Polymer decorated gold nanoparticles in nanomedicine conjugates

in #cancer8 years ago

Highlights

  • •Gold nanoparticles bioconjugates with biopolymers have immense potential for therapy on account of their SPR enhanced light scattering and absorption.
  • •AuNPs efficiently convert the absorbed light into localized heat, which can be exploited for the selective laser photothermal therapy of cancer.

Abstract

Noble metal, especially gold nanoparticles and their conjugates with biopolymers have immense potential for disease diagnosis and therapy on account of their surface plasmon resonance (SPR) enhanced light scattering and absorption. Conjugation of noble metal nanoparticles to ligands specifically targeted to biomarkers on diseased cells allows molecular-specific imaging and detection of disease. The development of smart gold nanoparticles (AuNPs) that can deliver therapeutics at a sustained rate directly to cancer cells may provide better efficacy and lower toxicity for treating cancer tumors. We highlight some of the promising classes of targeting systems that are under development for the delivery of gold nanoparticles. Nanoparticles designed for biomedical applications are often coated with polymers containing reactive functional groups to conjugate targeting ligands, cell receptors or drugs. Using targeted nanoparticles to deliver chemotherapeutic agents in cancer therapy offers many advantages to improve drug/gene delivery and to overcome many problems associated with conventional radiotherapy and chemotherapy. The targeted nanoparticles were found to be effective in killing cancer cells which were studied using various anticancer assays. Cell morphological analysis shows the changes occurred in cancer cells during the treatment with AuNPs. The results determine the influence of particle size and concentration of AuNPs on their absorption, accumulation, and cytotoxicity in model normal and cancer cells. As the mean particle diameter of the AuNPs decreased, their rate of absorption by the intestinal epithelium cells increased. These results provide important insights into the relationship between the dimensions of AuNPs and their gastrointestinal uptake and potential cytotoxicity. Furthermore gold nanoparticles efficiently convert the absorbed light into localized heat, which can be exploited for the selective laser photothermal therapy of cancer. We also review the emerging technologies for the fabrication of targeted gold colloids as imagining agents.

Graphical abstract

Schematic illustration of the targeted cancer cell death upon treatment of the guava leaf extracts immobilized gold nanoparticles (AuNP-Gua). AuNP@PEG-water-soluble flavonoids conjugates for “natural drug” delivery. Observed results show that the cell uptake of “natural drug” was enhanced by the AuNP@PEG conjugates, and the cytotoxicity of this delivery system is significantly enhanced compared with classical approach.

Keywords

  • Noble metal colloids
  • Biopolymer-based conjugates
  • Particle uptake
  • Surface plasmon
  • Aptamer
  • Polymer shell
  • Drug delivery
  • Cancer therapy

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© 2017 Elsevier B.V. All rights reserved.Note to users: Corrected proofs are Articles in Press that contain the authors' corrections. Final citation details, e.g., volume/issue number, publication year and page numbers, still need to be added and the text might change before final publication.Although corrected proofs do not have all bibliographic details available yet, they can already be cited using the year of online publication and the DOI , as follows: author(s), article title, journal (year), DOI. Please consult the journal's reference style for the exact appearance of these elements, abbreviation of journal names and use of punctuation.When the final article is assigned to an issue of the journal, the Article in Press version will be removed and the final version will appear in the associated published issue of the journal. The date the article was first made available online will be carried over.

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