Venom diversity in Naja mossambica: Insights from proteomic and immunochemical analyses reveal intraspecific differences

Hus, Konrad K.; Buczkowicz, Justyna; Pietrowska, Monika; Petrilla, Vladimír; Petrillová, Monika; Legáth, Jaroslav; Litschka-Koen, Thea; Bocian, Aleksandra

doi:10.1371/journal.pntd.0012057

PLoS Negl Trop Dis

2024

DOI: 10.1371/journal.pntd.0012057

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Venom diversity in Naja mossambica: Insights from proteomic and immunochemical analyses reveal intraspecific differences

Konrad K. Hus,

Justyna Buczkowicz,

Monika Pietrowska

et al.

Abstract: Background Intraspecific variations in snake venom composition have been extensively documented, contributing to the diverse clinical effects observed in envenomed patients. Understanding these variations is essential for developing effective snakebite management strategies and targeted antivenom therapies. We aimed to comprehensively investigate venoms from three distinct populations of N. mossambica from Eswatini, Limpopo, and KwaZulu-Natal regions in Africa in terms of their protein composition and reactivi… Show more

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Cited by 3 publications

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Broad‐Spectrum Detoxification of Snake Venoms With Supramolecular Materials Integrated via Molecular Recognition and Coassembly

Chen,

Tian,

Cheng

et al. 2024

Adv Healthcare Materials

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Snakebite is a medical emergency that often leads to high mortality and morbidity in tropical and subtropical regions. The diversity in venom composition between various types of snakes necessitates the use of different specific antivenom treatments, which presents clinical and financial challenges in the management of snakebites. Therefore, developing a broad‐spectrum antidote to neutralize complex and diverse snake venoms has assumed critical importance. Herein, a broad‐spectrum antidote is developed through molecular recognition and coassembly to neutralize four kinds of snake venom toxins, those are three‐finger toxin (3FTx), snake venom metalloproteinase (SVMP), phospholipase A2 (PLA2), and snake venom serine protease (SVSP), which have high abundance and toxicity. The coassembly of sulfonate‐modified amphiphilic calixarene (SCA) and amphiphilic cyclodextrin (CD) is employed to neutralize the toxicity of 3FTx, 1,2‐dodecanedithiol (DDT) and thioetheramide phosphorylcholine (TEAPC) are introduced through coassembly to neutralize toxicity of SVMP and PLA2, respectively, and the nafamostat (NT), which can be loaded through the host‐guest complexation, is employed to neutralize toxicity of SVSP. The broad‐spectrum antidote, NT@SCA/CD/DDT/TEAPC, effectively neutralizes key toxins from the most medically important cobra and vipers, significantly improving survival rates of poisoned mice. This study conceptually validated the feasibility of broad‐spectrum detoxification and also offers a conveniently integrated supramolecular strategy.

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Broad‐Spectrum Detoxification of Snake Venoms With Supramolecular Materials Integrated via Molecular Recognition and Coassembly

Chen,

Tian,

Cheng

et al. 2024

Adv Healthcare Materials

View full text Add to dashboard Cite

show abstract

Cobra Venom: From Envenomation Syndromes to Therapeutic Innovations

Lafnoune,

Chbel,

Darkaoui

et al. 2024

Int J Pept Res Ther

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A comparison of the venom proteomes and potential therapeutics of 3 African naja subgenera

Offor,

Piater

2024

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Venom diversity in Naja mossambica: Insights from proteomic and immunochemical analyses reveal intraspecific differences

Cited by 3 publications

References 40 publications

Broad‐Spectrum Detoxification of Snake Venoms With Supramolecular Materials Integrated via Molecular Recognition and Coassembly

Broad‐Spectrum Detoxification of Snake Venoms With Supramolecular Materials Integrated via Molecular Recognition and Coassembly

Cobra Venom: From Envenomation Syndromes to Therapeutic Innovations

A comparison of the venom proteomes and potential therapeutics of 3 African naja subgenera

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