Animal venom studies: Current benefits and future developments

Yuri N Utkin¹

Affiliations

PMID: 26009701
PMCID: PMC4436903
DOI: 10.4331/wjbc.v6.i2.28

Animal venom studies: Current benefits and future developments

Yuri N Utkin. World J Biol Chem. 2015.

. 2015 May 26;6(2):28-33.

doi: 10.4331/wjbc.v6.i2.28.

Author

Yuri N Utkin¹

Affiliation

¹ Yuri N Utkin, Laboratory of Molecular Toxinology, Shemyakin-Ovchinnikov Institute of Bioorganic Chemistry, Moscow 117997, Russia.

PMID: 26009701
PMCID: PMC4436903
DOI: 10.4331/wjbc.v6.i2.28

Abstract

Poisonous organisms are represented in many taxa, including kingdom Animalia. During evolution, animals have developed special organs for production and injection of venoms. Animal venoms are complex mixtures, compositions of which depend on species producing venom. The most known and studied poisonous terrestrial animals are snakes, scorpions and spiders. Among marine animals, these are jellyfishes, anemones and cone snails. The toxic substances in the venom of these animals are mainly of protein and peptide origin. Recent studies have indicated that the single venom may contain up to several hundred different components producing diverse physiological effects. Bites or stings by certain poisonous species result in severe envenomations leading in some cases to death. This raises the problem of bite treatment. The most effective treatment so far is the application of antivenoms. To enhance the effectiveness of such treatments, the knowledge of venom composition is needed. On the other hand, venoms contain substances with unique biological properties, which can be used both in basic science and in clinical applications. The best example of toxin application in basic science is α-bungarotoxin the discovery of which made a big impact on the studies of nicotinic acetylcholine receptor. Today compositions of venom from many species have already been examined. Based on these data, one can conclude that venoms contain a large number of individual components belonging to a limited number of structural types. Often minor changes in the amino acid sequence give rise to new biological properties. Change in the living conditions of poisonous animals lead to alterations in the composition of venoms resulting in appearance of new toxins. At the same time introduction of new methods of proteomics and genomics lead to discoveries of new compounds, which may serve as research tools or as templates for the development of novel drugs. The application of these sensitive and comprehensive methods allows studying either of venoms available in tiny amounts or of low abundant components in already known venoms.

Keywords: Poison; Scorpion; Snake; Spider; Toxin; Venom.

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Chemical structures of captopril (A) and eptifibatide (B).

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References

1. Redi F Osservazioni Intorno alle Vipere. Florence: All'Insegna della Stella. Available from: http://www.books.google.ru/books/reader?id=h3FVAAAAcAAJ&hl=ru&printsec=f....
1. Uzawa S. Über die phosphomonoesterase und die phosphodiesterase. J Biochem Toyko. 1932;15:19–28.
1. Maeno H, Morimura M, Mitsuhashi S, Sawai Y, Okonogi T. Studies on Habu snake venom. 2b. Further purification and enzymic and biological activities of H alpha-proteinase. Jpn J Microbiol. 1959;3:277–284. - PubMed
1. Chang CC, Lee CY. Isolation of neurotoxins from the venom of bungarus multicinctus and their modes of neuromuscular blocking action. Arch Int Pharmacodyn Ther. 1963;144:241–257. - PubMed
1. Calmette A. The Treatment of Animals Poisoned with Snake Venom by the Injection of Antivenomous Serum. Br Med J. 1896;2:399–400. - PMC - PubMed

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Animal venom studies: Current benefits and future developments

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Animal venom studies: Current benefits and future developments

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