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Current Medicinal Chemistry

Editor-in-Chief

ISSN (Print): 0929-8673
ISSN (Online): 1875-533X

Gyroxin and Its Biological Activity: Effects on CNS Basement Membranes and Endothelium and Protease-Activated Receptors

Author(s): J. A.A. da Silva, P. Spencer, M. A. Camillo and V. M.F. de Lima

Volume 19, Issue 2, 2012

Page: [281 - 291] Pages: 11

DOI: 10.2174/092986712803414123

Price: $65

Abstract

Gyroxin is a glycoprotein isolated from rattlesnake venom, with known thrombin-like serine protease properties and behavioral action in the CNS. The mechanism of the latter has eluded experimenters for three decades. In this paper about the in vitro chick retina we demonstrate an excitotoxic CNS action of Gyroxin by observing retinal Intrinsic Optical Signals (IOS). These show sudden dynamic changes in the intact tissue due to gyroxin action. The very fast kinetics of this response precludes deep tissue penetration by the protein, a mechanism of tissue response described here for the first time. At nanomolar concentrations, Gyroxin alters profoundly the optical profiles of retinal spreading depression waves (RSDs), suggesting modulation of ionic transport and metabolism. This effect is reversible in contrast with the acute cell lysis induced with gyroxin pulses at higher concentration. Because there may be more than one target of Gyroxine at the retinal inner limiting membrane, additional biochemical assays were performed to study a possible Na/K-ATPase blockade and PAR receptor activation. We conclude that the Gyroxin interaction with basement membranes of CNS and endothelium triggers conformational phase transitions at basement membranes, with multiple functional consequences.

Keywords: Retinal spreading depression, IOS, excitotoxicity, gyroxin, PAR receptors, neuronal-glial interactions, glycoprotein, (IOS), (RSDs)


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