Carbon nanomaterials have been widely applied for cutting edge therapeutic applications as they offer tunable physio-chemical properties with economic scale-up options. Nuclear delivery of cancer drugs has been of prime focus since it controls important cellular signaling functions leading to greater anti-cancer drug efficacies. Better cellular drug uptake per unit drug injection drastically reduces severe side-effects of cancer therapies. Similarly, carbon dots (CDs) uptaken by the nucleus can also be used to set-up cutting edge nano delivery systems. In an earlier paper, we showed the cellular uptake and plasma membrane impact of combustion generated yellow luminescing CDs produced by our group from fuel rich combustion reactors in a one-step tunable production. In this paper, we aim to specifically study the nucleus by establishing the uptake kinetics of these combustion-generated yellow luminescing CDs. At sub-lethal doses, after crossing the plasma membrane, they impact the actin and microtubule mesh, affecting cell adhesion and migration; enter nucleus by diffusion processes; modify the overall appearance of the nucleus in terms of morphology; and alter chromatin condensation. We thus establish how this one-step produced, cost and bulk production friendly carbon dots from fuel rich combustion flames can be innovatively repurposed as potential nano delivery agents in cancer cells.

Carbon quantum dots in breast cancer modulate cellular migration via cytoskeletal and nuclear structure / Dinger, N., Russo, C., Fusco, S., Netti, P.A., Sirignano, M., Panzetta, V.. - In: NANOTOXICOLOGY. - ISSN 1743-5390. - 18:7(2024), pp. 618-644. [10.1080/17435390.2024.2419418]

Carbon quantum dots in breast cancer modulate cellular migration via cytoskeletal and nuclear structure

Dinger, Nikita;Fusco, Sabato;Netti, Paolo A.;Sirignano, Mariano
;
Panzetta, Valeria
2024

Abstract

Carbon nanomaterials have been widely applied for cutting edge therapeutic applications as they offer tunable physio-chemical properties with economic scale-up options. Nuclear delivery of cancer drugs has been of prime focus since it controls important cellular signaling functions leading to greater anti-cancer drug efficacies. Better cellular drug uptake per unit drug injection drastically reduces severe side-effects of cancer therapies. Similarly, carbon dots (CDs) uptaken by the nucleus can also be used to set-up cutting edge nano delivery systems. In an earlier paper, we showed the cellular uptake and plasma membrane impact of combustion generated yellow luminescing CDs produced by our group from fuel rich combustion reactors in a one-step tunable production. In this paper, we aim to specifically study the nucleus by establishing the uptake kinetics of these combustion-generated yellow luminescing CDs. At sub-lethal doses, after crossing the plasma membrane, they impact the actin and microtubule mesh, affecting cell adhesion and migration; enter nucleus by diffusion processes; modify the overall appearance of the nucleus in terms of morphology; and alter chromatin condensation. We thus establish how this one-step produced, cost and bulk production friendly carbon dots from fuel rich combustion flames can be innovatively repurposed as potential nano delivery agents in cancer cells.
2024
Carbon quantum dots in breast cancer modulate cellular migration via cytoskeletal and nuclear structure / Dinger, N., Russo, C., Fusco, S., Netti, P.A., Sirignano, M., Panzetta, V.. - In: NANOTOXICOLOGY. - ISSN 1743-5390. - 18:7(2024), pp. 618-644. [10.1080/17435390.2024.2419418]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11588/1020578
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