Synthesis of an iberiotoxin derivative by chemical ligation: a method for improved yields of cysteine-rich scorpion toxin peptides.

摘要

Automated and manual solid phase peptide synthesis techniques were combined with chemical ligation to produce a 37-residue peptide toxin derivative of iberiotoxin which contained: (i) substitution of Val(16) to Ala, to facilitate kinetic feasibility of native chemical ligation, and; (ii) substitution of Asp(19) to orthogonally protected Cys-4-MeOBzl for chemical conjugate derivatization following peptide folding and oxidation. This peptide ligation approach increased synthetic yields approximately 12-fold compared to standard linear peptide synthesis. In a functional inhibition assay, the ligated scorpion toxin derivative, iberiotoxin V16A/D19-Cys-4-MeOBzl, exhibited 'native-like' affinity (K(d)=1.9 nM) and specificity towards the BK Ca(2+)-activated K(+) Channel (K(Ca)1.1). This was characterized by the rapid association and slow dissociation rates (k(on)=4.59 x 10(5)M(-1)s(-1); k(off)=8.65 x 10(-4) s(-1)) as determined by inhibition of macroscopic whole-cell currents of cloned human K(Ca)1.1 channel. These results illustrate the successful application of peptide chemical ligation to improve yield of cysteine-rich peptide toxins over traditional solid phase peptide synthesis. Native chemical ligation is a promising method for improving production of biologically active disulfide containing peptide toxins, which have diverse applications in studies of ion-channel function.