Chemistry:BotIT2

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BotIT2 is a neurotoxin from the scorpion Buthus occitanus tunetanus, which modifies activation and slows down the deactivation of voltage gated sodium channels. [1]

Source and etymology

BotIT2 is found in the venom of the scorpion Buthus occitanus tunetanus (Bot) [2] and hence named Buthus occitanus tunetanus insect toxin 2 (BotIT2).[3]

Chemistry

Structure

N’—DGYIKGYKGCKITCVINDDYCDTECKAEGGTYGICWKWGLACWCEDLPEDKRWKPETNTC –C’
Fig.1 Amino acid sequence of BotIT2 including N-terminus and C-terminus.[2][3]

The BotIT2 peptide is composed of 60 amino-acids (Fig. 1) and its C-terminal residue contains a free carboxyl group. The molecular mass of BotIT2 is 6919 Da.[2][3]

Family

BotIT2 belongs to the Buthidae neurotoxin family. Three main groups are distinguishable in this family: the α-, the β- and the depressant toxins.[4] The BotIT2 has characteristics of all these subgroups.[5] However, BotIT2 is classified as a β-depressant toxin.[3]

Homology

BotIT2 differs from other scorpion toxins not only in its amino acid sequence, but in its effects on activation kinetics of insect sodium channels as well. Similarities are found between BotIT2 and other neurotoxins. For example, the degree of similarity with the α-type and β-type toxins, flaccid-depressive insect toxins and BotIT4 is 30-40%, 60-70%,[1] and 67%,[2] respectively. Despite of 67% homogeneity with BotIT4, BotIT4 can be discriminated from BotIT2, by binding two sodium channel sites and having its exclusive depressant electrophysiological function. However, BotIT4 and BotIT2 do share binding characteristics.[1][6]

Target

BotIT2 binds site 4 of voltage gated sodium channels with low capacity (Bmax = 2.4 ± 0.5 pmol/mg) and high affinity (Kd = 0.3 ± 0.1 nM).[1] Besides its influence in insects, BotIT2 affects neuronal membrane properties of mammals as well, but in a less potent way (see Toxicity).[7]

Mode of action

The effect of BotIT2 was investigated in the giant axon and dorsal unpaired median (DUM) neurons of the American cockroach (Periplaneta americana), to examine its influence on neuronal excitability by means of voltage clamp and current clamp recordings.[2][8] Application of BotIT2 transforms the fast sodium current into a slow sodium current.[1][2] The difference in gating modes from fast to slow are caused by changes in structural conformation. The voltage dependence of this slow current does not differ from the dependence of the fast current. However, the kinetics (activation and deactivation) of the current are slowed down by 40-300 times.[8] This slow sodium current induces a depolarization and results in repetitive firing pattern and burst firing in a time-dependent manner. BotIT2 decreases the maximal peak of the fast depolarizing sodium inward current and thus causes a decrease in action potential amplitude.[2][8]
Together, BotIT2 modifies the kinetics of insect’s sodium channel activation, transforms fast sodium currents in slow current and enhances (in DUM) or induces (in the axon) a repetitive firing pattern or burst activity, but of smaller amplitude.

Toxicity

Table 1. Whole charge and toxicity (LD50) of Bot insect toxins in B. Germanica.[2][9]
Insect toxin Whole charge Toxicity (ng/100 body weight)
BotIT6

+3

10

BotIT4/IT5

-2

110

BotIT3

-3

135

BotIT2 is highly toxic in insects.[1][2][9][8] For instance, injection of BotIT2 into the German cockroach (Blatella Germanica) results in a contraction paralysis effect.[1][8] Although the toxin induces neurotoxic symptoms in mice too, it is less potent in mammals than in insects[1][2] (LD50 in mice = 1 µg/20 g; LD50 in B. Germanica = 135 ng/100 mg[1][8]). So far, the underlying mechanism of the toxic behavior has not been fully understood. High toxicity of the toxins in animals could be explained by the presence of different toxins in the venom of the Buthus occitanus tunetanus (BotIT1, BotIT4 and BotIT5) which acts collectively to insects. Another possibility might be a cooperative interaction between the toxins in the venom. In general, scorpion toxins bind to ion channels via sites of positive surface potential. The total positive charge of the toxin increases its toxicity. Table 1 indicates whole charge for some Bot insect toxins and their toxicity. BotIT2 its whole charge is negative (-3), like BotIT4/5 (-2), whereas it is positive for BotIT6 (+3).[9] Therefore, BotIT2 is the least potent (LD50= 135)[2][9] when compared to BotIT4, BotIT5 and BotIT64.[9]


References

  1. 1.0 1.1 1.2 1.3 1.4 1.5 1.6 1.7 1.8 Cestèle, Sandrine; Borchani, Lamia; El Ayeb, Mohamed; Rochat, Hervé (1997). "Bot IT2: A new scorpion toxin to study receptor site on insect sodium channels". FEBS Letters 405 (1): 77–80. doi:10.1016/S0014-5793(97)00160-9. PMID 9094428. 
  2. 2.00 2.01 2.02 2.03 2.04 2.05 2.06 2.07 2.08 2.09 2.10 Borchani, Lamia; Mansuelle, Pascal; Stankiewicz, Maria; Grolleau, Francoise; Cestele, Sandrine; Karoui, Habib; Lapied, Bruno; Rochat, Herve et al. (1996). "A New Scorpion Venom Toxin Paralytic to Insects that Affects Na+ Channel Activation". European Journal of Biochemistry 241 (2): 525–32. doi:10.1111/j.1432-1033.1996.00525.x. PMID 8917451. 
  3. 3.0 3.1 3.2 3.3 "Beta-insect depressant toxin BotIT6". Uniprot. October 1, 2014. https://www.uniprot.org/uniprot/P59864. 
  4. Jover, Emmanuel; Couraud, François; Rochat, Hervé (1980). "Two types of scorpion neurotoxins characterized by their binding to two separate receptor sites on rat brain synaptosomes". Biochemical and Biophysical Research Communications 95 (4): 1607–14. doi:10.1016/S0006-291X(80)80082-9. PMID 7417336. 
  5. Cestele, Sandrine; Kopeyan, Charles; Oughideni, Razika; Mansuelle, Pascal; Granier, Claude; Rochat, Herve (1997). "Biochemical and Pharmacological Characterization of a Depressant Insect Toxin from the Venom of the Scorpion Buthacus arenicola". European Journal of Biochemistry 243 (1–2): 93–9. doi:10.1111/j.1432-1033.1997.93_1a.x. PMID 9030726. 
  6. Borchani, Lamia; Stankiewicz, Maria; Kopeyan, Charles; Mansuelle, Pascal; Kharrat, Riadh; Cestèle, Sandrine; Karoui, Habib; Rochat, Hervé et al. (1997). "Purification, structure and activity of three insect toxins from Buthus occitanus tunetanus venom". Toxicon 35 (3): 365–82. doi:10.1016/S0041-0101(96)00173-0. PMID 9080593. 
  7. Borchani, L.; Kharrat, R.; Karoui, H.; Dellagi, K.; Ayeb, M.El; Stankiewicz, M.; Grolleau, F.; Lapied, B. et al. (1995). "Purification and characterization of insect toxins from the venom of the scorpion Buthus occitanus tunetanus". Toxicon 33 (9): 1120. doi:10.1016/0041-0101(95)93831-E. 
  8. 8.0 8.1 8.2 8.3 8.4 8.5 Stankiewicz, M.; Grolleau, F.; Lapied, B.; Borchani, L.; El Ayeb, M.; Pelhate, M. (1996). "Bot IT2, a toxin paralytic to insects from the Buthus occitanus tunetanus venom modifying the activity of insect sodium channels". Journal of Insect Physiology 42 (4): 397–405. doi:10.1016/0022-1910(95)00120-4. 
  9. 9.0 9.1 9.2 9.3 9.4 Mejri, Thouraya; Borchani, Lamia; Srairi-Abid, Najet; Benkhalifa, Rym; Cestele, Sandrine; Regaya, Imed; Karoui, Habib; Pelhate, Marcel et al. (2003). "BotIT6: A potent depressant insect toxin from Buthus occitanus tunetanus venom". Toxicon 41 (2): 163–71. doi:10.1016/S0041-0101(02)00246-5. PMID 12565735. 



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