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Conotoxin

January 20, 2023

A conotoxin is one of a group of neurotoxic peptides isolated from the venom of the marine cone snail, genus Conus.

Alpha conotoxin precursor
α-Conotoxin PnIB from C. pennaceus, disulfide bonds shown in yellow. From the University of Michigan's Orientations of Proteins in Membranes database, PDB: 1AKG​.
Identifiers
SymbolToxin_8
PfamPF07365
InterProIPR009958
PROSITEPDOC60004
SCOP21mii / SCOPe / SUPFAM
OPM superfamily148
OPM protein1akg
Available protein structures:
Pfam  structures / ECOD  
PDBRCSB PDB; PDBe; PDBj
PDBsumstructure summary
Omega conotoxin
Schematic diagram of the three-dimensional structure of ω-conotoxin MVIIA (ziconotide). Disulfide bonds are shown in gold. From PDB: 1DW5​.
Identifiers
SymbolConotoxin
PfamPF02950
InterProIPR004214
SCOP22cco / SCOPe / SUPFAM
OPM superfamily112
OPM protein1fyg
Available protein structures:
Pfam  structures / ECOD  
PDBRCSB PDB; PDBe; PDBj
PDBsumstructure summary

Conotoxins, which are peptides consisting of 10 to 30 amino acid residues, typically have one or more disulfide bonds. Conotoxins have a variety of mechanisms of actions, most of which have not been determined. However, it appears that many of these peptides modulate the activity of ion channels.[1] Over the last few decades conotoxins have been the subject of pharmacological interest.[2]

The LD50 of conotoxin ranges from 5-25 μg/kg.[3][4][5]

Hypervariability

Conotoxins are hypervariable even within the same species. They do not act within a body where they are produced (endogenously) but act on other organisms.[6] Therefore, conotoxin genes experience less selection against mutations (like gene duplication and nonsynonymous substitution), and mutations remain in the genome longer, allowing more time for potentially beneficial novel functions to arise.[7] Variability in conotoxin components reduces the likelihood that prey organisms will develop resistance; thus cone snails are under constant selective pressure to maintain polymorphism in these genes because failing to evolve and adapt will lead to extinction (Red Queen hypothesis).[8]

Disulfide connectivities

Types of conotoxins also differ in the number and pattern of disulfide bonds.[9] The disulfide bonding network, as well as specific amino acids in inter-cysteine loops, provide the specificity of conotoxins.[10]

Types and biological activities

The number of conotoxins whose activities have been determined so far is five, and they are called the α(alpha)-, δ(delta)-, κ(kappa)-, μ(mu)-, and ω(omega)- types. Each of the five types of conotoxins attacks a different target:

Alpha

Alpha conotoxins have two types of cysteine arrangements,[18] and are competitive nicotinic acetylcholine receptor antagonists.

Delta, kappa, and omega

Omega, delta and kappa families of conotoxins have a knottin or inhibitor cystine knot scaffold. The knottin scaffold is a very special disulfide-through-disulfide knot, in which the III-VI disulfide bond crosses the macrocycle formed by two other disulfide bonds (I-IV and II-V) and the interconnecting backbone segments, where I-VI indicates the six cysteine residues starting from the N-terminus. The cysteine arrangements are the same for omega, delta and kappa families, even though omega conotoxins are calcium channel blockers, whereas delta conotoxins delay the inactivation of sodium channels, and kappa conotoxins are potassium channel blockers.[9]

Mu

Mu-conotoxin
 
nmr solution structure of piiia toxin, nmr, 20 structures
Identifiers
SymbolMu-conotoxin
PfamPF05374
Pfam clanCL0083
InterProIPR008036
SCOP21gib / SCOPe / SUPFAM
OPM superfamily112
OPM protein1ag7
Available protein structures:
Pfam  structures / ECOD  
PDBRCSB PDB; PDBe; PDBj
PDBsumstructure summary

Mu-conotoxins have two types of cysteine arrangements, but the knottin scaffold is not observed.[19] Mu-conotoxins target the muscle-specific voltage-gated sodium channels,[9] and are useful probes for investigating voltage-dependent sodium channels of excitable tissues.[19][20] Mu-conotoxins target the voltage-gated sodium channels, preferentially those of skeletal muscle,[21] and are useful probes for investigating voltage-dependent sodium channels of excitable tissues.[22]

Different subtypes of voltage-gated sodium channels are found in different tissues in mammals, e.g., in muscle and brain, and studies have been carried out to determine the sensitivity and specificity of the mu-conotoxins for the different isoforms.[23]

See also

References

This article incorporates text from the public domain Pfam and InterPro:
  • IPR004214
  • IPR008036
  1. ^ Terlau H, Olivera BM (2004). "Conus venoms: a rich source of novel ion channel-targeted peptides". Physiol. Rev. 84 (1): 41–68. doi:10.1152/physrev.00020.2003. PMID 14715910.
  2. ^ Olivera BM, Teichert RW (2007). "Diversity of the neurotoxic Conus peptides: a model for concerted pharmacological discovery". Molecular Interventions. 7 (5): 251–60. doi:10.1124/mi.7.5.7. PMID 17932414.
  3. ^ "Archived copy" (PDF). (PDF) from the original on 2017-08-29. Retrieved 2017-03-31.{{cite web}}: CS1 maint: archived copy as title (link)
  4. ^ "Biological Agent Reference Sheet - Conotoxin" (PDF). Emory University.
  5. ^ Baker, A.L. "toxin ld50 list". PhycoKey.
  6. ^ Olivera BM, Watkins M, Bandyopadhyay P, Imperial JS, de la Cotera EP, Aguilar MB, Vera EL, Concepcion GP, Lluisma A (September 2012). "Adaptive radiation of venomous marine snail lineages and the accelerated evolution of venom peptide genes". Ann. N. Y. Acad. Sci. 1267 (1): 61–70. Bibcode:2012NYASA1267...61O. doi:10.1111/j.1749-6632.2012.06603.x. PMC 3488454. PMID 22954218.
  7. ^ Wong ES, Belov K (March 2012). "Venom evolution through gene duplications". Gene. 496 (1): 1–7. doi:10.1016/j.gene.2012.01.009. PMID 22285376.
  8. ^ Liow LH, Van Valen L, Stenseth NC (July 2011). "Red Queen: from populations to taxa and communities". Trends Ecol. Evol. 26 (7): 349–58. doi:10.1016/j.tree.2011.03.016. PMID 21511358.
  9. ^ a b c Jones RM, McIntosh JM (2001). "Cone venom--from accidental stings to deliberate injection". Toxicon. 39 (10): 1447–1451. doi:10.1016/S0041-0101(01)00145-3. PMID 11478951.
  10. ^ Sato K, Kini RM, Gopalakrishnakone P, Balaji RA, Ohtake A, Seow KT, Bay BH (2000). "lambda-conotoxins, a new family of conotoxins with unique disulfide pattern and protein folding. Isolation and characterization from the venom of Conus marmoreus". J. Biol. Chem. 275 (50): 39516–39522. doi:10.1074/jbc.M006354200. PMID 10988292.
  11. ^ Nicke A, Wonnacott S, Lewis RJ (2004). "Alpha-conotoxins as tools for the elucidation of structure and function of neuronal nicotinic acetylcholine receptor subtypes". Eur. J. Biochem. 271 (12): 2305–2319. doi:10.1111/j.1432-1033.2004.04145.x. PMID 15182346.
  12. ^ Leipold E, Hansel A, Olivera BM, Terlau H, Heinemann SH (2005). "Molecular interaction of delta-conotoxins with voltage-gated sodium channels". FEBS Lett. 579 (18): 3881–3884. doi:10.1016/j.febslet.2005.05.077. PMID 15990094.
  13. ^ Shon KJ, Stocker M, Terlau H, Stühmer W, Jacobsen R, Walker C, Grilley M, Watkins M, Hillyard DR, Gray WR, Olivera BM (1998). "kappa-Conotoxin PVIIA is a peptide inhibiting the shaker K+ channel". J. Biol. Chem. 273 (1): 33–38. doi:10.1074/jbc.273.1.33. PMID 9417043.
  14. ^ Li RA, Tomaselli GF (2004). "Using the deadly mu-conotoxins as probes of voltage-gated sodium channels". Toxicon. 44 (2): 117–122. doi:10.1016/j.toxicon.2004.03.028. PMC 2698010. PMID 15246758.
  15. ^ Nielsen KJ, Schroeder T, Lewis R (2000). "Structure-activity relationships of omega-conotoxins at N-type voltage-sensitive calcium channels". J. Mol. Recognit. 13 (2): 55–70. doi:10.1002/(SICI)1099-1352(200003/04)13:2<55::AID-JMR488>3.0.CO;2-O. PMID 10822250. Archived from the original (abstract) on 2011-08-13.
  16. ^ Bowersox SS, Luther R (1998). "Pharmacotherapeutic potential of omega-conotoxin MVIIA (SNX-111), an N-type neuronal calcium channel blocker found in the venom of Conus magus". Toxicon. 36 (11): 1651–1658. doi:10.1016/S0041-0101(98)00158-5. PMID 9792182.
  17. ^ Prommer E (2006). "Ziconotide: a new option for refractory pain". Drugs Today. 42 (6): 369–78. doi:10.1358/dot.2006.42.6.973534. PMID 16845440.
  18. ^ Gray WR, Olivera BM, Zafaralla GC, Ramilo CA, Yoshikami D, Nadasdi L, Hammerland LG, Kristipati R, Ramachandran J, Miljanich G (1992). "Novel alpha- and omega-conotoxins from Conus striatus venom". Biochemistry. 31 (41): 11864–11873. doi:10.1021/bi00162a027. PMID 1390774.
  19. ^ a b Nielsen KJ, Watson M, Adams DJ, Hammarström AK, Gage PW, Hill JM, Craik DJ, Thomas L, Adams D, Alewood PF, Lewis RJ (July 2002). "Solution structure of mu-conotoxin PIIIA, a preferential inhibitor of persistent tetrodotoxin-sensitive sodium channels" (PDF). J. Biol. Chem. 277 (30): 27247–55. doi:10.1074/jbc.M201611200. PMID 12006587.
  20. ^ Zeikus RD, Gray WR, Cruz LJ, Olivera BM, Kerr L, Moczydlowski E, Yoshikami D (1985). "Conus geographus toxins that discriminate between neuronal and muscle sodium channels". J. Biol. Chem. 260 (16): 9280–8. doi:10.1016/S0021-9258(17)39364-X. PMID 2410412.
  21. ^ McIntosh JM, Jones RM (October 2001). "Cone venom--from accidental stings to deliberate injection". Toxicon. 39 (10): 1447–51. doi:10.1016/S0041-0101(01)00145-3. PMID 11478951.
  22. ^ Cruz LJ, Gray WR, Olivera BM, Zeikus RD, Kerr L, Yoshikami D, Moczydlowski E (August 1985). "Conus geographus toxins that discriminate between neuronal and muscle sodium channels". J. Biol. Chem. 260 (16): 9280–8. doi:10.1016/S0021-9258(17)39364-X. PMID 2410412.
  23. ^ Floresca CZ (2003). "A comparison of the mu-conotoxins by [3H]saxitoxin binding assays in neuronal and skeletal muscle sodium channel". Toxicol Appl Pharmacol. 190 (2): 95–101. doi:10.1016/s0041-008x(03)00153-4. PMID 12878039.

External links

  • Conotoxins at the US National Library of Medicine Medical Subject Headings (MeSH)
  • Baldomero "Toto" Olivera's Short Talk. "Conus Peptides".
  • Kaas Q, Westermann JC, Halai R, Wang CK, Craik DJ. "ConoServer". Institute of Molecular Bioscience, The University of Queensland, Australia. Retrieved 2009-06-02. A database for conopeptide sequences and structures

January 20, 2023
conotoxin, this, article, missing, information, about, genetic, architectural, classification, conoserver, pmc4278219, please, expand, article, include, this, information, further, details, exist, talk, page, april, 2019, conotoxin, group, neurotoxic, peptides. This article is missing information about genetic and architectural classification ConoServer and PMC4278219 Please expand the article to include this information Further details may exist on the talk page April 2019 A conotoxin is one of a group of neurotoxic peptides isolated from the venom of the marine cone snail genus Conus Alpha conotoxin precursora Conotoxin PnIB from C pennaceus disulfide bonds shown in yellow From the University of Michigan s Orientations of Proteins in Membranes database PDB 1AKG IdentifiersSymbolToxin 8PfamPF07365InterProIPR009958PROSITEPDOC60004SCOP21mii SCOPe SUPFAMOPM superfamily148OPM protein1akgAvailable protein structures Pfam structures ECOD PDBRCSB PDB PDBe PDBjPDBsumstructure summaryOmega conotoxinSchematic diagram of the three dimensional structure of w conotoxin MVIIA ziconotide Disulfide bonds are shown in gold From PDB 1DW5 IdentifiersSymbolConotoxinPfamPF02950InterProIPR004214SCOP22cco SCOPe SUPFAMOPM superfamily112OPM protein1fygAvailable protein structures Pfam structures ECOD PDBRCSB PDB PDBe PDBjPDBsumstructure summaryConotoxins which are peptides consisting of 10 to 30 amino acid residues typically have one or more disulfide bonds Conotoxins have a variety of mechanisms of actions most of which have not been determined However it appears that many of these peptides modulate the activity of ion channels 1 Over the last few decades conotoxins have been the subject of pharmacological interest 2 The LD50 of conotoxin ranges from 5 25 mg kg 3 4 5 Contents 1 Hypervariability 2 Disulfide connectivities 3 Types and biological activities 3 1 Alpha 3 2 Delta kappa and omega 3 3 Mu 4 See also 5 References 6 External linksHypervariability EditConotoxins are hypervariable even within the same species They do not act within a body where they are produced endogenously but act on other organisms 6 Therefore conotoxin genes experience less selection against mutations like gene duplication and nonsynonymous substitution and mutations remain in the genome longer allowing more time for potentially beneficial novel functions to arise 7 Variability in conotoxin components reduces the likelihood that prey organisms will develop resistance thus cone snails are under constant selective pressure to maintain polymorphism in these genes because failing to evolve and adapt will lead to extinction Red Queen hypothesis 8 Disulfide connectivities EditTypes of conotoxins also differ in the number and pattern of disulfide bonds 9 The disulfide bonding network as well as specific amino acids in inter cysteine loops provide the specificity of conotoxins 10 Types and biological activities EditThe number of conotoxins whose activities have been determined so far is five and they are called the a alpha d delta k kappa m mu and w omega types Each of the five types of conotoxins attacks a different target a conotoxin inhibits nicotinic acetylcholine receptors at nerves and muscles 11 d conotoxin inhibits fast inactivation of voltage dependent sodium channels 12 k conotoxin inhibits potassium channels 13 m conotoxin inhibits voltage dependent sodium channels in muscles 14 w conotoxin inhibits N type voltage dependent calcium channels 15 Because N type voltage dependent calcium channels are related to algesia sensitivity to pain in the nervous system w conotoxin has an analgesic effect the effect of w conotoxin M VII A is 100 to 1000 times that of morphine 16 Therefore a synthetic version of w conotoxin M VII A has found application as an analgesic drug ziconotide Prialt 17 Alpha Edit Alpha conotoxins have two types of cysteine arrangements 18 and are competitive nicotinic acetylcholine receptor antagonists Delta kappa and omega Edit Omega delta and kappa families of conotoxins have a knottin or inhibitor cystine knot scaffold The knottin scaffold is a very special disulfide through disulfide knot in which the III VI disulfide bond crosses the macrocycle formed by two other disulfide bonds I IV and II V and the interconnecting backbone segments where I VI indicates the six cysteine residues starting from the N terminus The cysteine arrangements are the same for omega delta and kappa families even though omega conotoxins are calcium channel blockers whereas delta conotoxins delay the inactivation of sodium channels and kappa conotoxins are potassium channel blockers 9 Mu Edit Mu conotoxin nmr solution structure of piiia toxin nmr 20 structuresIdentifiersSymbolMu conotoxinPfamPF05374Pfam clanCL0083InterProIPR008036SCOP21gib SCOPe SUPFAMOPM superfamily112OPM protein1ag7Available protein structures Pfam structures ECOD PDBRCSB PDB PDBe PDBjPDBsumstructure summaryMu conotoxins have two types of cysteine arrangements but the knottin scaffold is not observed 19 Mu conotoxins target the muscle specific voltage gated sodium channels 9 and are useful probes for investigating voltage dependent sodium channels of excitable tissues 19 20 Mu conotoxins target the voltage gated sodium channels preferentially those of skeletal muscle 21 and are useful probes for investigating voltage dependent sodium channels of excitable tissues 22 Different subtypes of voltage gated sodium channels are found in different tissues in mammals e g in muscle and brain and studies have been carried out to determine the sensitivity and specificity of the mu conotoxins for the different isoforms 23 See also EditConolidine Contryphan members of conotoxin O2 Conantokins also known as conotoxin B References EditThis article incorporates text from the public domain Pfam and InterPro IPR004214IPR008036 Terlau H Olivera BM 2004 Conus venoms a rich source of novel ion channel targeted peptides Physiol Rev 84 1 41 68 doi 10 1152 physrev 00020 2003 PMID 14715910 Olivera BM Teichert RW 2007 Diversity of the neurotoxic Conus peptides a model for concerted pharmacological discovery Molecular Interventions 7 5 251 60 doi 10 1124 mi 7 5 7 PMID 17932414 Archived copy PDF Archived PDF from the original on 2017 08 29 Retrieved 2017 03 31 a href Template Cite web html title Template Cite web cite web a CS1 maint archived copy as title link Biological Agent Reference Sheet Conotoxin PDF Emory University Baker A L toxin ld50 list PhycoKey Olivera BM Watkins M Bandyopadhyay P Imperial JS de la Cotera EP Aguilar MB Vera EL Concepcion GP Lluisma A September 2012 Adaptive radiation of venomous marine snail lineages and the accelerated evolution of venom peptide genes Ann N Y Acad Sci 1267 1 61 70 Bibcode 2012NYASA1267 61O doi 10 1111 j 1749 6632 2012 06603 x PMC 3488454 PMID 22954218 Wong ES Belov K March 2012 Venom evolution through gene duplications Gene 496 1 1 7 doi 10 1016 j gene 2012 01 009 PMID 22285376 Liow LH Van Valen L Stenseth NC July 2011 Red Queen from populations to taxa and communities Trends Ecol Evol 26 7 349 58 doi 10 1016 j tree 2011 03 016 PMID 21511358 a b c Jones RM McIntosh JM 2001 Cone venom from accidental stings to deliberate injection Toxicon 39 10 1447 1451 doi 10 1016 S0041 0101 01 00145 3 PMID 11478951 Sato K Kini RM Gopalakrishnakone P Balaji RA Ohtake A Seow KT Bay BH 2000 lambda conotoxins a new family of conotoxins with unique disulfide pattern and protein folding Isolation and characterization from the venom of Conus marmoreus J Biol Chem 275 50 39516 39522 doi 10 1074 jbc M006354200 PMID 10988292 Nicke A Wonnacott S Lewis RJ 2004 Alpha conotoxins as tools for the elucidation of structure and function of neuronal nicotinic acetylcholine receptor subtypes Eur J Biochem 271 12 2305 2319 doi 10 1111 j 1432 1033 2004 04145 x PMID 15182346 Leipold E Hansel A Olivera BM Terlau H Heinemann SH 2005 Molecular interaction of delta conotoxins with voltage gated sodium channels FEBS Lett 579 18 3881 3884 doi 10 1016 j febslet 2005 05 077 PMID 15990094 Shon KJ Stocker M Terlau H Stuhmer W Jacobsen R Walker C Grilley M Watkins M Hillyard DR Gray WR Olivera BM 1998 kappa Conotoxin PVIIA is a peptide inhibiting the shaker K channel J Biol Chem 273 1 33 38 doi 10 1074 jbc 273 1 33 PMID 9417043 Li RA Tomaselli GF 2004 Using the deadly mu conotoxins as probes of voltage gated sodium channels Toxicon 44 2 117 122 doi 10 1016 j toxicon 2004 03 028 PMC 2698010 PMID 15246758 Nielsen KJ Schroeder T Lewis R 2000 Structure activity relationships of omega conotoxins at N type voltage sensitive calcium channels J Mol Recognit 13 2 55 70 doi 10 1002 SICI 1099 1352 200003 04 13 2 lt 55 AID JMR488 gt 3 0 CO 2 O PMID 10822250 Archived from the original abstract on 2011 08 13 Bowersox SS Luther R 1998 Pharmacotherapeutic potential of omega conotoxin MVIIA SNX 111 an N type neuronal calcium channel blocker found in the venom of Conus magus Toxicon 36 11 1651 1658 doi 10 1016 S0041 0101 98 00158 5 PMID 9792182 Prommer E 2006 Ziconotide a new option for refractory pain Drugs Today 42 6 369 78 doi 10 1358 dot 2006 42 6 973534 PMID 16845440 Gray WR Olivera BM Zafaralla GC Ramilo CA Yoshikami D Nadasdi L Hammerland LG Kristipati R Ramachandran J Miljanich G 1992 Novel alpha and omega conotoxins from Conus striatus venom Biochemistry 31 41 11864 11873 doi 10 1021 bi00162a027 PMID 1390774 a b Nielsen KJ Watson M Adams DJ Hammarstrom AK Gage PW Hill JM Craik DJ Thomas L Adams D Alewood PF Lewis RJ July 2002 Solution structure of mu conotoxin PIIIA a preferential inhibitor of persistent tetrodotoxin sensitive sodium channels PDF J Biol Chem 277 30 27247 55 doi 10 1074 jbc M201611200 PMID 12006587 Zeikus RD Gray WR Cruz LJ Olivera BM Kerr L Moczydlowski E Yoshikami D 1985 Conus geographus toxins that discriminate between neuronal and muscle sodium channels J Biol Chem 260 16 9280 8 doi 10 1016 S0021 9258 17 39364 X PMID 2410412 McIntosh JM Jones RM October 2001 Cone venom from accidental stings to deliberate injection Toxicon 39 10 1447 51 doi 10 1016 S0041 0101 01 00145 3 PMID 11478951 Cruz LJ Gray WR Olivera BM Zeikus RD Kerr L Yoshikami D Moczydlowski E August 1985 Conus geographus toxins that discriminate between neuronal and muscle sodium channels J Biol Chem 260 16 9280 8 doi 10 1016 S0021 9258 17 39364 X PMID 2410412 Floresca CZ 2003 A comparison of the mu conotoxins by 3H saxitoxin binding assays in neuronal and skeletal muscle sodium channel Toxicol Appl Pharmacol 190 2 95 101 doi 10 1016 s0041 008x 03 00153 4 PMID 12878039 External links EditConotoxins at the US National Library of Medicine Medical Subject Headings MeSH Baldomero Toto Olivera s Short Talk Conus Peptides Kaas Q Westermann JC Halai R Wang CK Craik DJ ConoServer Institute of Molecular Bioscience The University of Queensland Australia Retrieved 2009 06 02 A database for conopeptide sequences and structures Retrieved from https en wikipedia org w index php title Conotoxin amp oldid 1116651439, wikipedia, wiki, book, books, library,

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