Water soluble, red emitting, carbon nanoparticles stimulate 3D cell invasion via clathrin-mediated endocytic uptake

Abstract: Bright, fluorescent nanoparticles with excitation and emission towards the red end of the spectrum are highly desirable in the field of bioimaging. We present here a new class of organic carbon-based nanoparticles (CNPs) with robust quantum yield and fluorescence towards the red region of the spectrum. Using organic substrates like para-phenylenediamine (PPDA) dispersed in diphenyl ether and reflux conditions, we achieved scalable amounts of CNPs of the average size of 25 nm. These CNPs were readily uptaken by… Show more

“…The multiwell microplate reader was used to measure absorbance at 570 nm. The cell viability percentage was calculated using equation 1 (18). …”

“…The invasion distance of the tumor cells from the surface of the 3D tumor models was calculated with the ImageJ software. The invasion index of the cells from the spheroid was observed with respect to control, and the invasion index was calculated using the following equation 4 (18). …”

Hypoxia modulates cellular endocytic pathways and organelles with enhanced cell migration and 3D cell invasion

“…The multiwell microplate reader was used to measure absorbance at 570 nm. The cell viability percentage was calculated using equation 1 (18). …”

“…The invasion distance of the tumor cells from the surface of the 3D tumor models was calculated with the ImageJ software. The invasion index of the cells from the spheroid was observed with respect to control, and the invasion index was calculated using the following equation 4 (18). …”

Hypoxia modulates cellular endocytic pathways and organelles with enhanced cell migration and 3D cell invasion