The synergistic effects of a three-functional hybrid material composed of methacrylic acid (MAA), quercetin(Q) and carbon nanotubes (CNT), with cisplatin (CP) was evaluated in human neuroblastoma cells. A threefunctionalhybrid material suitable for CP combination therapy was synthesized through the free radicalinducedreaction between methacrylic acid, quercetin and carbon nanotubes. Two-functional materialswere prepared and fully characterised by coupling CNT and MAA, as well as MAA and Q. A Folin–Ciocalteu assay was used to assess the functionalisation degree expressed as mg of Q per gram ofmaterials and we found to be 2.33 for CNT_PMAA_Q and 2.01 for PMAA_Q. The anticancer activity ofCNT_PMAA_Q was shown in human neuroblastoma cells using the Alamar blue cell proliferation assay.Successively, cells were treated with a combination of CP and the nanocomposite showing strongsynergistic anticancer effects in neuroblastoma cells. These studies showed that nanoparticleformulations incorporating quercetin and carbon nanotubes are good candidates for CP synergistictreatment against neuroblastoma.
Novel functional cisplatin carrier based on carbon nanotubes-quercetin nanohybrid induces synergistic anticancer activity against neuroblastoma in vitro
Spizzirri UG;Iemma F;
2014-01-01
Abstract
The synergistic effects of a three-functional hybrid material composed of methacrylic acid (MAA), quercetin(Q) and carbon nanotubes (CNT), with cisplatin (CP) was evaluated in human neuroblastoma cells. A threefunctionalhybrid material suitable for CP combination therapy was synthesized through the free radicalinducedreaction between methacrylic acid, quercetin and carbon nanotubes. Two-functional materialswere prepared and fully characterised by coupling CNT and MAA, as well as MAA and Q. A Folin–Ciocalteu assay was used to assess the functionalisation degree expressed as mg of Q per gram ofmaterials and we found to be 2.33 for CNT_PMAA_Q and 2.01 for PMAA_Q. The anticancer activity ofCNT_PMAA_Q was shown in human neuroblastoma cells using the Alamar blue cell proliferation assay.Successively, cells were treated with a combination of CP and the nanocomposite showing strongsynergistic anticancer effects in neuroblastoma cells. These studies showed that nanoparticleformulations incorporating quercetin and carbon nanotubes are good candidates for CP synergistictreatment against neuroblastoma.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.