Mass fingerprinting and electrophysiological analysis of the venom from the scorpion Centruroides hirsutipalpus (Scorpiones: Buthidae)

 

Laura L. Valdez-Velázquez¹, Timoteo Olamendi-Portugal², Rita Restano-Cassulini², Fernando Z. Zamudio², Lourival D. Possani²

 

1 Facultad de Ciencias Químicas, Universidad de Colima, Coquimatlan, Colima, Mexico.

2 Instituto de Biotecnología, Universidad Nacional Autónoma de México, Avenida Universidad 2001, Colonia Chamilpa, apartado postal, 510-3 Cuernavaca, Morelos, Mexico.

 

ABSTRACT

Background

Centruroides hirsutipalpus, of the family Buthidae, is a scorpion endemic to the Western Pacific region of Mexico. Although medically important, its venom has not yet been studied. Therefore, this communication aims to identify their venom components and possible functions.

Methods

Fingerprinting mass analysis of the soluble venom from this scorpion was achieved by high-performance liquid chromatography and electrospray mass spectrometry. Furthermore, the soluble venom and its toxic effects were evaluated extensively via electrophysiological assays in HEK cells expressing human voltage-gated Na+ channels (hNav 1.1 to Nav1.6), CHO cells expressing hNav 1.7, potassium channel hERG 1 (Ether-à-go-go-related-gene) and the human K⁺-channel hKv1.1.

Results

The separation of soluble venom produced 60 fractions from which 83 distinct components were identified. The molecular mass distribution of these components varies from 340 to 21,120 Da. Most of the peptides have a molecular weight between 7001 and 8000 Da (46% components), a range that usually corresponds to peptides known to affect Na+ channels. Peptides with molecular masses from 3000 to 5000 Da (28% of the components) were identified within the range corresponding to K⁺-channel blocking toxins. Two peptides were obtained in pure format and completely sequenced: one with 29 amino acids, showing sequence similarity to an "orphan peptide" of C. limpidus, and the other with 65 amino acid residues shown to be an arthropod toxin (lethal to crustaceans and toxic to crickets). The electrophysiological results of the whole soluble venom show a beta type modification of the currents of channels Nav1.1, Nav1.2 and Nav1.6. The main effect observed in channels hERG and hKv 1.1 was a reduction of the currents.

Conclusion

The venom contains more than 83 distinct components, among which are peptides that affect the function of human Na⁺-channels and K⁺-channels. Two new complete amino acid sequences were determined: one an arthropod toxin, the other a peptide of unknown function.

 

Key words: Centruroides; Electrophysiology; Mass fingerprinting; Scorpion venom

 

Funding

This study was partially supported by grants SEP-CONACyT 237864 and IN203416 of DGAPA-UNAM to LDP.

 

Received: March 8, 2018.

Accepted: June 14, 2018.

Revised: July 03, 2018.

 

Correspondence: possani@ibt.unam.mx

 

Ethical approval

The protocol used in the present study was approved by the Institutional Committee for Animal Welfare. The scorpion specimens were collected under an official collection permit from SEMARNAT (SGPA/DGVS/12063/15 granted to Laura Valdez).

 

Competing interests

The authors declare that they have no competing interests.

 

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