Targeted antitumor effects of C-PC/CMC-CD55sp nanospheres on cervical carcinoma Caski cells
10.3872/j.issn.1007-385x.2018.12.003
- VernacularTitle:CPC/CMC-CD55sp纳米微球对宫颈癌Caski细胞的靶向杀伤作用
- Author:
LIU Huihui
1
;
JI Huanhuan
1
;
ZHU Feng
1
;
JIANG Liangqian
1
;
LIU Guoxiang
1
;
LI Bing
2
Author Information
1. (Department of Biology,Faculty of Medicine, Qingdao University
2. (Department of Biology,Facultyof Medicine, Qingdao University
- Publication Type:Journal Article
- Keywords:
C-phycocyanin(CPC);
carbocymethyl chitosan(CMC);
CD55-specific ligand peptide (CD55sp);
nanoparticles;
Caski cell
- From:
Chinese Journal of Cancer Biotherapy
2018;25(12):1223-1229
- CountryChina
- Language:Chinese
-
Abstract:
Objective: To prepare a new type of phycocyanin/carboxymethyl chitosan-CD55 ligand peptide (CPC/CMC-CD55sp) nanospheres, and to study its targeted therapeutic effect on cervical cancer Caski cells. Methods: The novel CPC/CMC-CD55sp nanospheres (CPC/CMC-CD55sp) were synthesized by ionic cross-linking method, and the properties of nanospheres were observed by transmission electron microscopy (DLS) and fourier transform infrared spectroscopy (FTIR). The expression of CD55 on the surface of Caski and fibroblast (L-929) cells was detected by Western blotting and flow cytometry. The effect of nanospheres on the proliferation of Caski cells was detected by CCK-8. Flow cytometry and fluorescence microscopy were used to detect the uptake of microspheres by Caski cells; Western blotting and flow cytometry were used to detect the effect of CPC/CMC-CD55sp on expressions of apoptosis-related proteins and apoptosis rate in Caski cells; the hemolysis test was used to determine the biological safety of the drug. Results: CPC/ CMC-CD55sp was successfully prepared with good morphology and uniform diameter; and CD55 was highly expressed on the surface of Caski cells but low expressed on the surface of L-929 cells (P<0.01). CPC/CMC-CD55sp could targeted and efficiently reach Caski cells and be ingested into the cells. It exhibited weak hemolysis effect on human peripheral blood, which was in the safe range. CPC/ CMC-CD55sp displayed obvious inhibitory effect on Caski cell proliferation, and could induce cell apoptosis (P<0.05 or P<0.01). Conclusion: The new CPC/CMC-CD55sp can targeted inhibit the growth of cervical cancer Caski cells via inducing its apoptosis and has good bio-safety, which provides a new idea for the research and development of anti-tumor marine drugs.
- Full text:20181203.pdf