Cloning and Functional Analysis of Saxiphilin, a Saxitoxin-Binding Protein from the Bullfrog.

Abstract

Saxitoxin (STX), a potent neurotoxin, is the causative agent of paralytic shellfish poisoning in humans. The North American bullfrog, Rana Icatesbeiana, contains a plasma protein called saxiphilin that binds STX with high affinity and specificity. Inasmuch as saxiphilin may be useful as a detection re-agent or an antidote for STX, we have investigated the biochemical properties of saxiphilin and cloned cDNA encoding this protein. Native saxiphilin is a polypeptide of 826 amino acid residues (Mr = 90,818) that contains one binding site for 3HjSTx per inolecule with an equilibrium dissociation constant of KDN 0.2 nM. The amino acid sequence of saxiphilin, deduced from cDNA isolated from bullfrog liver, exhibits substantial homology to members of the transferrin family of Fe3+-binding proteins. However, biochemical and immunochemical analyses confirm that saxiphilin is a unique protein that is not derived from bullfrog serum transferrin. Also, saxiphilin does not bind Fe3+ which implies that saxiphilin is probably not involved in iron metabolism. The mechanism of 3Hstx binding to saxiphilin, including the pH-dependence and temperature-dependence, has been characterized in detail. Recombinant saxiphilin has been expressed in insect cells using a baculovirus vector and the STX-binding site has been localized to the C-lobe domain of the protein.

Document Details

Document Type

Technical Report

Publication Date

Oct 01, 1994

Accession Number

ADA290118

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