Modified Gold Nanoparticles to Overcome the Chemoresistance to Gemcitabine in Mutant p53 Cancer Cells.
Eduardo Garcia-GarridoMarco CordaniAlvaro SomozaPublished in: Pharmaceutics (2021)
Mutant p53 proteins result from missense mutations in the TP53 gene, the most mutated in human cancer, and have been described to contribute to cancer initiation and progression. Therapeutic strategies for targeting mutant p53 proteins in cancer cells are limited and have proved unsuitable for clinical application due to problems related to drug delivery and toxicity to healthy tissues. Therefore, the discovery of efficient and safe therapeutic strategies that specifically target mutant p53 remains challenging. In this study, we generated gold nanoparticles (AuNPs) chemically modified with low molecular branched polyethylenimine (bPEI) for the efficient delivery of gapmers targeting p53 mutant protein. The AuNPs formulation consists of a combination of polymeric mixed layer of polyethylene glycol (PEG) and PEI, and layer-by-layer assembly of bPEI through a sensitive linker. These nanoparticles can bind oligonucleotides through electrostatic interactions and release them in the presence of a reducing agent as glutathione. The nanostructures generated here provide a non-toxic and powerful system for the delivery of gapmers in cancer cells, which significantly downregulated mutant p53 proteins and altered molecular markers related to cell growth and apoptosis, thus overcoming chemoresistance to gemcitabine.
Keyphrases
- drug delivery
- gold nanoparticles
- wild type
- cancer therapy
- papillary thyroid
- oxidative stress
- gene expression
- squamous cell carcinoma
- small molecule
- mental health
- cell death
- locally advanced
- reduced graphene oxide
- copy number
- genome wide
- radiation therapy
- intellectual disability
- cell proliferation
- young adults
- high throughput
- pi k akt
- protein protein
- pluripotent stem cells