Cl6b

Cl6b (μ-THTX-Cl6b) is a peptide toxin from the venom of the spider Cyriopagopus longipes. It acts as a sodium channel blocker: Cl6b significantly and persistently reduces currents through the tetrodotoxin-sensitive sodium channels Na_V1.2-1.4, Na_V1.6, and Na_V1.7.

Structure[edit]

The Cl6b peptide has a molecular weight of 3708.9 Da. It contains 33 amino acid residues, among which six cysteines that engage in three disulfide bonds to form a structural motif known as an inhibitor cystine knot (ICK).^[1] This structure grants stability^[2] to the toxin and has been identified previously in other spider peptide toxins that share high sequence similarity to Cl6b.

Family[edit]

Simultaneously with the isolation of Cl6b, another peptide toxin known as Cl6a was characterized from the same spider species. The two Cl6 peptides share a sequence identity of 78.8%, including the six cysteines that make both peptides adopt the ICK motif.^[1]

Target[edit]

Cl6b acts as a selective sodium channel blocker.

Source in nature[edit]

Cl6b has been isolated from Cyriopagopus longipes, an Asian spider mainly found in Thailand, Cambodia, Laos, and China.

Activity mechanism[edit]

Cl6b significantly reduces currents through the tetrodotoxin-sensitive sodium channels Na_V1.2, Na_V1.3, Na_V1.4, Na_V1.6, and Na_V1.7, with no effect on the tetrodotoxin-resistant sodium channels Na_V1.5, Na_V1.8, Na_V1.9. Cl6b exhibits a particularly high affinity to Na_V1.7 channels, which are present in great numbers in nociceptors (pain neurons) located at the dorsal root ganglion. The activity of Cl6b on Na_V1.7 has similar characteristics compared to previously reported Na_V1.7-peptide inhibitors, such as HWTX-IV.,^[1] as Cl6b binds to the domain II segments three and four, which are part of the domain's voltage sensor.^[1] The binding is high-affinity (half-maximal inhibitory concentration (IC₅₀) 18.80 ± 2.4 nM). It is also irreversible, which poises it as a candidate for the development of long-term in-vivo analgesia.

References[edit]

^ ^a ^b ^c ^d Zhang, Qingfeng; Si, Yuxin; Yang, Li; Wang, Li; Peng, Shuijiao; Chen, Yiming; Chen, Minzhi; Zhou, Xi; Liu, Zhonghua (September 2020). "Two Novel Peptide Toxins from the Spider Cyriopagopus longipes Inhibit Tetrodotoxin-Sensitive Sodium Channels". Toxins. 12 (9): 529. doi:10.3390/toxins12090529. ISSN 2072-6651. PMC 7551932. PMID 32824960.
^ Craik, David J.; Daly, Norelle L.; Waine, Clement (1 January 2001). "The cystine knot motif in toxins and implications for drug design". Toxicon. 39 (1): 43–60. doi:10.1016/S0041-0101(00)00160-4. ISSN 0041-0101. PMID 10936622.

[cl6b_paper-1] Zhang, Qingfeng; Si, Yuxin; Yang, Li; Wang, Li; Peng, Shuijiao; Chen, Yiming; Chen, Minzhi; Zhou, Xi; Liu, Zhonghua (September 2020). "Two Novel Peptide Toxins from the Spider Cyriopagopus longipes Inhibit Tetrodotoxin-Sensitive Sodium Channels". Toxins. 12 (9): 529. doi:10.3390/toxins12090529. ISSN 2072-6651. PMC 7551932. PMID 32824960.

[ICK_motif-2] Craik, David J.; Daly, Norelle L.; Waine, Clement (1 January 2001). "The cystine knot motif in toxins and implications for drug design". Toxicon. 39 (1): 43–60. doi:10.1016/S0041-0101(00)00160-4. ISSN 0041-0101. PMID 10936622.

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