Comparisons ofbiophysical properties andbioactivities ofmono-PEGylated endostatin andan endostatin analog
10.1186/s40880-016-0080-8
- Author:
Wang SHAN
1
;
Fu YAN
;
Luo YONGZHANG
Author Information
1. The National Engineering Laboratory for Anti-tumor Protein Therapeutics
- Keywords:
Endostatin;
PEGylation;
Antiangiogenic therapy;
Drug design;
Zinc-binding protein-endostatin
- From:Chinese Journal of Cancer
2016;(2):92-99
- CountryChina
- Language:Chinese
-
Abstract:
Background:Endostatin (ES) is a well-established potent endogenous antiangiogenic factor. An ES variant, called zinc-binding protein-ES (ZBP-ES), is clinically available; however, its use is limited by rapid renal clearance and short residence time. PEGylation has been exploited to overcome these shortcomings, and mono-PEGylated ES (called M2ES) as well as mono-PEGylated ZBP-ES (MZBP-ES) are developed in our study. This study aimed to compare the biophysical properties and biological effects of M2ES and MZBP-ES to evaluate their druggability. Methods:Circular dichroism and tryptophan emission lfuorescence were used to monitor the conformational changes of M2ES and MZBP-ES. Their resistance to trypsin digestion and guanidinium chloride (GdmCl)-induced unfolding was examined by Coomassie staining and tryptophan emission lfuorescence, respectively. The biological effects of M2ES and MZBP-ES on endothelial cell migration were evaluated using Transwell migration and wound healing assays, and the uptake of M2ES and MZBP-ES in endothelial cells was also compared by Western blotting and immunolfuorescence. Results:Structural analyses revealed that M2ES has a more compact tertiary structure than MZBP-ES. Moreover, M2ES was more resistant to trypsin digestion and GdmCl-induced unfolding compared with MZBP-ES. In addition, although M2ES and MZBP-ES showed comparable levels of inhibiting transwell migration and wound healing of endothelial cells, M2ES displayed an increased ability to enter cells compared with MZBP-ES, possibly caused by the enhanced interaction with nucleolin. Conclusions:M2ES has a more compact tertiary structure, is more stable for trypsin digestion and GdmCl-induced unfolding, exhibits increased cellular uptake and shows equivalent inhibitory effects on cell migration relative to MZBP-ES, indicating that M2ES is a more promising candidate for anticancer drug development compared with MZBP-ES.
