Abstract
Australia is home to an estimated 10,000 species of spider, including species from the Latrodectus genera and Atracinae family, two of the four widely recognized medically significant spider groups. It is predicted in excess of 5,000 spider bite cases occurring annually in Australia, predominantly by spiders that have not shown any medical relevance. Bites by medically relevant spiders are rare, and of those treatment with antivenom is rarer. Despite extensive publicity and rumor, there is no conclusive evidence that the venom of any Australian spiders is responsible for necrotic arachnidism. The complexity and diversity of spider venoms, combined with potent activity on a range of targets in mammalian and insect systems, have attracted interest in the potential of spider venoms as a source of insecticidal and therapeutic leads. The venom of species of Australian funnel-web spider has received the most attention for study, with more than 75 venom peptides identified from nine toxin families. Recent work has identified venom peptides from the venom of Australian tarantulas with potential as insecticidal and therapeutic leads. This chapter provides an overview of spiders in Australia and their medical and clinical importance and provides a current comprehensive review of the published toxins from Australian spider venoms.
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References
Atkinson RK, Tyler MI, Vonarx EJ, inventors. Insecticidal toxins derived from funnel web (Atrax or Hadronyche) spiders. patent WO1993015108 A1. 1993.
Chong Y, Hayes JL, Sollod B, Wen S, Wilson DT, Hains PG, Hodgson WC, Broady KW, King GF, Nicholson GM. The omega-atracotoxins: selective blockers of insect M-LVA and HVA calcium channels. Biochem Pharmacol. 2007;74(4):623–38.
Chow CY, Cristofori-Armstrong B, Undheim EA, King GF, Rash LD. Three peptide modulators of the human voltage-gated sodium channel 1.7, an important analgesic target, from the venom of an Australian tarantula. Toxins. 2015;7(7):2494–513.
Coddington JA, Levi HW. Systematics and evolution of spiders (Araneae). Annu Rev Ecol Syst. 1991;22:565–92.
Escoubas P, Sollod B, King GF. Venom landscapes: mining the complexity of spider venoms via a combined cDNA and mass spectrometric approach. Toxicon. 2006;47(6):650–63.
Fletcher JI, Chapman BE, Mackay JP, Howden ME, King GF. The structure of versutoxin (delta-atracotoxin-Hv1) provides insights into the binding of site 3 neurotoxins to the voltage-gated sodium channel. Structure. 1997;5(11):1525–35.
Gentz MC, Jones A, Clement H, King GF. Comparison of the peptidome and insecticidal activity of venom from a taxonomically diverse group of theraphosid spiders. Toxicon. 2009;53(5):496–502.
Graudins A, Padula M, Broady K, Nicholson GM. Red-back spider (Latrodectus hasselti) antivenom prevents the toxicity of widow spider venoms. Ann Emerg Med. 2001;37(2):154–60.
Graudins A, Wilson D, Alewood PF, Broady KW, Nicholson GM. Cross-reactivity of Sydney funnel-web spider antivenom: neutralization of the in vitro toxicity of other Australian funnel-web (Atrax and Hadronyche) spider venoms. Toxicon. 2002a;40(3):259–66.
Graudins A, Gunja N, Broady KW, Nicholson GM. Clinical and in vitro evidence for the efficacy of Australian red-back spider (Latrodectus hasselti) antivenom in the treatment of envenomation by a cupboard spider (Steatoda grossa). Toxicon. 2002b;40(6):767–75.
Graudins A, Little MJ, Pineda SS, Hains PG, King GF, Broady KW, Nicholson GM. Cloning and activity of a novel alpha-latrotoxin from red-back spider venom. Biochem Pharmacol. 2012;83(1):170–83.
Gray MR. A revision of the Australian funnel-web spiders (Hexathelidae: Atracinae). Rec Aust Mus. 2010;62(2–3):285–392.
Gunning SJ, Chong Y, Khalife AA, Hains PG, Broady KW, Nicholson GM. Isolation of delta-missulenatoxin-Mb1a, the major vertebrate-active spider delta-toxin from the venom of Missulena bradleyi (Actinopodidae). FEBS Lett. 2003;554(1–2):211–8.
Gunning SJ, Maggio F, Windley MJ, Valenzuela SM, King GF, Nicholson GM. The Janus-faced atracotoxins are specific blockers of invertebrate K(Ca) channels. FEBS J. 2008;275(16):4045–59.
Hardy MC, Daly NL, Mobli M, Morales RA, King GF. Isolation of an orally active insecticidal toxin from the venom of an Australian tarantula. PLoS One. 2013;8(9):e73136.
Herzig V, Hodgson WC. Intersexual variations in the pharmacological properties of Coremiocnemis tropix (Araneae, Theraphosidae) spider venom. Toxicon. 2009;53(2):196–205.
Herzig V, Khalife AA, Chong Y, Isbister GK, Currie BJ, Churchill TB, Horner S, Escoubas P, Nicholson GM, Hodgson WC. Intersexual variations in Northern (Missulena pruinosa) and Eastern (M. bradleyi) mouse spider venom. Toxicon. 2008;51(7):1167–77.
Herzig V, Wood DL, Newell F, Chaumeil PA, Kaas Q, Binford GJ, Nicholson GM, Gorse D, King GF. ArachnoServer 2.0, an updated online resource for spider toxin sequences and structures. Nucleic Acids Res. 2011;39(Database issue):D653–7.
Isbister GK, Gray MR. A prospective study of 750 definite spider bites, with expert spider identification. QJM. 2002;95(11):723–31.
Isbister GK, Gray MR. White-tail spider bite: a prospective study of 130 definite bites by Lampona species. Med J Aust. 2003a;179(4):199–202.
Isbister GK, Gray MR. Latrodectism: a prospective cohort study of bites by formally identified redback spiders. Med J Aust. 2003b;179(2):88–91.
Isbister GK, Gray MR. Effects of envenoming by comb-footed spiders of the genera Steatoda and Achaearanea (family Theridiidae: Araneae) in Australia. J Toxicol Clin Toxicol. 2003c;41(6):809–19.
Isbister GK, Gray MR. Black house spiders are unlikely culprits in necrotic arachnidism: a prospective study. Intern Med J. 2004a;34(5):287–9.
Isbister GK, Gray MR. Bites by Australian mygalomorph spiders (Araneae, Mygalomorphae), including funnel-web spiders (Atracinae) and mouse spiders (Actinopodidae: Missulena spp). Toxicon. 2004b;43(2):133–40.
Isbister GK, Hirst D. A prospective study of definite bites by spiders of the family Sparassidae (huntsmen spiders) with identification to species level. Toxicon. 2003;42(2):163–71.
Isbister GK, White J. Clinical consequences of spider bites: recent advances in our understanding. Toxicon. 2004;43(5):477–92.
Isbister GK, Seymour JE, Gray MR, Raven RJ. Bites by spiders of the family Theraphosidae in humans and canines. Toxicon. 2003;41(4):519–24.
Isbister GK, Page CB, Buckley NA, Fatovich DM, Pascu O, MacDonald SP, Calver LA, Brown SG, Investigators R. Randomized controlled trial of intravenous antivenom versus placebo for latrodectism: the second Redback Antivenom Evaluation (RAVE-II) study. Ann Emerg Med. 2014;64(6):620–8. e622.
Kalia J, Milescu M, Salvatierra J, Wagner J, Klint JK, King GF, Olivera BM, Bosmans F. From foe to friend: using animal toxins to investigate ion channel function. J Mol Biol. 2015;427(1):158–75.
Khan SA, Zafar Y, Briddon RW, Malik KA, Mukhtar Z. Spider venom toxin protects plants from insect attack. Transgenic Res. 2006;15(3):349–57.
King GF, Hardy MC. Spider-venom peptides: structure, pharmacology, and potential for control of insect pests. Annu Rev Entomol. 2013;58:475–96.
King GF, Sollod BL, inventors. Insectidical polypeptides and methods of use thereof. patent WO2006052806 A3. 2006.
King GF, Sollod BL, inventors. Insectidical polypeptides and methods of use thereof. patent US 7279547 B2. 2007.
Klint JK, Senff S, Rupasinghe DB, Er SY, Herzig V, Nicholson GM, King GF. Spider-venom peptides that target voltage-gated sodium channels: pharmacological tools and potential therapeutic leads. Toxicon. 2012;60(4):478–91.
Koradi R, Billeter M, Wuthrich K. MOLMOL: a program for display and analysis of macromolecular structures. J Mol Graph. 1996;14(1):51–5. 29–32.
Little MJ, Wilson H, Zappia C, Cestele S, Tyler MI, Martin-Eauclaire MF, Gordon D, Nicholson GM. Delta-atracotoxins from Australian funnel-web spiders compete with scorpion alpha-toxin binding on both rat brain and insect sodium channels. FEBS Lett. 1998;439(3):246–52.
Maggio F, King GF. Scanning mutagenesis of a Janus-faced atracotoxin reveals a bipartite surface patch that is essential for neurotoxic function. J Biol Chem. 2002;277(25):22806–13.
Miller MK, Whyte IM, White J, Keir PM. Clinical features and management of Hadronyche envenomation in man. Toxicon. 2000;38(3):409–27.
Mukherjee AK, Sollod BL, Wikel SK, King GF. Orally active acaricidal peptide toxins from spider venom. Toxicon. 2006;47(2):182–7.
Nicholson GM, Little MJ, Tyler M, Narahashi T. Selective alteration of sodium channel gating by Australian funnel-web spider toxins. Toxicon. 1996;34(11–12):1443–53.
Nicholson GM, Little MJ, Birinyi-Strachan LC. Structure and function of delta-atracotoxins: lethal neurotoxins targeting the voltage-gated sodium channel. Toxicon. 2004;43(5):587–99.
Nicholson GM, Graudins A, Wilson HI, Little M, Broady KW. Arachnid toxinology in Australia: from clinical toxicology to potential applications. Toxicon. 2006;48(7):872–98.
Palagi A, Koh JM, Leblanc M, Wilson D, Dutertre S, King GF, Nicholson GM, Escoubas P. Unravelling the complex venom landscapes of lethal Australian funnel-web spiders (Hexathelidae: Atracinae) using LC-MALDI-TOF mass spectrometry. J Proteome. 2013;80:292–310.
Pallaghy PK, Alewood D, Alewood PF, Norton RS. Solution structure of robustoxin, the lethal neurotoxin from the funnel-web spider Atrax robustus. FEBS Lett. 1997;419(2–3):191–6.
Pineda SS, Wilson D, Mattick JS, King GF. The lethal toxin from Australian funnel-web spiders is encoded by an intronless gene. PLoS One. 2012;7(8):e43699.
Pineda SS, Sollod BL, Wilson D, Darling A, Sunagar K, Undheim EA, Kely L, Antunes A, Fry BG, King GF. Diversification of a single ancestral gene into a successful toxin superfamily in highly venomous Australian funnel-web spiders. BMC Genomics. 2014a;15(1):177.
Pineda SS, Undheim EA, Rupasinghe DB, Ikonomopoulou MP, King GF. Spider venomics: implications for drug discovery. Future Med Chem. 2014b;6(15):1699–714.
Rash LD, Birinyi-Strachan LC, Nicholson GM, Hodgson WC. Neurotoxic activity of venom from the Australian eastern mouse spider (Missulena bradleyi) involves modulation of sodium channel gating. Br J Pharmacol. 2000;130(8):1817–24.
Raven RJ. A new tarantula species from northern Australia (Araneae, Theraphosidae). Zootaxa. 2005;1004(1):15–28.
Raven R, Covacevich J. New information on envenomation by a whistling spider, Phlogius crassipes (family Theraphosidae). Queensland Nat. 2012;50(1/2/3):19.
Rosengren KJ, Wilson D, Daly NL, Alewood PF, Craik DJ. Solution structures of the cis- and trans-Pro30 isomers of a novel 38-residue toxin from the venom of Hadronyche infensa sp. that contains a cystine-knot motif within its four disulfide bonds. Biochemistry. 2002;41(10):3294–301.
Shah AD, Ahmed M, Mukhtar Z, Khan SA, Habib I, Malik ZA, Mansoor S, Saeed NA. Spider toxin (Hvt) gene cloned under phloem specific RSs1 and RolC promoters provides resistance against American bollworm (Heliothis armigera). Biotechnol Lett. 2011;33(7):1457–63.
Smith JJ, Herzig V, King GF, Alewood PF. The insecticidal potential of venom peptides. Cell Mol Life Sci. 2013;70(19):3665–93.
Szeto TH, Wang XH, Smith R, Connor M, Christie MJ, Nicholson GM, King GF. Isolation of a funnel-web spider polypeptide with homology to mamba intestinal toxin 1 and the embryonic head inducer Dickkopf-1. Toxicon. 2000a;38(3):429–42.
Szeto TH, Birinyi-Strachan LC, Smith R, Connor M, Christie MJ, King GF, Nicholson GM. Isolation and pharmacological characterisation of delta-atracotoxin-Hv1b, a vertebrate-selective sodium channel toxin. FEBS Lett. 2000b;470(3):293–9.
Tedford HW, Gilles N, Menez A, Doering CJ, Zamponi GW, King GF. Scanning mutagenesis of omega-atracotoxin-Hv1a reveals a spatially restricted epitope that confers selective activity against insect calcium channels. J Biol Chem. 2004;279(42):44133–40.
Undheim EA, Sunagar K, Herzig V, Kely L, Low DH, Jackson TN, Jones A, Kurniawan N, King GF, Ali SA, Antunes A, Ruder T, Fry BG. A proteomics and transcriptomics investigation of the venom from the barychelid spider Trittame loki (brush-foot trapdoor). Toxins. 2013;5(12):2488–503.
Undheim EA, Grimm LL, Low CF, Morgenstern D, Herzig V, Zobel-Thropp P, Pineda SS, Habib R, Dziemborowicz S, Fry BG, Nicholson GM, Binford GJ, Mobli M, King GF. Weaponization of a hormone: convergent recruitment of hyperglycemic hormone into the venom of arthropod predators. Structure. 2015;23(7):1283–92.
Wang X, Connor M, Smith R, Maciejewski MW, Howden ME, Nicholson GM, Christie MJ, King GF. Discovery and characterization of a family of insecticidal neurotoxins with a rare vicinal disulfide bridge. Nat Struct Biol. 2000;7(6):505–13.
Wang XH, Connor M, Wilson D, Wilson HI, Nicholson GM, Smith R, Shaw D, Mackay JP, Alewood PF, Christie MJ, King GF. Discovery and structure of a potent and highly specific blocker of insect calcium channels. J Biol Chem. 2001;276(43):40306–12.
Wen S, Wilson DT, Kuruppu S, Korsinczky ML, Hedrick J, Pang L, Szeto T, Hodgson WC, Alewood PF, Nicholson GM. Discovery of an MIT-like atracotoxin family: spider venom peptides that share sequence homology but not pharmacological properties with AVIT family proteins. Peptides. 2005;26(12):2412–26.
Wilson D, Alewood P. Australian funnel-web spider venom analyzed with on-line RP-HPLC techniques. In: Aguilar M-I, editor. Methods in molecular biology – HPLC of peptides and proteins: methods and protocols, vol. 251. Totowa: Humana Press; 2004. p. 307–22.
Wilson D, Alewood PF. Taxonomy of Australian funnel-web spiders using rp-HPLC/ESI-MS profiling techniques. Toxicon. 2006;47(6):614–27.
Windley MJ, Herzig V, Dziemborowicz SA, Hardy MC, King GF, Nicholson GM. Spider-venom peptides as bioinsecticides. Toxins. 2012;4(3):191–227.
Wong ES, Hardy MC, Wood D, Bailey T, King GF. SVM-based prediction of propeptide cleavage sites in spider toxins identifies toxin innovation in an Australian tarantula. PLoS One. 2013;8(7):e66279.
World Spider Catalog, version 16.5 [Internet]. Natural History Museum Bern. 2015. Available from http://wsc.nmbe.ch
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Wilson, D.T.R. (2016). The Venom of Australian Spiders. In: Gopalakrishnakone, P., Corzo, G., de Lima, M., Diego-GarcÃa, E. (eds) Spider Venoms. Toxinology. Springer, Dordrecht. https://doi.org/10.1007/978-94-007-6389-0_21
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DOI: https://doi.org/10.1007/978-94-007-6389-0_21
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