Cancer is one of the leading causes of death in the world. To challenge this epidemic, there are growing demands for the development of new advanced and targeted therapeutics capable of effectively tackling cancer cells with improved selectivity. Nanomedicine has put forward several innovative therapeutics toward improving therapeutic efficacy while decreasing the deleterious side effects of current chemotherapy. Multifunctional gold nanoparticles (AuNPs) have been at the core of a plethora of advanced therapeutic strategies that provide selective targeting with their unique optical properties, capable to interact with the light of specific wavelength to deliver therapy with tremendous spatiotemporal precision. AuNPs have been exploited as photodynamic and photothermal therapeutic agents alone or in combination with other cancer treatment modalities with other cancer applications. Due to their exceptional physicochemical properties, they have been proven efficacious allies for photodynamic therapy and for photothermal therapy regimens. Herein, the rapidly progressing literature related to the use of these promising strategies against cancer is discussed, highlighting their possible future clinical translation.
Estradiol-BODIPY linked via an 8-carbon spacer chain and 19-nortestosterone- and testosterone-BODIPY linked via an ethynyl spacer group were evaluated for cell uptake in the breast cancer cell lines MCF-7 and MDA-MB-231 and prostate cancer cell lines PC-3 and LNCaP, as well as in normal dermal fibroblasts, using fluorescence microscopy. The highest level of internalization was observed with 11β-OMe-estradiol-BODIPY 2 and 7α-Me-19-nortestosterone-BODIPY 4 towards cells expressing their specific receptors. Blocking experiments showed changes in non-specific cell uptake in the cancer and normal cells, which likely reflect differences in the lipophilicity of the conjugates. The internalization of the conjugates was shown to be an energy-dependent process that is likely mediated by clathrin- and caveolae-endocytosis. Studies using 2D co-cultures of cancer cells and normal fibroblasts showed that the conjugates are more selective towards cancer cells. Cell viability assays showed that the conjugates are non-toxic for cancer and/or normal cells. Visible light irradiation of cells incubated with estradiol-BODIPYs 1 and 2 and 7α-Me-19-nortestosterone-BODIPY 4 induced cell death, suggesting their potential for use as PDT agents.
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