TsIV

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TsIV is a toxin from the venom of the Brazilian scorpion Tityus serrulatus which slows the inactivation of sodium channels.

Etymology[edit]

TsIV is named after the scorpion from which the toxin is isolated, namely Tityus serrulatus (Ts). Alternative names for the TsIV toxin are TsIV-5, Toxin-4, Tityustoxin IV, Ts-IV and Toxin IV.

Sources[edit]

TsIV is one of a variety of toxins that can be isolated from the venom of the Brazilian scorpion T.serrulatus. This species of scorpion belongs to the family Buthidae and has a wide geographic distribution from northeastern to southeastern Brazil.[1]

Chemistry[edit]

The composition of TsIV determined by spectrophotometry is as follows: 11 Asp, 2 Thr, 3 Ser, 2 Glu, 3 Pro, 4 Gly, 3 Ala, 8 Cys, 2 Val, 2 Ile, 3 Leu, 8/9 Tyr, 1 His, 9 Lys, 2 Trp. The amino acid composition of TsIV also shows great similarity with those of Ts III and Ts V. Ts III has one less Lys and Ts V has an additional Lys and Gly.[2]

Target and mode of action[edit]

TsIV belongs to the family of α-scorpion toxins, which are known to bind voltage dependently to site 3, located on domain IV of the sodium channel, and thereby slow the inactivation of sodium channels.[3][4] This toxin is active against mammals. The application of TsIV to neuroblastoma cells resulted in a slowing of inactivation and an increase in peak current without changing time to peak, leading to the shifting of both the steady-state activation and inactivation curves to more negative potentials.[5] Based on the knowledge that TsIV belongs to the family of α-toxins, it is likely that the effect of TsIV on the inactivation of sodium channels is preceded by the binding of TsIV to site 3 of the sodium channel.

Toxicity[edit]

The TsIV toxin, isolated from T. serrulatus venom, does not discriminate between tissue-specific sodium channel subtypes and has been found to affect sodium channels from rat ventricular myocytes, rat cortical neurons and mouse skeletal muscle cells.[5] Clinical manifestations of T. serrulatus envenoming include local pain at the site of the sting and systemic manifestations such as vomiting, profuse sweating, psychomotor agitation or restlessness, sinus tachycardia or bradycardia, arterial hypertension or hypotension, cardiac arrhythmias other than sinus tachycardia or bradycardia, cardiac failure, shock, tachypnea, pulmonary oedema and laboratory abnormalities such as leukocytosis, hyperglycaemia and increased amylase enzyme activity.[6][7][8] Martin et al. recorded the toxicity of TsIV as LD50 after subcutaneous (s.c.) and intracerebroventricular (i.c.v.) injection. The LD50 of TsIV per 20 g mouse was 0.4 µg for s.c. injection and 24 ng for i.c.v. injection.[2]

Treatment[edit]

In clinical practice, Tityus poisoning is treated by intravenous administration of heterologous antivenoms. These antivenoms are obtained by the immunisation of horses with a mix of venoms derived from T.Serrulatus and T.Bahiensis.[9] Several preclinical studies have identified epitopes that are present in many different toxins from the T. serrulatus scorpion. This could lead to the development of an antidote that reacts with the same epitope located on these different toxins.[10] Additionally, studies examined reactivity between horse anti-Ts antisera and synthetically produced peptides that corresponded to the amino acid sequence of several Ts toxins, including TsIV. The aim of these studies was to ascertain the neutralizing potential of these antivenoms by examining their reactivity with different epitopes of T.serrulatus toxins.[11]

References[edit]

  1. ^ Manual de Controle de Escorpioes Brasil e Ministerio da Sauda 2009; Available from: ftp://ftp.cve.saude.sp.gov.br/doc_tec/zoo/manu09_escorpioes.pdf.
  2. ^ a b Martin-Eauclaire MF, Ceard B, Ribeiro AM, Diniz CR, Rochat H, Bougis PE. (April 1994). "Biochemical, pharmacological and genomic characterisation of Ts IV, an alpha-toxin from the venom of the South American scorpion Tityus serrulatus". FEBS Lett. 342 (2): 181–4. doi:10.1016/0014-5793(94)80496-6. PMID 8143874.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  3. ^ Campos FV, Chanda B, Beirao PS, Bezanilla F. (August 2008). "Alpha-scorpion toxin impairs a conformational change that leads to fast inactivation of muscle sodium channels". J. Gen. Physiol. 132 (2): 251–3. doi:10.1085/jgp.200809995. PMC 2483334. PMID 18663133.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  4. ^ Catterall WA, Cestele S, Yarov-Yarovoy V, Yu FH, Konoki K, Scheuer T. (February 2007). "Voltage-gated ion channels and gating modifier toxins" (PDF). Toxicon. 49 (2): 124–41. doi:10.1016/j.toxicon.2006.09.022. PMID 17239913. S2CID 5727158.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  5. ^ a b Kirsch GE, Skattebol A, Possani LD, Brown AM. (January 1989). "Modification of Na channel gating by an alpha scorpion toxin from Tityus serrulatus". J. Gen. Physiol. 93 (1): 67–83. doi:10.1085/jgp.93.1.67. PMC 2216202. PMID 2536799.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  6. ^ Campos JA, Silva, S., Lopez, M., Freire-Maia, L. Signs, symptoms and treatment of severe scorpion posinoning in children. Natural Toxins: Oxford Pergamon Press; 1980. p. 61-2.
  7. ^ Freire-Maira L. CJA. Pathophysiology and treatment of scorpion poisoning Natural toxins: characterization, pharmacology and therapeutics Oxford: Permagon Press; 1989. p. 139-59.
  8. ^ Freire-Maia L, Campos JA, Amaral CF. (September 1994). "Approaches to the treatment of scorpion envenoming". Toxicon. 32 (9): 1009–14. doi:10.1016/0041-0101(94)90382-4. PMID 7801334.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  9. ^ Venancio EJ, Portaro FC, Kuniyoshi AK, Carvalho DC, Pidde-Queiroz G, Tambourgi DV. (July 2013). "Enzymatic properties of venoms from Brazilian scorpions of Tityus genus and the neutralisation potential of therapeutical antivenoms". Toxicon. 69: 180–90. doi:10.1016/j.toxicon.2013.02.012. PMID 23506858.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  10. ^ Alvarenga LM, Machado de Avila RA, Amim PR, Martins MS, Kalapothakis E, de Lima ME; et al. (November 2005). "Molecular characterization of a neutralizing murine monoclonal antibody against Tityus serrulatus scorpion venom". Toxicon. 46 (6): 664–71. doi:10.1016/j.toxicon.2005.07.014. PMID 16168449.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  11. ^ Maria WS, Velarde DT, Alvarenga LM, Nguyen C, Villard S, Granier C; et al. (August 2005). "Localization of epitopes in the toxins of Tityus serrulatus scorpions and neutralizing potential of therapeutic antivenoms". Toxicon. 46 (2): 210–7. doi:10.1016/j.toxicon.2005.03.024. PMID 15970301.{{cite journal}}: CS1 maint: multiple names: authors list (link)
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