With the aim to obtain targeted chemotherapeutic agents, imidazolium and ammonium-based folate salts were synthesized. Their photophysical behavior was investigated both in buffer and buffer/DMSO solution as well as in solid phase, performing UV-vis and fluorescence investigations. Properties of the aggregates were also analyzed by dynamic light scattering. Gelation ability of the salts was analyzed in biocompatible solvents, and gel phases obtained were characterized by determining critical gelation concentrations and gel-solution transition temperatures. Insights about gelator interactions in the tridimensional network were also gained performing ATR-FTIR investigation. Properties of soft materials were further analyzed performing rheology measurements, scanning electron microscopy, fluorescence and resonance light scattering investigations. Antiproliferative activity of organic salts was tested towards two breast cancer cell lines, expressing different levels of folate receptor, namely MDA-MB-231 and MCF-7, and a normal epithelial cell line, like h-TER T-RPE-1, by using MTT assay. Dichlodihydrofluorescein acetate test was performed to verify the role of oxidative stress in cell death. Finally, antiproliferative activity was also evaluated in gel phase, to verify if salts were able to retain biological activity also after the entrapment in the gelatinous network. Results collected evidence that folate based organic salts were able to behave as targeted chemotherapeutic agents both in solution and gel phase, showing uptake mechanism and selectivity indexes that depend on both cancer cell line nature and salt structure.

Rizzo C., Cancemi P., Buttacavoli M., Di Cara G., D'Amico C., Billeci F., et al. (2023). Insights about the ability of folate based supramolecular gels to act as targeted therapeutic agents. JOURNAL OF MATERIALS CHEMISTRY. B, 11(32), 7721-7738 [10.1039/d3tb01389h].

Insights about the ability of folate based supramolecular gels to act as targeted therapeutic agents

Rizzo C.
Primo
Investigation
;
Cancemi P.
Secondo
Investigation
;
Buttacavoli M.
Investigation
;
Di Cara G.
Investigation
;
D'Amico C.
Investigation
;
Billeci F.
Investigation
;
Marullo S.
Penultimo
Investigation
;
D'Anna F.
Ultimo
Supervision
2023-08-28

Abstract

With the aim to obtain targeted chemotherapeutic agents, imidazolium and ammonium-based folate salts were synthesized. Their photophysical behavior was investigated both in buffer and buffer/DMSO solution as well as in solid phase, performing UV-vis and fluorescence investigations. Properties of the aggregates were also analyzed by dynamic light scattering. Gelation ability of the salts was analyzed in biocompatible solvents, and gel phases obtained were characterized by determining critical gelation concentrations and gel-solution transition temperatures. Insights about gelator interactions in the tridimensional network were also gained performing ATR-FTIR investigation. Properties of soft materials were further analyzed performing rheology measurements, scanning electron microscopy, fluorescence and resonance light scattering investigations. Antiproliferative activity of organic salts was tested towards two breast cancer cell lines, expressing different levels of folate receptor, namely MDA-MB-231 and MCF-7, and a normal epithelial cell line, like h-TER T-RPE-1, by using MTT assay. Dichlodihydrofluorescein acetate test was performed to verify the role of oxidative stress in cell death. Finally, antiproliferative activity was also evaluated in gel phase, to verify if salts were able to retain biological activity also after the entrapment in the gelatinous network. Results collected evidence that folate based organic salts were able to behave as targeted chemotherapeutic agents both in solution and gel phase, showing uptake mechanism and selectivity indexes that depend on both cancer cell line nature and salt structure.
28-ago-2023
Rizzo C., Cancemi P., Buttacavoli M., Di Cara G., D'Amico C., Billeci F., et al. (2023). Insights about the ability of folate based supramolecular gels to act as targeted therapeutic agents. JOURNAL OF MATERIALS CHEMISTRY. B, 11(32), 7721-7738 [10.1039/d3tb01389h].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10447/607793
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