|
|
|
|
|
|
Preparation of Au@TiO2-HMME and Its Photodynamic Efficiency |
YAO Cui-ping, WANG Jia-zhuang, WANG Jing, ZHANG Lu-wei, WANG Si-jia, ZHANG Zhen-xi* |
The Key Laboratory of Biomedical Information Engineering of Ministry of Education, and Institute of Biomedical Analytical Technology and Instrumentation, School of Life Science and Technology, Xi’an Jiaotong University, Xi’an 710049, China |
|
|
Abstract Photodynamic therapy (PDT) is a potential treatment method that has proven to be an efficient, safe, and minimally invasive technique. The technique mainly depends on photosensitizes to produce reactive oxygen species underthe irradiation of specific wavelengthlight, therefore causing specific killing to tumor cells and tissues. Among them, hematoporphyrinmonomethyl ether (HMME) mediated PDT has been used in clinical treatment of port wine stain (PWS) due to its single component, high yield of singlet oxygen and short light-sensitive period. In order to improve the efficiency of the PDT, we synthesized stable, monodispersecation Au nanospheres with absorption peak of 530 nm based on seed-growth. Poly-(sodium 4-styrenesulfonate) (PSS) was employed to modify Au nanospheres owing to its low toxicity and strong anion electrolytic activation. Then TiOH2+ coming from TiCl3 hydrolysis could be closely attached to negatively charged Au nanospheres through electrostatic attraction and further oxidation to obtain AuNP@TiO2 core-shell nanostructure. The TiO2 shell thickness could be adjusted by changing the NaHCO3 amount, then further mixing AuNP@TiO2 core-shell and HMME to form the conjugate. The obtained samples were characterized by UV-visible absorption spectroscopy, infrared spectroscopy, laser nanoparticle size analyzer and transmission electron microscope (TEM). The results showed that the core-shell nanostructures were stable and well-distributed. Otherwise, the cell killing experiments were performed with KB cells and LED array of 510 nm light source, and CKK-8 was used to evaluate the cell viability. The results showed that the conjugate improved PDT efficiency about 35% higher than that of HMME alone.
|
Received: 2017-04-07
Accepted: 2017-08-12
|
|
Corresponding Authors:
ZHANG Zhen-xi
E-mail: zxzhang@mail.xjtu.edu.cn
|
|
[1] Liu Y, Ma XQ, Jin P, et al. The Veterinary Journal,2011, 188(3): 325.
[2] Cheng J, Liang H, Li Q, et al. Journal of Photochemistry and Photobiology B: Biology,2010, 101(1): 9.
[3] Li B, Chen Z, Liu L, et al. Photodiagnosis and Photodynamic Therapy,2010, 7(3): 204.
[4] Huang Z. Photodiagnosis and Photodynamic Therapy,2006, 3(2): 71.
[5] Shi J, Ma R, Wang L, et al. International Journal of Nanomedicine,2013, 8: 2361.
[6] Zhang Z, Wang S, Xu H, et al. Journal of Biomedical Optics,2015, 20(5): 0510431.
[7] Yao C P, Zhang L W, Wang J, et al. J Nanomater,2016, 2016: 549713601.
[8] Fujishima A, Ohtsuki J, Yamashita T, et al. Photomed. Photobiol.,1986, 8: 45.
[9] Kotagiri N, Sudlow G P, Akers W J, et al. Nat Nanotechnol.,2015, 10(4): 370.
[10] He Y L, Wang S J, Zhang L W, et al. Journal of Biomedical Optics,2016, 21(12): 1280011.
[11] Fang C, Jia H, Chang S, et al. Energy & Environmental Science,2014, 7(10): 3431.
[12] Dougherty G M, Rose K A, Tok J B H, et al. Electrophoresis,2008, 29(5): 1131.
[13] Lekeufack D D, Brioude A, Mouti A, et al. Chemical Communications,2010, 46(25): 4544.
[14] Jing B, Zhang M, Shen T. Chinese Science Bulletin,1997, 42(23): 1937. |
[1] |
ZHANG Cong-cong1, LIU Lian-dong2, XIA Lei1, LI Xue3, ZHANG Xiao-kai1*. Preparation of ZnSe/ZnS Core-Shell Quantum Dots Under UV Irradiation[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2020, 40(11): 3409-3415. |
[2] |
SHI Ang-ang1, YU Hong-xia2, GU Min-fen1*, YANG Zhong-lin3, YANG Xue1. FTIR Spectroscopy of Core@Shell Structured Nickel-Hydrazine Nanocomposites[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2020, 40(10): 3136-3140. |
[3] |
LI Zhen-ya, HUANG Shi-ming*, GU Mu, LIU Xiao-lin. Preparation and Photoluminescent Properties of Ce3+-Activated LaPO4 Nanocrystals and Core/Shell Structure[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2015, 35(11): 3036-3040. |
[4] |
FENG Shi-qi1, SONG Wei1, WANG Yan2, MIAO Xin-hui1, XU Li-jun1, LIU Yu1, LI Cheng1, LI Wen-long1, WANG Yi-ran1, CAI Hong-xing1*. Scattering Properties of Core-Shell Structure of Mist Wrapped Dust Particles[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2014, 34(12): 3218-3223. |
[5] |
GUO Qiang, LI Chun, JIA Zhi-jun, YUAN Guang* . Effect of Silver/Zinc Selenide Core-Shell Structure Spheres on the Infrared Absorption Properties of Sodium Nitrate[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2013, 33(10): 2625-2628. |
[6] |
TAN En-zhong1, 2, YIN Peng-gang2*, HUANG Wei-feng2, YU Ge1, YU Chun-na1 . Preparation of Au@SiO2 Core-Shell Nanoparticles: Controlling the Optical Properties[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2012, 32(12): 3267-3270. |
[7] |
YAN Zhi-yun1, HU Xiao-yun1*, YE Yan-xi1, ZHANG De-kai1, MIAO Hui1, FAN Jun2, JIANG Zhen-yi3. Preparation and Luminescent Performance of Tb3+ Doped SiO2 Core-Shell Nanoparticles[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2011, 31(12): 3190-3193. |
|
|
|
|