Synaptosomes were stirred throughout the experiment and maintained at 35 °C. Native and recombinant toxins were added to the synaptosomal suspension 6 min prior to membrane depolarization with 33 mM KCl. Calibration was performed as described by (Prado et al., 1996) using SDS and EGTA for maximum and minimum fluorescence values. Glutamate release was monitored by measuring the increase of fluorescence caused by NADPH being Selleck BEZ235 produced in the presence of NADP+ and glutamate dehydrogenase. At the beginning of each fluorimetric assay, 1 mM of CaCl2, 1 mM of NADP+, and 50 U of glutamate dehydrogenase were added to the
suspension. The excitation wavelength was set at 360 nm and the emission wavelength was monitored at 450 nm. Native and recombinant toxins were incubated with the synaptosomes for 30 min prior to each assay. Calcium independent glutamate release was measured by removing CaCl2 and adding 2 mM EGTA to the preparation. The results were expressed as mean ± SEM. The data were analyzed by one-way analysis of variance (ANOVA)
followed by Tukey test (SigmaSTAT) and Kruskal-Wallis ANOVA followed by Dun’s multiple comparison test. To get information about the secondary structure of the toxin PnTx3-4, the CD spectrum of the functional refolded toxin was collected using a spectropolarimeter Jasco-810 (Jasco Corp.) in water. The temperature was kept at 25 °C and the spectrum was measured from 260 nm to 190 nm using a 1 mm path length cell. Bortezomib mouse A minimum of 10 scans were done at a time. To get an estimation of secondary structures Acesulfame Potassium present in the toxin, the data obtained were analyzed using three different algorithms; CDSSTR, CONTIN and SELCON and two reference sets for each (Sreerama and Woody, 2000; Sreerama et al., 1999; Van Stokkum et al., 1990). Fig. 1 shows the amino-acid sequence of the P. nigriventer PnTx3-4, toxin and its alignment to two related peptides from the spider Agelenopsis aperta that, as PnTx3-4, block N-, P/Q-, and R-type calcium channels. These three peptides share the same number
of amino acid residues (76-residues) and are highly conserved in their primary sequence, showing ∼70% similarity and ∼50% identity. Interestingly, the sequence similarity is observed essentially in the amino-terminal end of the proteins (first 51 amino acid residues) while the carboxy-terminal end does not show either similarity in amino acid sequence or conserved localization of cysteine residues. We used the amino acid sequence of PnTx3-4 (Fig. 1), also named ω-Phonetoxin-IIA (Dos Santos et al., 2002; Cassola et al., 1998), to design a synthetic cDNA. The nucleotide sequence was chosen following the E. coli codon usage ( Sharp and Li, 1987) to improve expression of the transcript in prokaryotic cells. The designed PnTx3-4 cDNA ( Fig. 2A) was generated by PCR using six overlapping oligonucleotides ( Table 1; Fig. 2B) and cloned into the pE-SUMO vector (LifeSensors Inc.).