Journal of Pharmaceutical and Biomedical Sciences

Curcin can inhibit the proliferation of tumor cells and facilitate tumor cell apoptosis. In the current study, transferrin receptor (TFR)-binding peptide, TfRBP9, was fused with curcin and significantly enhanced the targeting of the anti-tumor ability of curcin. However, the recombinant curcin-TfRBP9 was expressed as an inclusion body in bacteria. The active recombinant curcin-TfRBP9 was obtained through dissolution, purification and renaturation. To achieve the soluble expression of recombinant curcin-TfRBP9, the vector pQE-30 inserted into a deoxyribonucleic acid (DNA) coding segment with a glutathione transferase (GST) -small ubiquitin-related modifier (SUMO)-curcin-TfRBP9 fusion protein was transferred into Escherichia coli (E. coli ) M15. After being induced by 0.5 mM of isopropyl-b-D-thiogalactoside (IPTG) for 20 h at 20°C, the expressed quantity of the GST-SUMO-curcin-TfRBP9 fusion protein was about 40% of the total protein, and the soluble expression of the recombinant protein was about 70% of the total GST-SUMO-curcin-TfRBP9 fusion protein. Subsequent purification through Glutathione Sepharose 4B, ubiquitin-like specific protease1 (Ulp1) digestion and CM SepharoseTM Fast Flow yielded the untagged curcin-TfRBP9 fusion protein with a purity of more than 95%. The curcin-TfRBP9 fusion protein had significant proliferation inhibitory effects on the lung cancer A549 cells that over-expressed transferrin receptors, and it had lower inhibitory effects on normal human LO-2 liver cells. Compared with the control untagged curcin, the curcin-TfRBP9 protein promoted higher inhibition rates in the A549 cells.

College of Pharmacy,Core tip: A method to facilitate soluble expression of curcin-TfRBP9 fusion protein was achieved by application of GST and SUMO tags. Subsequent purification through Glutathione Sepharose 4B, ubiquitin-like specific protease1 (Ulp1) digestion and CM SepharoseTM Fast Flow yielded the untagged curcin-TfRBP9 fusion protein with a purity of more than 95%. The MTT assay showed that untagged curcin-TfRBP9 fusion had significant proliferation inhibitory effects on the lung cancer A549 cells that over-expressed transferrin receptors, and it had lower inhibitory effects on normal human LO-2 liver cells. Compared with the control untagged curcin, the curcin-TfRBP9 protein promoted higher inhibition rates in the A549 cells.

Stirpe F, Pessionbrizzi A, Lorenzoni E, Strocchi P, Montanaro L, Sperti S. Studies on the proteins from the seeds of Croton tiglium and of Jatropha curcas. Toxic properties and inhibition of protein synthesis in vitro. Biochem J. 1976;156:1–6.

Stirpe F, Barbieri L, Battelli MG, Soria M, Lappi DA. Ribosomeinactivating proteins from plants: present status and future prospects. Nat Biotechnol. 1992;10:405–412.

Lin J, Yan F, Tang L, Chen F. Antitumor effects of curcin from seeds of Jatropha curcas. Acta Pharmacologica Sinica. 2003; 24:241–246.

Xu DD, Zhang B, Huang YD, Zhang QH, Su ZJ, Xu H, et al. Expression of recombinant curcin in Jatropha curcas L. and its anti-tumor activity in vitro. Medicinal Plant. 2012;8:68–71.

Lin J, Yu C, Ying X, Fang Y, Lin T, Fang C. Cloning and Expression of Curcin, a Ribosome-Inactivating Protein from the Seeds of Jatropha curcas. Acta Botanica Sinica. 2002;45:858–863. Luo MJ, Liu WX, Yang XY, Xu Y, Yan F, Huang P, et al. Cloning, expression, and antitumor activity of recombinant protein of curcin. Russ J Plant Physiol. 2007;54:202–206.

Dai X, Xiong Y, Xu D, Li L, Su Z, Zhang Q, et al. TfR Binding Peptide Screened by Phage Display Technology-Characterization to Target Cancer Cells. Trop J Pharm Res. 2014;13:331.

Zheng Q, Xiong YL, Su ZJ, Zhang QH, Dai XY, Li LY, et al. Expression of curcin-transferrin receptor binding peptide fusion protein and its anti-tumor activity. Protein Expr Purif. 2013;89:181–188.

Butt TR, Edavettal SC, Hall JP, Mattern MR. SUMO fusion technology for difficult-to-express proteins. Protein Expr Purif. 2005;43:1–9.

Su Z, Huang Y, Zhou Q, Wu Z, Wu X, Zheng Q, et al. High-level expression and purification of human epidermal growth factor with SUMO fusion in Escherichia coli. Protein Pept Lett.2006;13:785–92.

Anabousi S, Bakowsky U, Schneider M, Huwer H, Lehr CM, Ehrhardt C. In vitro assessment of transferrin-conjugated liposomes as drug delivery systems for inhalation therapy of lung cancer. Eur J Pharm Sci. 2006;29:367–374 .