Phthalocyanine-based mesoporous organosilica nanoparticles: NIR photodynamic efficiency and siRNA photochemical internalization.

Authors :: Ekineker G
Nguyen C
Bayır S
Dominguez Gil S
İşci Ü
Daurat M
Godefroy A
Raehm L
Charnay C
Oliviero E
Ahsen V
Gary-Bobo M
Durand JO
Dumoulin F
Source :: Chemical communications (Cambridge, England) [Chem Commun (Camb)] 2019 Sep 24; Vol. 55 (77), pp. 11619-11622.
Publication Year :: 2019
Abstract: Mesoporous organosilica nanoparticles (PHT-PMO) have been prepared from an octa-triethoxysilylated Zn phthalocyanine precursor. These PHT-PMO nanoparticles had no dark toxicity but high phototoxicity when irradiated at 650 nm, and remarkable near-infrared phototoxicity when excited at 760 and 810 nm. The PHT-PMO were then aminated to promote electrostatic complexation with siRNA. Transfection experiments were performed upon NIR irradiation and photochemical internalization was very efficient, leading to 65% luciferase extinction in MCF-7 cancer cells expressing stable luciferase.

Subjects :: Cell Survival
Cetrimonium chemistry
Humans
Infrared Rays
Isoindoles
Luciferases genetics
MCF-7 Cells
Photochemical Processes
Porosity
RNA, Small Interfering metabolism
Static Electricity
Surface Properties
Zinc Compounds
Indoles chemistry
Nanoparticles chemistry
Organometallic Compounds chemistry
Photochemotherapy methods
RNA, Small Interfering chemistry
Silanes chemistry

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