TY - JOUR
T1 - A new conotoxin affecting sodium current inactivation interacts with the δ-conotoxin receptor site
AU - Fainzilber, Michael
AU - Lodder, Johannes C.
AU - Kits, Karel S.
AU - Kofman, Ora
AU - Vinnitsky, Ilya
AU - Van Rietschoten, Jurphaas
AU - Zlotkin, Eliahu
AU - Gordon, Dalia
PY - 1995/1/20
Y1 - 1995/1/20
N2 - We describe a new peptide conotoxin affecting sodium current inactivation, that competes on binding with δ-conotoxin TxVIA (δTxVIA). The amino acid sequence of the new toxin, designated conotoxin NgVIA (NgVIA), is SKCFSOGTFCGIKOGLCCSVRCFSLFCISFE (where O is trans-4-hydroxyproline). The primary structure of NgVIA has an identical cysteine framework and similar hydrophobicity as δTxVIA but differs in its net charge. NgVIA competes with δTxVIA on binding to rat brain synaptosomes and molluscan central nervous system and strongly inhibits sodium current inactivation in snail neurons, as does δTxVIA. In contrast to δTxVIA, NgVIA is a potent paralytic toxin in vertebrate systems, its binding appears to be voltage-dependent, and it synergically increases veratridine-induced sodium influx to rat brain synaptosomes. δTxVIA acts as a partial antagonist to NgVIA in rat brain in vivo. NgVIA appears to act via a receptor site distinct from that of δTxVIA but similar to that of Conus striatus toxin. This new toxin provides a lead for structure-function relationship studies in the δ-conotoxins and will enable analysis of the functional significance of this complex of receptor sites in gating mechanisms of sodium channels.
AB - We describe a new peptide conotoxin affecting sodium current inactivation, that competes on binding with δ-conotoxin TxVIA (δTxVIA). The amino acid sequence of the new toxin, designated conotoxin NgVIA (NgVIA), is SKCFSOGTFCGIKOGLCCSVRCFSLFCISFE (where O is trans-4-hydroxyproline). The primary structure of NgVIA has an identical cysteine framework and similar hydrophobicity as δTxVIA but differs in its net charge. NgVIA competes with δTxVIA on binding to rat brain synaptosomes and molluscan central nervous system and strongly inhibits sodium current inactivation in snail neurons, as does δTxVIA. In contrast to δTxVIA, NgVIA is a potent paralytic toxin in vertebrate systems, its binding appears to be voltage-dependent, and it synergically increases veratridine-induced sodium influx to rat brain synaptosomes. δTxVIA acts as a partial antagonist to NgVIA in rat brain in vivo. NgVIA appears to act via a receptor site distinct from that of δTxVIA but similar to that of Conus striatus toxin. This new toxin provides a lead for structure-function relationship studies in the δ-conotoxins and will enable analysis of the functional significance of this complex of receptor sites in gating mechanisms of sodium channels.
UR - http://www.scopus.com/inward/record.url?scp=0028855708&partnerID=8YFLogxK
U2 - 10.1074/jbc.270.3.1123
DO - 10.1074/jbc.270.3.1123
M3 - Article
AN - SCOPUS:0028855708
SN - 0021-9258
VL - 270
SP - 1123
EP - 1129
JO - Journal of Biological Chemistry
JF - Journal of Biological Chemistry
IS - 3
ER -