Ultrasmall Carbon Nanodots as Theranostic Nanoheaters for Precision Breast Cancer Phototherapy: Establishing the Translational Potential in Tumor-in-a-Dish Models.
Giuseppina RoscignoAlessandra AffinitoCristina QuintavalleRoberta CillariGerolama CondorelliGennara CavallaroNicolò MauroPublished in: ACS biomaterials science & engineering (2024)
This study investigates the remarkable attributes of sulfur-doped carbon nanodots (CDs) synthesized in high yield and a narrow size distribution (4.8 nm). These CDs exhibit notable features, including potential bioelimination through renal clearance and efficient photothermal conversion in the near-infrared region with multicolor photoluminescence across the visible spectrum. Our research demonstrates high biocompatibility and effective near-infrared (NIR)-triggered photothermal toxicity when targeting mammospheres and patient-derived tumor organoids. Moreover, the study delves into the intricate cellular responses induced by CD-mediated hyperthermia. This involves efficient tumor mass death, activation of the p38-mitogen-activated protein kinase (MAPK) pathway, and upregulation of genes associated with apoptosis, hypoxia, and autophagy. The interaction of CDs with mammospheres reveals their ability to penetrate the complex microenvironment, impeded at 4 °C, indicating an energy-dependent endocytosis mechanism. This observation underscores the CDs' potential for targeted drug delivery, particularly in anticancer therapeutics. This investigation contributes to understanding the multifunctional properties of sulfur-doped CDs and highlights their promising applications in cancer therapeutics. Utilizing 3-D tumor-in-a-dish patients' organoids enhances translational potential, providing a clinically relevant platform for assessing therapeutic efficacy in a context mirroring the physiological conditions of cancerous tissues.
Keyphrases
- quantum dots
- drug delivery
- cancer therapy
- photodynamic therapy
- oxidative stress
- visible light
- signaling pathway
- cell death
- drug release
- small molecule
- energy transfer
- human health
- end stage renal disease
- stem cells
- gene expression
- cell proliferation
- squamous cell carcinoma
- high throughput
- risk assessment
- papillary thyroid
- endothelial cells
- metal organic framework
- peritoneal dialysis
- climate change
- cell cycle arrest
- fluorescence imaging
- young adults
- lymph node metastasis
- iron oxide