Structure–function relationship of conotoxin lt14a, a potential analgesic with low cytotoxicity

A novel conotoxin lt14a containing 13 amino acid residues with an amidated C-terminus derived from Conus litteratus, belongs to C–C–C–C cysteine pattern. As the smallest peptide of conotoxin framework 14, lt14a could inhibit nicotinic acetylcholine receptor and suppress pain. To elucidate structure–function relationship, we determine the solution structure by NMR and find that lt14a comprises a short duple β-strand region and β-turn motif. An analog [K7A]-lt14a of Ala substitution for Lys in position 7 is designed. Interestingly, [K7A]-lt14a exhibits higher activity than lt14a as long-lasting analgesic in the hotplate pain model in mice. Additionally, MTT assay reveals that the two peptides have low toxicity to human cells. The studies suggest that positively charged residue may not be involved in the blocking mechanism. However, due to the Ala substitution, hydrophobic residues’ patch expansion strengthens the binding ability. A hypothesis is given that in conotoxin lt14a, hydrophobic residues rather than charged residues play a key role during target binding.

Research highlights▶ Determined the solution structure of conotoxin lt14a by NMR. ▶ An analog [K7A]-lt14a exhibited higher activity than lt14a as long-lasting analgesic. ▶ Both lt14a and [K7A]-lt14a had low toxicity to human cells. ▶ It is assumed that hydrophobic residues play a key role in binding processing of lt14a.