Enzymes with gelatinolytic activity can be found in Tityus bahiensis and Tityus serrulatus venoms.

Enzymes with gelatinolytic activity were detected in Tityus bahiensis and Tityus serrulatus venom. Their activity was optimal at pH 8.0 in SDS-PAGE-gelatin. They were inhibited by PMSF but not by iodoacetamide, pepstatin or phenantrolin in the assay conditions used. This suggests that these enzymes are serine proteases. The presence of metal ions did not affect the proteolytic activity of these enzymes. Several possible functions may be envisaged for these enzymes: in tissue permeabilization, pancreatitis and toxin processing.

The toxin Tx4(6-1) from the spider Phoneutria nigriventer slows down Na(+) current inactivation in insect CNS via binding to receptor site 3.

Tx4(6-1) a neurotoxic peptide from the venom of the aggressive South American 'armed' spider Phoneutria nigriventer, has been previously isolated and sequenced. It shows no detectable activity in mice but affects the peripheral nervous system of insects by stimulating glutamate release at the neuromuscular junction. Here we investigate possible interactions of the toxin with voltage-activated sodium channels (Na(v)). We confirm that it is ineffective on mammalian Na(v) channels, and establish that it competes with the alpha-like toxin 125I-Bom IV, for binding on the site 3 of insect Na(v) channel (IC(50) value around 25nM). The physiological consequences of this binding to the insect Na(v) channel are shown by electrophysiology: Tx4(6-1) prolongs evoked axonal action potentials (APs) (<500&mgr;s duration in control). Prolonged 8-10ms or 'plateau' 500-800ms APs accompanied by repetitive firing at 80-150Hz are recorded after 4-8min of toxin action. This modification of evoked activity is due to a slowing down of sodium current inactivation. Effects of Tx4(6-1) on sodium current are compared with those of a typical scorpion alpha-toxin and of some other spider toxins active on insect Na(v) channels. At the end of long voltage pulses, the maintained inward sodium current may represent 50% of the peak current after scorpion alpha-toxin but only about 8-10% after spider toxins. To understand the slight differences in the effects of alpha-scorpion and spider toxins on the insect Na(v) channel, structural studies of toxin-channels interactions would be necessary.

Purification and amino acid sequence of a highly insecticidal toxin from the venom of the brazilian spider Phoneutria nigriventer which inhibits NMDA-evoked currents in rat hippocampal neurones.

A new insecticidal toxin Tx4(5-5) was isolated from the fraction PhTx4 of the venom of the spider Phoneutria nigriventer by reverse phase high performance liquid chromatography (HPLC) and anion exchange HPLC. The complete amino acid sequence determined by automated Edman degradation showed that Tx4(5-5) is a single chain polypeptide composed of 47 amino acid residues, including 10 cysteines, with a calculated molecular mass of 5175 Da. Tx4(5-5) shows 64% of sequence identity with Tx4(6-1), another insecticidal toxin from the same venom. Tx4(5-5) was highly toxic to house fly (Musca domestica), cockroach (Periplaneta americana) and cricket (Acheta domesticus ), producing neurotoxic effects (knock-down, trembling with uncoordinated movements) at doses as low as 50 ng/g (house fly), 250 ng/g (cockroach) and 150 ng/g (cricket). In contrast, intracerebroventricular injections (30 microg) into mice induced no behavioural effects. Preliminary electrophysiological studies carried out on whole-cell voltage-clamped rat hippocampal neurones indicated that Tx4(5-5) (at 1 microM) reversibly inhibited the N-methyl-D-aspartate-subtype of ionotropic glutamate receptor, while having little or no effect on kainate-, alpha-amino-3-hydroxy-5-methyl-4-isoxazole-propionic acid- or gamma-aminobutyric acid-activated currents.

Purification and amino acid sequences of six Tx3 type neurotoxins from the venom of the Brazilian 'armed' spider Phoneutria nigriventer (Keys).

Six neurotoxic peptides (Tx3-1 to Tx3-6) were purified from the venom of the spider Phoneutria nigriventer by a combination of gel filtration, reverse phase FPLC on PEP-RPC and PRO-RPC columns, reverse phase HPLC on Vydac C18, and ion exchange HPLC on cationic and anionic columns. These toxins caused different neurological symptoms in mice after intracerebroventricular injection. At dose levels of 5 micrograms/mouse, Tx3-3 and Tx3-4 caused rapid general flaccid paralysis followed by death in 10-30 min; Tx3-2 induced immediate clockwise gyration and flaccid paralysis after 6 hr; Tx3-1, Tx3-5 and Tx3-6 produced paralysis only in the posterior limbs and gradual decreases in movement and aggression during 24 hr. The mol. wt of these cystine-rich peptides were found to be in the range of 3500-8500 by mass spectroscopy and SDS-PAGE. The complete amino acid sequences of the neurotoxins Tx3-1 (40 residues), Tx3-2 (34 residues) and Tx3-6 (55 residues), and the N-terminal sequences of Tx3-3 (34 res.), Tx3-4 (40 res.) and Tx3-5 (36 res.) were established by direct automated Edman degradation, and manual DABITC/PITC microsequence analyses of peptides obtained from digests with various proteases. The structures of these Tx3 neurotoxins from Phoneutria nigriventer exhibited sequence similarities to one another and to the neurotoxins from the venoms of the spiders Hololena curta and Agelenopsis aperta, which were most evident in the location of the Cys residues.