Polydopamine-coated Au nanorods for targeted fluorescent cell imaging and photothermal therapy.
Boris Nikolayevich KhlebtsovAndrey Mikhailovich BurovTimofey Evgenevich PylaevNikolai G KhlebtsovPublished in: Beilstein journal of nanotechnology (2019)
Au nanorods (AuNRs) have attracted a great interest as a platform for constructing various composite core/shell nanoparticles for theranostics applications. However, the development of robust methods for coating AuNRs with a biocompatible shell of high loading capacity and with functional groups still remains challenging. Here, we coated AuNRs with a polydopamine (PDA) shell and functionalized AuNR-PDA particles with folic acid and rhodamine 123 (R123) to fabricate AuNR-PDA-R123-folate nanocomposites. To the best of our knowledge, such AuNR-PDA-based composites combining fluorescent imaging and plasmonic phothothermal abilities have not been reported previously. The multifunctional nanoparticles were stable in cell buffer, nontoxic and suitable for targeted fluorescent imaging and photothermal therapy of cancer cells. We demonstrate the enhanced accumulation of folate-functionalized nanoparticles in folate-positive HeLa cells in contrast to the folate-negative HEK 293 cells using fluorescent microscopy. The replacement of folic acid with polyethylene glycol (PEG) leads to a decrease in nanoparticle uptake by both folate-positive and folate-negative cells. We performed NIR light-mediated targeted phototherapy using AuNR-PDA-R123-folate and obtained a remarkable cancer cell killing efficiency in vitro in comparison with only weak-efficient nontargeted PEGylated nanoparticles. Our work illustrates that AuNR-PDA could be a promising nanoplatform for multifunctional tumor theranostics in the future.
Keyphrases
- quantum dots
- induced apoptosis
- cancer therapy
- cell cycle arrest
- high resolution
- reduced graphene oxide
- drug delivery
- living cells
- label free
- single cell
- fluorescent probe
- healthcare
- cell death
- sensitive detection
- photodynamic therapy
- endoplasmic reticulum stress
- drug release
- single molecule
- magnetic resonance
- cell therapy
- high throughput
- oxidative stress
- mesenchymal stem cells
- bone marrow
- current status