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Green synthesis of fluorescent carbon nanodots from sage leaves for selective anticancer activity on 2D liver cancer cells and 3D multicellular tumor spheroids

Shadi Sawalha, Samer Abdallah, Amal Barham, Hala Badawi, Zeina Barham, Ahmad Ghareeb, Giuseppe Misia, Silvia Collavini, Alessandro Silvestri, Maurizio Prato, Mohyeddin Assali

2023Nanoscale Advances12 citationsDOIOpen Access PDF

Abstract

of CNDs). More interestingly, the cytotoxicity of the CNDs was tested in normal liver cell lines (LX2) revealed that the CNDs at all tested concentrations didn't affect their viability including at the highest concentration showing a viability of 86.7%. The cellular uptake mechanisms of CNDs were investigated and they are thought to be through energy-dependent endocytosis and also through passive diffusion. The main mechanisms of endocytosis were lipid and caveolae-mediated endocytosis. In addition, the CNDs have hindered the formation of 3D spheroids from the Hep3B hepatocellular carcinoma cell line. Hence, it would be concluded that the synthesized CNDs from sage are more highly selective to liver cancer cells than normal ones. The CNDs' cancer-killing ability would be referred to as the production of reactive oxygen species.

Topics & Concepts

EndocytosisCancer cellViability assayNanodotBiophysicsCytotoxicityCell cultureLiver cancerChemistryCancerCellCell biologyNanotechnologyBiochemistryBiologyMaterials scienceCancer researchHepatocellular carcinomaIn vitroGeneticsCarbon and Quantum Dots ApplicationsGraphene and Nanomaterials ApplicationsNanocluster Synthesis and Applications
Green synthesis of fluorescent carbon nanodots from sage leaves for selective anticancer activity on 2D liver cancer cells and 3D multicellular tumor spheroids | Litcius