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Recombinant expression and downstream processing of the disulfide-rich tumor-targeting peptide chlorotoxin

Experimental and Therapeutic Medicine (2013) 6(4) 1049-1053
DOI: 10.3892/etm.2013.1234
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Abstract

Chlorotoxin (CTX) is a scorpion-derived disulfide-rich peptide that targets malignant tumors by binding the cell surface matrix metalloproteinase-2 and annexin A2. Various CTXs labeled with functional moieties have shown great potential for tumor diagnosis and treatment. In the present study, we established an efficient approach for preparing mature CTX that may be used for experimental and therapeutic purposes. The designed CTX precursors carried either a 6xHis-tag or a 6xHis-tag and a glutathione transferase (GST)-tag and were recombinantly expressed in Escherichia coli. Following S-sulfonation, the precursors were purified using immobilized metal-ion affinity chromatography. Subsequent to the removal of the tag by enterokinase cleavage and in vitro oxidative refolding, mature CTX was obtained with a considerable yield. The yield of mature CTX whose precursors carried a 6xHis-tag and a GST-tag (2 mg per liter of culture) was ~10-fold that of the mature CTX whose precursors carried a 6xHis-tag (150-200 μg per liter of culture). The folded CTX inhibited the migration of glioma cells in a concentration-dependent manner, suggesting it was biologically active.

Figures

  • Figure 1. (A) Nucleotide and amino acid sequence of the designed 6xHis‑chlorotoxin (CTX) precursor. The two primers used to construct the gene of the precursor are underlined and labeled. The enterokinase (EK) cleavage site (DDDDK) is shaded. The asterisk indicates the stop codon. (B) Cartoon presentation of the glutathione transferase (GST)‑6xHis‑CTX precursor. (C) Amino acid sequence and disulfide linkages of mature CTX. (D) The previously revealed nuclear magnetic resonance (NMR) structure of CTX (Protein Data Bank ID: 1CHL).
  • Figure 2. (A) Purification of the S‑sulfonated 6xHis‑chlorotoxin (CTX) precursor using immobilized metal ion affinity chromatography. The peak of the S‑sulfonated precursor is indicated by an asterisk. Inner panel, tricine sodium dodecyl sulfate‑polyacrylamide gel electrophoresis (SDS‑PAGE) analysis of the 6xHis-CTX expression in E. coli. M, marker; Lane 1, prior to isopropyl thio-β‑D‑galactoside (IPTG) induction; Lane 2, following IPTG induction. The band of 6xHis‑CTX is indicated by an asterisk. (B) SDS‑PAGE analyses of the glutathione transferase (GST)‑6xHis‑CTX precursor at different purification stages. (Ba) SDS‑PAGE analysis of GST‑6xHis‑CTX expression: (‑) prior to, and (+) subsequent to IPTG induction. (Bb) SDS‑PAGE analysis of the solubility of GST‑6xHis‑CTX. T, total lysate; S, supernatant; P, pellet. (Bc) SDS‑PAGE analysis of Ni2+ column‑purified GST‑6xHis‑CTX. The band of GST‑6xHis‑CTX is indicated by an asterisk. F, flow‑through; E, eluted fraction by 100 mM imidazole.
  • Figure 4. Inhibition of cultured glioma U251‑MG cell invasion by the recombinant chlorotoxin (CTX). (A) Representative microscopic image of the cells migrating through the matrigel with or without CTX. The migrated cells were stained using crystal violet. Magnification, x200. (B) Concentration‑dependent inhibition of U251‑MG cell invasion by recombinant CTX.
  • Figure 3. Enterokinase cleavage of CTX precursors and in vitro refolding of the S‑sulfonated chlorotoxin (CTX). (A) High‑performance liquid chromatography (HPLC) profile of the S‑sulfonated 6xHis‑CTX eluted from the Ni2+ column. The peak of S‑sulfonated 6xHis‑CTX is indicated by an asterisk. (B) HPLC analysis of the CTX refolding mixture derived from S‑sulfonated 6xHis‑CTX. The peak of the mature CTX is indicated by an asterisk. (C) HPLC analysis of the refolded CTX derived from glutathione transferase (GST)‑6xHis‑CTX. The peak of the mature CTX is indicated by an asterisk. Inner panel (a) tricine sodium dodecyl sulfate‑polyacrylamide gel electrophoresis (SDS‑PAGE) analysis of enterokinase digestion of the S‑sulfonated GST‑6xHis‑CTX: (‑) prior to, and (+) subsequent to digestion. Inner panel (b) tricine SDS‑PAGE analysis of the peaks eluted from gel filtration. The band of the S‑sulfonated CTX is indicated by an asterisk.

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APA

Wang, X. M., Luo, X., & Guo, Z. Y. (2013). Recombinant expression and downstream processing of the disulfide-rich tumor-targeting peptide chlorotoxin. Experimental and Therapeutic Medicine, 6(4), 1049–1053. https://doi.org/10.3892/etm.2013.1234

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