ABSTRACT
Objective To investigate the targeting ability and photoacoustic imaging of novel nanoparticle probe loaded with ZnPc and docetaxel.Methods The polymeric nanoparticles probe loaded with ZnPc and docetaxel were fabricated using double emulsion method.RGDfK was modified on the surface for breast carcinoma targeting by carbodiimide method.The encapsulating ratio (ER) and drug loading (DL) of ZnPc and docetaxel were assessed.The modification rate and targeting ability of molecular probe were tested in vitro,and the photoacoustic imaging and drug release profiles were observed.Results The probes were loaded with ZnPc and docetaxel efficiently and successfully.The size of novel nanoparticle loaded with ZnPc and docetaxel was (266.00 ± 65.85)nm,and the surface potential was (-29.20± 6.27)mV.ER and DL of docetaxel was (88.00±0.32)% and (34.92±0.02)μg/mg,of ZnPc was (97.25±0.22)% and (30.87±0.11)μg/mg,respectively.The probes had certain sustained slow release effect and showed obvious photoacoustic signals,which enhanced with the increase of the content of ZnPc.Flow cytometry detection results showed that the RGDfk modification rate was 89.19%.The apoptotic rate of novel nanoparticle loaded with ZnPc and docetaxel targeting breast carcinoma increased after the laser irradiation in vitro.Conclusion The new polymeric multifunctional nanoparticles probe has an ideal size and good photoacoustic signals,also the ability to target breast carcinoma cells and inhibit the proliferation of breast carcinoma cells efficiently.
ABSTRACT
Objective To investigate the ability of targeting in vitro breast carcinoma and photoacoustic-mediate apoptosis of breast carcinoma of the nanoparticle probe loaded with Fe3O4 and observe its consequence of photoacoustic imaging in vitro.Methods The polymeric multifunctional nanoparticles probe that was loaded with Fe3O4 and connected with Herceptin targeting breast carcinoma was prepared in the use of double emulsion method and carbodiimide method.General physical property,the condition of Herceptin connected with nanoparticles and the ability of targeting of the probe were tested.The different concentration of nanoparticles was imaged by photoacoustic.The inhibiting effect of targeting nanoparticles on breast carcinoma cells was evaluated in vitro.Results The targeting polymeric multifunctional nanoparticles probes loaded with Fe3O,were prepared successfully with average particle diameter of (235.4± 53.75)nm and Zeta potential (-13.4 ± 4.7)mV.Fe3O4 particles dispersed on the shell of the probes.Antibody Hereeptin was successfully connected with the surface of the nanoprobes.There were massive targeting nanoprobes surround the breast carcinoma cell strains SKBR3 in the targeting group in vitro.The photoascoustic signal of the nanoprobes enhanced with the increase of Fe3O4 concentration in photoacoustic experiment in vitro.The apoptotic rate of breast carcinoma increased after the laser irradiation in the cell inhibition experiment in vitro.That proved the obvious inhibition of breast carcinoma cells was caused by photothermal effect of the prepared nanoprobes.Conclusions The prepared polymeric multifunctional nanoparticles probe that was loaded with Fe3O4 and connected with Herceptin targeting breast carcinoma can be used as a photoacoustic contrast agent,which can inhibit the proliferation of breast carcinoma by targeting photoacoustic therapy.