The venom of the black widow spider (BWSV) (Latrodectus mactans tredecimguttatus) contains several potent, high molecular mass (110 kDa) neurotoxins that cause neurotransmitter release in a ...phylum-specific manner. The molecular mechanism of action of these proteins is poorly understood because their structures are largely unknown, and they have not been functionally expressed. This study reports on the primary structure of delta-latroinsectotoxin (delta-LIT), a novel insect-specific toxin from BWSV, that contains 1214 amino acids. delta-LIT comprises four structural domains: a signal peptide followed by an N-terminal domain that exhibits the highest degree of identity with other latrotoxins, a central region composed of 15 ankyrin-like repeats, and a C-terminal domain. The domain organization of delta-LIT is similar to that of other latrotoxins, suggesting that these toxins are a family of related proteins. The predicted molecular mass and apparent mobility of the protein (approximately 130 kDa) encoded in the delta-LIT gene differs from that of native delta-LIT purified from BWSV (approximately 110 kDa), suggesting that the toxin is produced by proteolytic processing of a precursor. MALDI-MS of purified native delta-LIT revealed a molecular ion with m/z+ of 110916 +/- 100, indicating that the native delta-LIT is 991 amino acids in length. When the full-length delta-LIT cDNA was expressed in bacteria the protein product was inactive, but expression of a C-terminally truncated protein containing 991 residues produced a protein that caused massive neurotransmitter release at the locust neuromuscular junction at nanomolar concentrations. Channels formed in locust muscle membrane and artificial lipid bilayers by the native delta-LIT have a high Ca2+ permeability, whereas those formed by truncated, recombinant protein do not
The venom of the black widow spider (BWSV) ( Latrodectus mactans tredecimguttatus ) contains several potent, high molecular mass (>110 kDa) neurotoxins that cause neurotransmitter release in a ...phylum-specific
manner. The molecular mechanism of action of these proteins is poorly understood because their structures are largely unknown,
and they have not been functionally expressed. This study reports on the primary structure of -latroinsectotoxin ( -LIT), a novel insect-specific toxin from BWSV, that contains 1214 amino acids. -LIT comprises four structural domains: a signal peptide followed by an N-terminal domain that exhibits the highest degree
of identity with other latrotoxins, a central region composed of 15 ankyrin-like repeats, and a C-terminal domain. The domain
organization of -LIT is similar to that of other latrotoxins, suggesting that these toxins are a family of related proteins. The predicted
molecular mass and apparent mobility of the protein ( 130 kDa) encoded in the -LIT gene differs from that of native -LIT purified from BWSV ( 110 kDa), suggesting that the toxin is produced by proteolytic processing of a precursor. MALDI-MS of purified native -LIT revealed a molecular ion with m/z + of 110916 ± 100, indicating that the native -LIT is 991 amino acids in length. When the full-length -LIT cDNA was expressed in bacteria the protein product was inactive, but expression of a C-terminally truncated protein containing
991 residues produced a protein that caused massive neurotransmitter release at the locust neuromuscular junction at nanomolar
concentrations. Channels formed in locust muscle membrane and artificial lipid bilayers by the native -LIT have a high Ca permeability, whereas those formed by truncated, recombinant protein do not.
During synaptic vesicle fusion, the soluble N-ethylmaleimide-sensitive factor-attachment protein receptor (SNARE) protein syntaxin-1 exhibits two conformations that both bind to Munc18-1: a "closed" ...conformation outside the SNARE complex and an "open" conformation in the SNARE complex. Although SNARE complexes containing open syntaxin-1 and Munc18-1 are essential for exocytosis, the function of closed syntaxin-1 is unknown. We generated knockin/knockout mice that expressed only open syntaxin-1B. Syntaxin-1BOpen mice were viable but succumbed to generalized seizures at 2 to 3 months of age. Binding of Munc18-1 to syntaxin-1 was impaired in syntaxin-1BOpen synapses, and the size of the readily releasable vesicle pool was decreased; however, the rate of synaptic vesicle fusion was dramatically enhanced. Thus, the closed conformation of syntaxin-1 gates the initiation of the synaptic vesicle fusion reaction, which is then mediated by SNARE-complex/Munc18-1 assemblies.
The venom of the black widow spider (BWSV) (Latrodectus mactans tredecimguttatus) contains several potent, high molecular mass (>110 kDa) neurotoxins that cause neurotransmitter release in a ...phylum-specific manner. The molecular mechanism of action of these proteins is poorly understood because their structures are largely unknown, and they have not been functionally expressed. This study reports on the primary structure of δ-latroinsectotoxin (δ-LIT), a novel insect-specific toxin from BWSV, that contains 1214 amino acids. δ-LIT comprises four structural domains: a signal peptide followed by an N-terminal domain that exhibits the highest degree of identity with other latrotoxins, a central region composed of 15 ankyrin-like repeats, and a C-terminal domain. The domain organization of δ-LIT is similar to that of other latrotoxins, suggesting that these toxins are a family of related proteins. The predicted molecular mass and apparent mobility of the protein (~130 kDa) encoded in the δ-LIT gene differs from that of native δ-LIT purified from BWSV (~110 kDa), suggesting that the toxin is produced by proteolytic processing of a precursor. MALDI-MS of purified native δ-LIT revealed a molecular ion with m/z+ of 110916 ± 100, indicating that the native δ-LIT is 991 amino acids in length. When the full-length δ-LIT cDNA was expressed in bacteria the protein product was inactive, but expression of a C-terminally truncated protein containing 991 residues produced a protein that caused massive neurotransmitter release at the locust neuromuscular junction at nanomolar concentrations. Channels formed in locust muscle membrane and artificial lipid bilayers by the native δ-LIT have a high Ca2+ permeability, whereas those formed by truncated, recombinant protein do not.
Some samples of latrotoxin purified from the black widow spider venom contain two components: alpha-latrotoxin (Mr approximately 130,000) and a low mol. wt protein with Mr about 8000. Clones carrying ...the cDNA sequence for the low mol. wt protein copurified with alpha-latrotoxin were isolated from spider venom glands. Nucleotide sequence analysis of the cloned cDNA revealed the primary structure of the polypeptide to be 18 amino acids signal peptide and 70 amino acids protein chain with mol. wt of 7947 and pI of approximately 4.0. The protein exhibits certain structural homology with erabutoxin-a from the sea snake.
alpha-Latroinsectotoxin (alpha-LIT), purified from venom glands of the black widow spider Latrodectus mactans tredecimguttatus, is a presynaptic neurotoxin selective only for insects. A cDNA encoding ...the putative alpha-LIT precursor was isolated from a spider venom gland cDNA library. The cDNA contains a 4236-base-pair open reading frame corresponding to a 157826-Da protein composed of 1411 amino acids. The mature alpha-LIT, with molecular mass approximately 130 kDa, is probably derived from double processing in the N-terminal and C-terminal regions of the primary translation product. The structure region, extending over residues 464-1176, is composed almost entirely of ankyrin-like repeats which represent a motif also found in the alpha-latrotoxin (alpha-LTX), which has selective action on vertebrates. Total alignment of the alpha-LIT and alpha-LTX amino acid sequences reveals an overall similarity of 34.1%. Strong sequence divergence is observed in analogous cysteine-rich regions situated within the ankyrin-repeat domains of both alpha-LIT and alpha-LTX.