The multimodal effect of Photothermal/Photodynamic/Chemo therapies mediated by Au-CoFe2O4 @Spiky nanostructure adjacent to mitoxantrone on breast cancer cells.

Abstract

Conventional cancer treatments are associated with a number of limitations, including non-selectivity, toxicity and multidrug resistance, so new nanotechnologies are being developed forcancer diagnosis and therapy. Phototherapy approach based on nanotechnology is a hopeful strategy to overcome these problems. Photothermal (PTT) and photodynamic therapies (PDT), in addition to having non-invasive properties, are known as promising methods for treatment of tumors. In this study, CoFe2O4 theranostic magnetic nanoparticles coated with spiky gold nanoparticles were designed and synthesized and its photothermal effects were evaluated in combination with the photodynamic and chemotherapeutic effects of mitoxantrone (MTX) under in vitro conditions. At first, CoFe2O4 @Spiky Au nanostructure was synthesized and after its characterization, cytotoxicity of MTX, CoFe2O4 @ Spiky Au (MGNS) and CoFe2O4 @ Au were determined on MDA-MB-231 cell line. Then, the concentrations required for inducing 50% cell death (IC50) and appropriate concentration for this study was obtained. Cells were irradiated by an 808nm laser and a non-synchronous light source at 670nm at the separate groups. The viability of treated cells was determined via MTT test 48h after treatment. In the groups receiving energy density (5-40) J/cm2, at the lower laser dose an increase in cell survival was observed (P<0.05) and then cell survival was decreased (P<0.05). In the groups receiving non-coherent light (2-18J/cm2) from the beginning, a decreasing trend in cell survival is observed. The overlap of the emission spectrum of the light source and the absorption spectrum of the nanostructure amplified the cell death. Similar to the Hormesis model reported for ionizing radiation effects, at low light doses with the bio-phasic response dose model, increased cell survival and proliferation can be expected.