Английская Википедия:Bactridines

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Bactridines are a group of six antibacterial peptides from the venom of the Tityus discrepans scorpion. They exclusively target sodium channels.[1] Bactridines are unique in that this scorpion toxin acts on sodium channels of both bacteria and eukaryotes.[1][2]

Файл:Tityus discrepans.jpg
T. Discrepans

Etymology

The name bactridine is derived from the fact that these toxins not only help scorpions to kill their preys but also protect their bodies from harmful pathogens by inhibiting bacteria growth. In captivity, scorpions spray the toxin over their own bodies which suggest that they use the toxin for protection or cleansing.[1]

Sources

Bactridines are found in T. discrepans, a scorpion species within the family Buthidae. T. discrepans is generally found in the Amazon.

Chemistry

Bactridines are part of the long (4 C-C) scorpion toxin superfamily. Bactridine 1-2 also fall under the sodium channel inhibitory- and β subfamily.[3]Шаблон:Full citation needed The bactridines have many similarities and also some differences. Bactridines 1-6 have a molecular mass of 6916, 7362, 7226, 7011, 7101 and 7173 Da respectively (obtained using MALDI-TOF mass spectrometry). They all have the conserved four sulfide bridges, which highly contribute to the secondary structure typical for scorpion β toxins.[4] Bactridines 1 and 2 consist of 61 and 64 amino acids respectively and are found to be positively charged.[1][3] Bactridines 3-6 have not been fully recorded yet.

Target

Bactridines act specifically on sodium channels. Different subtypes of bactridines have affinity with different voltage-gated sodium channel (Nav) isoforms. Bactridine 2 acts on skeletal Nav1.4 and neuronal Nav1.6 and is most effective on Nav1.4. Bactridine 3 and 4 act on skeletal Nav1.4 and neuronal Nav1.3 and Nav1.6 and are most effective on Nav1.4 and Nav1.3 respectively. Bactridine 5 acts specifically on Nav1.7. Finally, bactridine 6 acts on Nav1.3, Nav1.7 and DmNav1.[4] The specific sodium channel isoforms on which bactridine 1 acts are not yet known.

Mode of action

Bactridines act on sodium channels in different ways. As a defense mechanism, bactridines protect scorpions from pathogens, they are antibacterial. When T. discrepans venom is applied onto bacteria in solution, it causes bacterial growth inhibition. In bacteria, bactridines cause an outward sodium leak by increasing the sodium channel permeability.[1] In contrast, as an attack mechanism, bactridines are toxic to certain preys by decreasing the permeability of neuronal or skeletal sodium channels.[2]

Specific activities

The effect of bactridines on voltage-gated sodium channels has been observed under voltage clamp conditions. Bactridine 1 reduces voltage-dependent sodium conductance at potentials > -20 mV. Bactridine 2 causes a hyperpolarizing shift in activation and inactivation and therefore a decrease in the conductance of the channels. Bactridine 3 reduces sodium current. Bactridine 4 reduces sodium conductance (voltage-dependent at potentials > -20 mV). Bactridine 5 induces a hyperpolarizing shift of inactivation. Bactridine 6 also shifts sodium conductance inactivation to the more hyperpolarizing potentials. Unlike bactridine 5, bactridine 6 blocks sodium conductance. Bactridine 6 differs from the other bactridines by initially producing an increase in sodium current.

In addition, bactridines may target other channels.[2]

Toxicity

The venom from T. discrepans is known to cause numerous physiological symptoms including respiratory distress (pulmonary oedema) in humans.[5] It is found that bactridines 2, 4 and 6 show haemolysis of human cells within 10 minutes (≤1%). On the other hand, 1, 3 and 5 don't. The haemolytic effect is bactridine-concentration dependent.[1][6]

Studies show that bactridine 1 kills insects such as crickets and cockroaches (20 µg/animal) within 48 hours. When injected with a high dosage, bactridine 1 kills 43% of injected crabs (1.8 µg/g). Surprisingly, bactridine 1 is not toxic to mice. In contrast, bactridines 2, 3, 4 and 6 do cause death in mice (3 µg/g) but have no effect on crabs.[1]

Treatment

A T. Discrepans anti-venom is available and it is obtained polyclonally.[7][8]

Therapeutic use

Bactridines are toxins but they also inhibit the growth of bacteria. The fact that bactridine 1 is not toxic to mice and has no haemolytic effect on human erythrocytes seems to present some opportunities for therapeutic use in the form of antibiotics.[1]

References

Шаблон:Reflist

  1. 1,0 1,1 1,2 1,3 1,4 1,5 1,6 1,7 Díaz, P., D'Suze, G., Salazar, V., Sevcik, C., Shannon, J. D., Sherman, N. E., & Fox, J. W. (2009). Antibacterial activity of six novel peptides from Tityus Discrepans scorpion venom. A fluorescent probe study of microbial membrane Na+ permeability changes. Toxicon, 54, 802-817. doi: 10.1016/j.toxicon.2009.06.014
  2. 2,0 2,1 2,2 Forsyth, P., Sevcik, C., Martínez, R., Castillo, C., & D'Suze, G. (2012). Bactridines effect on DUM cricket neurons under voltage clamp conditions. Journal of Insect Physiology, 58, 1676-1685. doi: 10.1016/j.jinsphys.2012.10.009
  3. 3,0 3,1 Шаблон:Cite web
  4. 4,0 4,1 Peigneur, S., Sevcik, C., Tytgat, J., Castillos, C., & D'Suze, G. (2012). Subtype specificity interaction of bactridines with mammalian, insect and bacterial sodium channels under voltage clamp condition. FEBS Journal, 279, 4025-4038. doi:10.1111/j.1742-4658.2012.08808.x
  5. Brazón, J., Hudges, C. E., Mori, J., Sevcik, C., D'Suze, G., & Watson, S. P. (2011). Tityus discrepans scorpion venom activates platelets through GPVI and a novel Src-dependent signaling pathway. Platelets, 22, 165-172. doi: 10.3109/09537104.2010.544343
  6. Kondejevski, L .H., Farmer, S. W., Wishart, D. S., Kay, C. M., Hancock, R. E. W., & Hodges, R. S. (1996). Modulation of structure and antibacterial and hemolytic activity by ring size in cyclic gramicidin S analogs. The Journal of Biological Chemistry, 271, 25261-25268. doi: 10.1074/jbc.271.41.25261
  7. Borges, A., Tsushima, R. G., & Backx, P. H. (1999). Antibodies against Tityus discrepans venom do not abolish the effect of Tityus serrulatus venom on the rat sodium and potassium channels. Toxicon, 37, 867-881. doi: 10.1016/S0041-0101(98)00201-3
  8. Díaz, P., Sevcik, C., & D'Suze, G. (2014). Ability of horse anti-Tityus discrepans F(ab')2 ELISA assay to recognize Tityus discrepans venom toxins. Toxicon, 88, 88-92. doi: 10.1016/j.toxicon.2014.06.003