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Central Nervous System Agents in Medicinal Chemistry

Editor-in-Chief

ISSN (Print): 1871-5249
ISSN (Online): 1875-6166

Effects of Snake Venom Polypeptides on Central Nervous System

Author(s): Alexey Osipov and Yuri Utkin

Volume 12, Issue 4, 2012

Page: [315 - 328] Pages: 14

DOI: 10.2174/187152412803760618

Price: $65

Abstract

The nervous system is a primary target for animal venoms as the impairment of its function results in the fast and efficient immobilization or death of a prey. There are numerous evidences about effects of crude snake venoms or isolated toxins on peripheral nervous system. However, the data on their interactions with the central nervous system (CNS) are not abundant, as the blood-brain barrier (BBB) impedes penetration of these compounds into brain. This updated review presents the data about interaction of snake venom polypeptides with CNS. Such data will be described according to three main modes of interactions:

- Direct in vivo interaction of CNS with venom polypeptides either capable to penetrate BBB or injected into the brain.

- In vitro interactions of cell or sub-cellular fractions of CNS with crude venoms or purified toxins.

- Indirect effects of snake venoms or their components on functioning of CNS under different conditions.

Although the venom components penetrating BBB are not numerous, they seem to be the most suitable candidates for the leads in drug design. The compounds with other modes of action are more abundant and better studied, but the lack of the data about their ability to penetrate BBB may substantially aggravate the potentials for their medical perspectives. Nevertheless, many such compounds are used for research of CNS in vitro. These investigations may give invaluable information for understanding the molecular basis of CNS diseases and thus lay the basis for targeted drug design. This aspect also will be outlined in the review.

Keywords: Snake venom, polypeptides, neurotoxins, central nervous system, brain, blood-brain barrier, intracerebroventricular, presynaptic membranes


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