Synthetic development of a broadly neutralizing antibody against snake venom long-chain α-neurotoxins

Irene S. Khalek; R. R.Senji Laxme; Yen Thi Kim Nguyen; Suyog Khochare; Rohit Patel; Jordan Woehl; Jessica M. Smith; Karen Saye-Francisco; Yoojin Kim; Laetitia Misson Mindrebo; Quoc Tran; Mateusz Kędzior; Evy Boré; Oliver Limbo; Megan Verma; Robyn L. Stanfield; Stefanie Menzies; Stuart Ainsworth; Robert Harrison; Dennis R. Burton; Devin Sok; Ian A. Wilson; Nick Casewell; Kartik Sunagar; Joseph G. Jardine

doi:10.1126/scitranslmed.adk1867

Synthetic development of a broadly neutralizing antibody against snake venom long-chain α-neurotoxins

Irene S. Khalek
, R. R.Senji Laxme
, Yen Thi Kim Nguyen
, Suyog Khochare
, Rohit Patel
, Jordan Woehl
, Jessica M. Smith
, Karen Saye-Francisco
, Yoojin Kim
, Laetitia Misson Mindrebo
, Quoc Tran
, Mateusz Kędzior
, Evy Boré
, Oliver Limbo
, Megan Verma
, Robyn L. Stanfield
, Stefanie Menzies
, Stuart Ainsworth
, Robert Harrison
, Dennis R. Burton

Devin Sok, Ian A. Wilson, Nick Casewell, Kartik Sunagar, Joseph G. Jardine

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

39 Citations (Scopus)

Abstract

Snakebite envenoming is a major global public health concern for which improved therapies are urgently needed. The antigenic diversity present in snake venom toxins from various species presents a considerable challenge to the development of a universal antivenom. Here, we used a synthetic human antibody library to find and develop an antibody that neutralizes long-chain three-finger α-neurotoxins produced by numerous medically relevant snakes. Our antibody bound diverse toxin variants with high affinity, blocked toxin binding to the nicotinic acetylcholine receptor in vitro, and protected mice from lethal venom challenge. Structural analysis of the antibody-toxin complex revealed a binding mode that mimics the receptor-toxin interaction. The overall workflow presented is generalizable for the development of antibodies that target conserved epitopes among antigenically diverse targets, and it offers a promising framework for the creation of a monoclonal antibody–based universal antivenom to treat snakebite envenoming.

Original language	English
Article number	eadk1867
Journal	Science Translational Medicine
Volume	16
Issue number	735
DOIs	https://doi.org/10.1126/scitranslmed.adk1867
Publication status	Published - 21 Feb 2024

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Khalek, I. S., Laxme, R. R. S., Nguyen, Y. T. K., Khochare, S., Patel, R., Woehl, J., Smith, J. M., Saye-Francisco, K., Kim, Y., Mindrebo, L. M., Tran, Q., Kędzior, M., Boré, E., Limbo, O., Verma, M., Stanfield, R. L., Menzies, S., Ainsworth, S., Harrison, R., ... Jardine, J. G. (2024). Synthetic development of a broadly neutralizing antibody against snake venom long-chain α-neurotoxins. Science Translational Medicine, 16(735), Article eadk1867. https://doi.org/10.1126/scitranslmed.adk1867

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title = "Synthetic development of a broadly neutralizing antibody against snake venom long-chain α-neurotoxins",

abstract = "Snakebite envenoming is a major global public health concern for which improved therapies are urgently needed. The antigenic diversity present in snake venom toxins from various species presents a considerable challenge to the development of a universal antivenom. Here, we used a synthetic human antibody library to find and develop an antibody that neutralizes long-chain three-finger α-neurotoxins produced by numerous medically relevant snakes. Our antibody bound diverse toxin variants with high affinity, blocked toxin binding to the nicotinic acetylcholine receptor in vitro, and protected mice from lethal venom challenge. Structural analysis of the antibody-toxin complex revealed a binding mode that mimics the receptor-toxin interaction. The overall workflow presented is generalizable for the development of antibodies that target conserved epitopes among antigenically diverse targets, and it offers a promising framework for the creation of a monoclonal antibody–based universal antivenom to treat snakebite envenoming.",

author = "Khalek, \{Irene S.\} and Laxme, \{R. R.Senji\} and Nguyen, \{Yen Thi Kim\} and Suyog Khochare and Rohit Patel and Jordan Woehl and Smith, \{Jessica M.\} and Karen Saye-Francisco and Yoojin Kim and Mindrebo, \{Laetitia Misson\} and Quoc Tran and Mateusz K{\c e}dzior and Evy Bor{\'e} and Oliver Limbo and Megan Verma and Stanfield, \{Robyn L.\} and Stefanie Menzies and Stuart Ainsworth and Robert Harrison and Burton, \{Dennis R.\} and Devin Sok and Wilson, \{Ian A.\} and Nick Casewell and Kartik Sunagar and Jardine, \{Joseph G.\}",

year = "2024",

month = feb,

day = "21",

doi = "10.1126/scitranslmed.adk1867",

language = "English",

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Khalek, IS, Laxme, RRS, Nguyen, YTK, Khochare, S, Patel, R, Woehl, J, Smith, JM, Saye-Francisco, K, Kim, Y, Mindrebo, LM, Tran, Q, Kędzior, M, Boré, E, Limbo, O, Verma, M, Stanfield, RL, Menzies, S, Ainsworth, S, Harrison, R, Burton, DR, Sok, D, Wilson, IA, Casewell, N, Sunagar, K & Jardine, JG 2024, 'Synthetic development of a broadly neutralizing antibody against snake venom long-chain α-neurotoxins', Science Translational Medicine, vol. 16, no. 735, eadk1867. https://doi.org/10.1126/scitranslmed.adk1867

TY - JOUR

T1 - Synthetic development of a broadly neutralizing antibody against snake venom long-chain α-neurotoxins

AU - Khalek, Irene S.

AU - Laxme, R. R.Senji

AU - Nguyen, Yen Thi Kim

AU - Khochare, Suyog

AU - Patel, Rohit

AU - Woehl, Jordan

AU - Smith, Jessica M.

AU - Saye-Francisco, Karen

AU - Kim, Yoojin

AU - Mindrebo, Laetitia Misson

AU - Tran, Quoc

AU - Kędzior, Mateusz

AU - Boré, Evy

AU - Limbo, Oliver

AU - Verma, Megan

AU - Stanfield, Robyn L.

AU - Menzies, Stefanie

AU - Ainsworth, Stuart

AU - Harrison, Robert

AU - Burton, Dennis R.

AU - Sok, Devin

AU - Wilson, Ian A.

AU - Casewell, Nick

AU - Sunagar, Kartik

AU - Jardine, Joseph G.

PY - 2024/2/21

Y1 - 2024/2/21

N2 - Snakebite envenoming is a major global public health concern for which improved therapies are urgently needed. The antigenic diversity present in snake venom toxins from various species presents a considerable challenge to the development of a universal antivenom. Here, we used a synthetic human antibody library to find and develop an antibody that neutralizes long-chain three-finger α-neurotoxins produced by numerous medically relevant snakes. Our antibody bound diverse toxin variants with high affinity, blocked toxin binding to the nicotinic acetylcholine receptor in vitro, and protected mice from lethal venom challenge. Structural analysis of the antibody-toxin complex revealed a binding mode that mimics the receptor-toxin interaction. The overall workflow presented is generalizable for the development of antibodies that target conserved epitopes among antigenically diverse targets, and it offers a promising framework for the creation of a monoclonal antibody–based universal antivenom to treat snakebite envenoming.

AB - Snakebite envenoming is a major global public health concern for which improved therapies are urgently needed. The antigenic diversity present in snake venom toxins from various species presents a considerable challenge to the development of a universal antivenom. Here, we used a synthetic human antibody library to find and develop an antibody that neutralizes long-chain three-finger α-neurotoxins produced by numerous medically relevant snakes. Our antibody bound diverse toxin variants with high affinity, blocked toxin binding to the nicotinic acetylcholine receptor in vitro, and protected mice from lethal venom challenge. Structural analysis of the antibody-toxin complex revealed a binding mode that mimics the receptor-toxin interaction. The overall workflow presented is generalizable for the development of antibodies that target conserved epitopes among antigenically diverse targets, and it offers a promising framework for the creation of a monoclonal antibody–based universal antivenom to treat snakebite envenoming.

U2 - 10.1126/scitranslmed.adk1867

DO - 10.1126/scitranslmed.adk1867

M3 - Article

SN - 1946-6234

VL - 16

JO - Science Translational Medicine

JF - Science Translational Medicine

IS - 735

M1 - eadk1867

ER -

Synthetic development of a broadly neutralizing antibody against snake venom long-chain α-neurotoxins

Abstract

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