Toxicon: X (Dec 2024)

Supplementation of polyclonal antibodies, developed against epitope-string toxin-specific peptide immunogens, to commercial polyvalent antivenom, shows improved neutralization of Indian Big Four and Naja kaouthia snake venoms

  • Abhishek Chanda,
  • Nitin C. Salvi,
  • Pravin V. Shelke,
  • Bhargab Kalita,
  • Aparup Patra,
  • Upasana Puzari,
  • Milind V. Khadilkar,
  • Ashis K. Mukherjee

Journal volume & issue
Vol. 24
p. 100210

Abstract

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Snakebites profoundly impact the rural population of tropical nations, leading to significant socio-economic repercussions. Polyvalent antivenom (PAV) therapy faces several limitations, including intra-specific variations and poor efficacy against some major toxins and low molecular mass, poorly immunogenic toxins, which contribute to increased mortality and morbidity rates. Innovative strategies for developing novel antivenoms are continuously explored to address these challenges. The present study focuses on designing of 17 epitope-string toxin-specific peptide immunogens from pharmacologically active major and/or poorly immunogenic toxins (snake venom metalloprotease, Kunitz-type serine protease inhibitor, phospholipase A2, three-finger toxin) from the venom of the ‘Big Four’ venomous snakes and Naja kaouthia (NK) in India. These custom peptide antibodies demonstrated robust immuno-reactivity against the venoms ‘Big Four’ and NK. When these antibodies were supplemented with commercial PAV at a defined ratio (formulated polyvalent antivenom or FPAV), it significantly enhanced the neutralization of snake venom enzymes and in vivo neutralization of lethality and pharmacological activities such as haemorrhage, necrosis, pro-coagulant, defibrinogenation, and myotoxicity of ‘Big Four’ and NK venoms compared to PAV in mice. The present study highlights a promising strategy for developing next-generation antivenoms using synthetic peptide-based immunogens, offering a targeted approach to address the limitations of current antivenom therapy.

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