[Cobra venom contains a protein belongs to the CRISP family]. / Iad kobry soderzhit belok CRISP-tipa.

Amino acid sequences of several fragments of the 25 k protein (molecular mass 24,953 Da) previously isolated from cobra Naja kaouthia (Kukhtina et al. Bioorg. Khim., 2000, vol. 26, pp. 803-807) were determined. Their comparison with the primary structures of known proteins showed that the 25 k protein belongs to the CRISP family and is the first protein of this type identified in cobra venoms.

[Structure and conformational heterogeneity of the weak toxin from the cobra Naja kaouthia venom]. / Struktura i konformatsionnaia geterogennost' slabogo toksina iz iada kobry Naja kaouthia.

Resonances in the two-dimensional 1H NMR spectra of a weak toxin (WTX) from the venom of cobra Naja kaouthia for all 65 amino acid residues were assigned. The amino acid sequence of WTX, determined by the sequentional assignment of spin systems, was found to be similar to that of the CM-9a toxin from the N. kaouthia venom. Unlike CM-9a, WTX contains an additional Trp36 residue; Lys50 and Tyr52 are interchanged; and there is a Thr residue in place of Arg2. For some residues of WTX, the presence of two components of approximately equal intensities in the spectra was shown, which is explained by the conformational heterogeneity of the polypeptide owing to the cis-trans isomerization of the peptide bond Arg32-Pro33. The data (contacts of the nuclear Overhauser effect, constants of spin-spin coupling of protons, and rates of exchange of amide protons by deuterium of the solvent) made it possible to determine the secondary structure of two forms of WTX, which is characterized by the presence of two antiparallel beta-sheets, one of which consists of two strands (regions 1-5 and 13-17) and the other, of three strands (regions 23-28, 38-43, and 55-59).

Two forms of nerve growth factor from cobra venom prevent the death of PC12 cells in serum-free medium.

Nerve growth factor (NGF) from the venom of cobra Naja kaouthia is highly homologous to mouse NGF. However, the differences between these two factors include the sequence regions determining the specificity of NGF interaction with Trk A or p75 receptors. To test if these variations can bring about dissimilarity in biological activity between these two NGFs, we have studied the effect of cobra factor on the survival of the primed PC12 cells after serum withdrawal. It was found that in a serum-free medium, cobra NGF prevented the death of PC12 cells with efficacy comparable to that of NGF from mouse submaxillary glands. In the course of purification two forms of cobra NGF were observed, both acting as a survival and a differentiation factor for PC12 cells in a serum-free medium. The form, eluting later from a reversed-phase column, displays survival effect at lower concentrations than the earlier eluting one.

Muscarinic toxin-like proteins from cobra venom.

Three new polypeptides were isolated from the venom of the Thailand cobra Naja kaouthia and their amino-acid sequences determined. They consist of 65-amino-acid residues and have four disulfide bridges. A comparison of the amino-acid sequences of the new polypeptides with those of snake toxins shows that two of them (MTLP-1 and MTLP-2) share a high degree of similarity (55-74% sequence identity) with muscarinic toxins from the mamba. The third polypeptide (MTLP-3) is similar to muscarinic toxins with respect to the position of cysteine residues and the size of the disulfide-confined loops, but shows less similarity to these toxins (30-34% sequence identity). It is almost identical with a neurotoxin-like protein from Bungarus multicinctus (TrEMBL accession number Q9W727), the sequence of which has been deduced from cloned cDNA only. The binding affinities of the isolated muscarinic toxin-like proteins towards the different muscarinic acetylcholine receptor (mAChR) subtypes (m1-m5) was determined in competition experiments with N-[3H]methylscopolamine using membrane preparations from CHO-K1 cells, which express these receptors. We found that MTLP-1 competed weakly with radioactive ligand for binding to all mAChR subtypes. The most pronounced effect was observed for the m3 subtype; here an IC50 value of about 3 microM was determined. MTLP-2 had no effect on ligand binding to any of the mAChR subtypes at concentrations up to 1 microM. MTLP-1 showed no inhibitory effect on alpha-cobratoxin binding to the nicotinic acetylcholine receptor from Torpedo californica at concentrations up to 20 microM.

[MALDI-mass spectrometry for identification of new proteins in snake venoms]. / MALDI-mass-spektrometriia dlia identifikatsii novykh belkov v iade zmei.

By MALDI MS, we searched cobra venoms for new low-content polypeptides. A number of new proteins with molecular masses 7-25 kDa, characteristic of the known snake protein toxins, were identified, with the content of one of them less than 0.02%.