our experimental strategies to achieve this goal using state-of-the-art protein engineering, expression technology and mass spectrometry, as well as in vitro and in vivo venom neutralisation assays. We anticipate that the approaches described here will produce antivenom with unparalleled efficacy, safety and affordability.

Original language	English
Article number	673
Pages (from-to)	e673
Journal	Toxins
Volume	15
Issue number	12
DOIs	https://doi.org/10.3390/toxins15120673
Publication status	Published - 28 Nov 2023

Keywords

ADDomer
antivenom
biologics
snakebite
venom

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10.3390/toxins15120673Licence: CC BY

Toxins-15-00673Final published version, 2.65 MBLicence: CC BY

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Menzies, S., Arinto-Garcia, R., Amorim, F. G., Cardoso, I. A., Abada, C., Crasset, T., Durbesson, F., Edge, B., El-Kazzi, P., Hall, S., Redureau, D., Stenner, R., Boldrini-França, J., Sun, H., Roldão, A., Alves, P. M., Harrison, R., Vincentelli, R., Berger, I., ... Schaffitzel, C. (2023). ADDovenom: Thermostable Protein-Based ADDomer Nanoparticles as New Therapeutics for Snakebite Envenoming. Toxins, 15(12), e673. Article 673. https://doi.org/10.3390/toxins15120673

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title = "ADDovenom: Thermostable Protein-Based ADDomer Nanoparticles as New Therapeutics for Snakebite Envenoming",

abstract = "Snakebite envenoming can be a life-threatening medical emergency that requires prompt medical intervention to neutralise the effects of venom toxins. Each year up to 138,000 people die from snakebites and threefold more victims suffer life-altering disabilities. The current treatment of snakebite relies solely on antivenom—polyclonal antibodies isolated from the plasma of hyperimmunised animals—which is associated with numerous deficiencies. The ADDovenom project seeks to deliver a novel snakebite therapy, through the use of an innovative protein-based scaffold as a next-generation antivenom. The ADDomer is a megadalton-sized, thermostable synthetic nanoparticle derived from the adenovirus penton base protein; it has 60 high-avidity binding sites to neutralise venom toxins. Here, we outline our experimental strategies to achieve this goal using state-of-the-art protein engineering, expression technology and mass spectrometry, as well as in vitro and in vivo venom neutralisation assays. We anticipate that the approaches described here will produce antivenom with unparalleled efficacy, safety and affordability.",

keywords = "ADDomer, antivenom, biologics, snakebite, venom",

author = "Stefanie Menzies and Raquel Arinto-Garcia and Amorim, \{Fernanda Gobbi\} and Cardoso, \{Iara Aime\} and Camille Abada and Thomas Crasset and Fabien Durbesson and Becky Edge and Priscila El-Kazzi and Sophie Hall and Damien Redureau and Richard Stenner and Johara Boldrini-Fran{\c c}a and Huan Sun and Ant{\'o}nio Rold{\~a}o and Alves, \{Paula M.\} and Robert Harrison and Renaud Vincentelli and Imre Berger and Lo{\"i}c Quinton and Nick Casewell and Christiane Schaffitzel",

year = "2023",

month = nov,

day = "28",

doi = "10.3390/toxins15120673",

language = "English",

volume = "15",

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Menzies, S, Arinto-Garcia, R, Amorim, FG, Cardoso, IA, Abada, C, Crasset, T, Durbesson, F, Edge, B, El-Kazzi, P, Hall, S, Redureau, D, Stenner, R, Boldrini-França, J, Sun, H, Roldão, A, Alves, PM, Harrison, R, Vincentelli, R, Berger, I, Quinton, L, Casewell, N & Schaffitzel, C 2023, 'ADDovenom: Thermostable Protein-Based ADDomer Nanoparticles as New Therapeutics for Snakebite Envenoming', Toxins, vol. 15, no. 12, 673, pp. e673. https://doi.org/10.3390/toxins15120673

TY - JOUR

T1 - ADDovenom: Thermostable Protein-Based ADDomer Nanoparticles as New Therapeutics for Snakebite Envenoming

AU - Menzies, Stefanie

AU - Arinto-Garcia, Raquel

AU - Amorim, Fernanda Gobbi

AU - Cardoso, Iara Aime

AU - Abada, Camille

AU - Crasset, Thomas

AU - Durbesson, Fabien

AU - Edge, Becky

AU - El-Kazzi, Priscila

AU - Hall, Sophie

AU - Redureau, Damien

AU - Stenner, Richard

AU - Boldrini-França, Johara

AU - Sun, Huan

AU - Roldão, António

AU - Alves, Paula M.

AU - Harrison, Robert

AU - Vincentelli, Renaud

AU - Berger, Imre

AU - Quinton, Loïc

AU - Casewell, Nick

AU - Schaffitzel, Christiane

PY - 2023/11/28

Y1 - 2023/11/28

N2 - Snakebite envenoming can be a life-threatening medical emergency that requires prompt medical intervention to neutralise the effects of venom toxins. Each year up to 138,000 people die from snakebites and threefold more victims suffer life-altering disabilities. The current treatment of snakebite relies solely on antivenom—polyclonal antibodies isolated from the plasma of hyperimmunised animals—which is associated with numerous deficiencies. The ADDovenom project seeks to deliver a novel snakebite therapy, through the use of an innovative protein-based scaffold as a next-generation antivenom. The ADDomer is a megadalton-sized, thermostable synthetic nanoparticle derived from the adenovirus penton base protein; it has 60 high-avidity binding sites to neutralise venom toxins. Here, we outline our experimental strategies to achieve this goal using state-of-the-art protein engineering, expression technology and mass spectrometry, as well as in vitro and in vivo venom neutralisation assays. We anticipate that the approaches described here will produce antivenom with unparalleled efficacy, safety and affordability.

AB - Snakebite envenoming can be a life-threatening medical emergency that requires prompt medical intervention to neutralise the effects of venom toxins. Each year up to 138,000 people die from snakebites and threefold more victims suffer life-altering disabilities. The current treatment of snakebite relies solely on antivenom—polyclonal antibodies isolated from the plasma of hyperimmunised animals—which is associated with numerous deficiencies. The ADDovenom project seeks to deliver a novel snakebite therapy, through the use of an innovative protein-based scaffold as a next-generation antivenom. The ADDomer is a megadalton-sized, thermostable synthetic nanoparticle derived from the adenovirus penton base protein; it has 60 high-avidity binding sites to neutralise venom toxins. Here, we outline our experimental strategies to achieve this goal using state-of-the-art protein engineering, expression technology and mass spectrometry, as well as in vitro and in vivo venom neutralisation assays. We anticipate that the approaches described here will produce antivenom with unparalleled efficacy, safety and affordability.

KW - ADDomer

KW - antivenom

KW - biologics

KW - snakebite

KW - venom

U2 - 10.3390/toxins15120673

DO - 10.3390/toxins15120673

M3 - Article

SN - 2072-6651

VL - 15

SP - e673

JO - Toxins

JF - Toxins

IS - 12

M1 - 673

ER -

ADDovenom: Thermostable Protein-Based ADDomer Nanoparticles as New Therapeutics for Snakebite Envenoming

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