Abstract
Long chain and short chain curaremimetic toxins from snakes possess 66-74 residues with five disulfide bonds and 60-62 residues with four disulfide bonds, respectively. Despite their structural differences all of these toxins bind with high affinity to the peripheral nicotinic acetylcholine receptors (AChR). Binding experiments have now revealed that long chain toxins only, like the neuronal kappa-bungarotoxin, have a high affinity for a chimeric form of the neuronal alpha7 receptor, with Kd values ranging from about 1 to 12 nM. In contrast, all other toxins bind to the chimeric alpha7 receptor with a low affinity, with Kd values ranging between 3 and 22 microM. These results are supported by electrophysiological recordings on both the wild-type and chimeric alpha7 receptors. Amino acid sequence analyses have suggested that high affinities for the neuronal receptor are associated with the presence of the fifth disulfide at the tip of the toxin second loop. In agreement with this conclusion, we show that a long chain toxin whose fifth disulfide is reduced and then dithiopyridylated has a low affinity (Kd = 12 microM) for the neuronal alpha7 receptor, whereas it retains a high affinity (Kd = 0.35 nM) for the peripheral AChR. Thus, a long chain curaremimetic toxin having a reduced fifth disulfide bond behaves like a short chain toxin toward both the peripheral and neuronal AChR. Therefore, functional classification of toxins that bind to AChRs should probably be done by considering their activities on both peripheral and neuronal receptors.
Highlights
Animal venoms produce a wide diversity of toxins that bind to a variety of different receptors, ion channels, and enzymes
Production and Characterization of the Chimeric ␣7 acetylcholine receptors (AChR)— The extracellular domain of the ␣7 nicotinic AChR has been fused previously to the membrane region of the 5HT3 receptor (␣7-V201-5HT3) [18] displaying all of the pharmacological properties of the natural ␣7 receptor and allowing an efficient expression in Human Embryonal Kidney (HEK) 293 cells, which failed in the case of the entire receptor [18, 23]
As a result of their similar capacity to bind to the peripheral nicotinic AChR, snake long chain and short chain curaremimetic toxins, which all adopt a similar fold, are usually considered as forming a family of functionally homogeneous proteins
Summary
Bungarotoxin; AChR, acetylcholine receptor; Cbtx, cobratoxin; Ea and Eb, erabutoxin a and b, respectively; HEK, human embryonal kidney; PBS, phosphate-buffered saline. The cells were harvested in phosphate-buffered saline (PBS) ϩ 5 mM EDTA, rinsed twice in PBS, and resuspended in this buffer (3 ml/plate). Binding Assays—The affinity of 125I-Bgtx was tested by incubating the labeled toxin (final concentration, 5 nM) with 350 l of cells in suspension in PBS. Toxin Incubation—␣-Bgtx sensitivity of oocytes, expressing significant currents in response to acetylcholine, was determined in 8 ϫ 12 microplate wells (Nunc). Values determined for several cells were averaged, plotted as a function of the logarithm of the toxin concentration, and fitted with the empirical Hill equation using a least squares minimizing method (Simplex)
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
