Electrophysiological, morphological, and biochemical approaches were combined to study the effect of the presynaptic injection of the light chain of botulinum toxin C1 into the squid giant synapse. Presynaptic injection was accompanied by synaptic block that occurred progressively as the toxin filled the presynaptic terminal. Neither the presynaptic action potential nor the Ca 2؉ currents in the presynaptic terminal were affected by the toxin. Biochemical analysis of syntaxin moiety in squid indicates that the light chain of botulinum toxin C1 lyses syntaxin in vitro, suggesting that this was the mechanism responsible for synaptic block. Ultrastructure of the injected synapses demonstrates an enormous increase in the number of presynaptic vesicles, suggesting that the release rather than the docking of vesicles is affected by biochemical lysing of the syntaxin molecule.Calcium-triggered fusion of synaptic vesicles with the presynaptic membrane is one of the most specialized features of neurons and is an essential step for chemical neurotransmission. Molecular mechanisms underlying this process have recently been described (1). The formation of the complex composed of the plasma membrane proteins syntaxin 1, synaptosomal-associated protein of 25 kDa (SNAP-25), and vesicle-associated membrane protein synaptobrevin constitutes a key step in the pathway to exocytosis (2). Indeed, experimental evidence for an essential role of this complex came from the identification of these proteins as substrates of neurotransmission-blocking clostridium neurotoxins (3). Furthermore, cleavage of syntaxin 1 by botulinum toxin C1 (BoNT͞C1) impairs synaptic vesicle exocytosis and blocks neurotransmitter release (4). Syntaxin 1 is present at the presynaptic active zone and is mostly associated with calcium channel proteins, in particular N (5, 6) and P͞Q (7, 8) type calcium channels, and with a possible calcium sensor, synaptotagmin, in a calciumdependent manner. Molecular studies on syntaxin 1 revealed two isoforms of this protein in mammalian neuronal tissues, syntaxin 1A and syntaxin 1B, and both isoforms are cleaved by BoNT͞C1 (3, 9). The squid Loligo pelaii expresses a presynaptic protein similar to mammalian syntaxin 1 (10). The protein was isolated from squid optic lobes, cloned, and sequenced, and a polyclonal anti-Loligo syntaxin antibody was generated that demonstrated positive immunoblot reaction against the squid syntaxin (10). Presynaptic injection of antiLoligo syntaxin IgG into the squid giant synapse results in transmitter release block (10). The dynamics of this block were of the type expected with vesicular fusion impairment (11), rather than with a reduction of vesicular availability (12, 13). In the present study, we injected presynaptically the light chain of BoNT͞C1 (BoNT͞C1-LC), known to lyse the mammalian syntaxins 1A and 1B. Presynaptic BoNT͞C1-LC injections were combined with electrophysiological, neurochemical, and ultrastructural studies to determine the effect of such toxin on transmitter release a...
