Kappa-bungarotoxin

Kappa-bungarotoxin
	The three-dimensional structure of α-bungarotoxin, highlighting disulfide bonds, from PDB: 1KBA.[1]
Identifiers
Organism	Bungarus multicinctus
Symbol	N/A
UniProt	P01398

Kappa-bungarotoxin (often written κ-Bgt; historically also called toxin F^[2]) is a protein neurotoxin of the bungarotoxin family that is found in the venom of the many-banded krait, a snake found in Taiwan. Kappa-bungarotoxin is a high affinity antagonist of nicotinic acetylcholine receptors (nAChRs), particularly of CHRNA3; it causes a post-synaptic blockade of neurotransmission. Although there is significant variability in the clinical effects of snake bites, neuromuscular paralysis and respiratory failure are associated with krait bites.^[3]

Discovery

Kappa-bungarotoxin was first reported in 1983 as a component of the venom of Bungarus multicinctus that differed in biological effect from the previously known alpha-bungarotoxin: kappa, but not alpha, was capable of impeding nicotinic signaling in the chick ciliary ganglion.^[4] Bungarotoxin toxin was designated "kappa" as an allusion to the Latin word kiliaris ("from the eye"), and to the root of "ciliary".^[4] Separately identified toxins designated "toxin F" and "bungarotoxin 3.1" were identified by protein sequencing as identical to kappa-bungarotoxin.^[2]

Mechanism and biological effects

Kappa-bungarotoxin binds to the nicotinic acetylcholine receptors of the autonomic ganglia, predominantly to the nicotinic receptor subunit alpha 3 (CHRNA3) and to a lesser extent alpha 4. Two distinct binding surfaces, both on the N-terminal extracellular face of the receptor subunit, have been identified.^[5]

Kappa-bungarotoxin is a receptor antagonist, meaning it blocks the normal response of the receptor to acetylcholine, which inhibits neurotransmission and therefore causes neuromuscular paralysis. Like the alpha-bungarotoxins, kappa-bungarotoxin causes a post-synaptic blockade of signaling; this is in contrast to the beta-bungarotoxins which induce a pre-synaptic block.^[3] The distinction between the effects of alpha and kappa was first identified functionally, as differences in effects on specific neural structures.^[4]^[6] The basis of this functional difference has been molecularly characterized as differences in receptor subtype specificity; the pentameric receptors are assembled from different distributions of subunits in neurons and in muscles.^[5]

Structure

The kappa-bungarotoxin polypeptide is 66 amino acids long and folds into an antiparallel beta sheet structure stabilized by five conserved disulfide bonds, a structural feature shared by many peptide toxins. Unlike other members of the bungarotoxin family, kappa is a dimer.^[1]

References

1 2 Dewan JC, Grant GA, Sacchettini JC (November 1994). "Crystal structure of kappa-bungarotoxin at 2.3-A resolution". Biochemistry. 33 (44): 13147–54. doi:10.1021/bi00248a026. PMID 7947721.
1 2 Loring RH, Andrews D, Lane W, Zigmond RE (October 1986). "Amino acid sequence of toxin F, a snake venom toxin that blocks neuronal nicotinic receptors". Brain Research. 385 (1): 30–7. doi:10.1016/0006-8993(86)91543-x. PMID 3021284.
1 2 Ranawaka UK, Lalloo DG, de Silva HJ (2013). "Neurotoxicity in snakebite--the limits of our knowledge". PLoS Neglected Tropical Diseases. 7 (10): e2302. doi:10.1371/journal.pntd.0002302. PMC 3794919. PMID 24130909.
1 2 3 Chiappinelli VA (October 1983). "Kappa-bungarotoxin: a probe for the neuronal nicotinic receptor in the avian ciliary ganglion". Brain Research. 277 (1): 9–22. doi:10.1016/0006-8993(83)90902-2. PMID 6139146.
1 2 Chiappinelli VA, Weaver WR, McLane KE, Conti-Fine BM, Fiordalisi JJ, Grant GA (1996). "Binding of native kappa-neurotoxins and site-directed mutants to nicotinic acetylcholine receptors". Toxicon. 34 (11–12): 1243–56. doi:10.1016/s0041-0101(96)00110-9. PMID 9027980.
↑ Dryer SE, Chiappinelli VA (December 1983). "Kappa-bungarotoxin: an intracellular study demonstrating blockade of neuronal nicotinic receptors by a snake neurotoxin". Brain Research. 289 (1–2): 317–21. doi:10.1016/0006-8993(83)90033-1. PMID 6318897.

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[dewan-1] 1 2 Dewan JC, Grant GA, Sacchettini JC (November 1994). "Crystal structure of kappa-bungarotoxin at 2.3-A resolution". Biochemistry. 33 (44): 13147–54. doi:10.1021/bi00248a026. PMID 7947721.

[loring-2] 1 2 Loring RH, Andrews D, Lane W, Zigmond RE (October 1986). "Amino acid sequence of toxin F, a snake venom toxin that blocks neuronal nicotinic receptors". Brain Research. 385 (1): 30–7. doi:10.1016/0006-8993(86)91543-x. PMID 3021284.

[ranawaka-3] 1 2 Ranawaka UK, Lalloo DG, de Silva HJ (2013). "Neurotoxicity in snakebite--the limits of our knowledge". PLoS Neglected Tropical Diseases. 7 (10): e2302. doi:10.1371/journal.pntd.0002302. PMC 3794919. PMID 24130909.

[chiapinelli-4] 1 2 3 Chiappinelli VA (October 1983). "Kappa-bungarotoxin: a probe for the neuronal nicotinic receptor in the avian ciliary ganglion". Brain Research. 277 (1): 9–22. doi:10.1016/0006-8993(83)90902-2. PMID 6139146.

[chiappinelli_1996-5] 1 2 Chiappinelli VA, Weaver WR, McLane KE, Conti-Fine BM, Fiordalisi JJ, Grant GA (1996). "Binding of native kappa-neurotoxins and site-directed mutants to nicotinic acetylcholine receptors". Toxicon. 34 (11–12): 1243–56. doi:10.1016/s0041-0101(96)00110-9. PMID 9027980.

[dryer-6] Dryer SE, Chiappinelli VA (December 1983). "Kappa-bungarotoxin: an intracellular study demonstrating blockade of neuronal nicotinic receptors by a snake neurotoxin". Brain Research. 289 (1–2): 317–21. doi:10.1016/0006-8993(83)90033-1. PMID 6318897.