Abstract
Microbubbles (MBs) in combination with ultrasound (US) can enhance cell membrane permeability, and have the potential to facilitate the cellular uptake of hydrophilic molecules. However, the exact mechanism behind US- and MB-mediated intracellular delivery still remains to be fully understood. Among the proposed mechanisms are formation of transient pores and endocytosis stimulation. In our study, we investigated whether endocytosis is involved in US- and MB-mediated delivery of small molecules. Dynamic fluorescence microscopy was used to investigate the effects of endocytosis inhibitors on the pharmacokinetic parameters of US- and MB-mediated uptake of SYTOX Green, a 600 Da hydrophilic model drug. C6 rat glioma cells, together with SonoVue (R) MBs, were exposed to 1.4 MHz US waves at 0.2 MPa peak-negative pressure. Collection of the signal intensity in each individual nucleus was monitored during and after US exposure by a fibered confocal fluorescence microscope designed for real-time imaging. Exposed to US waves, C6 cells pretreated with chlorpromazine, an inhibitor of clathrin-mediated endocytosis, showed up to a 2.5-fold significant increase of the uptake time constant, and a 1.1-fold increase with genistein, an inhibitor of caveolae-mediated endocytosis. Both inhibitors slowed down the US- mediated uptake of SYTOX Green. With C6 cells and our experimental settings, these quantitative data indicate that endocytosis plays a role in sonopermeabilization-mediated delivery of small molecules with a more predominant contribution of clathrin-mediated endocytosis.
Original language | English |
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Article number | 046010 |
Number of pages | 11 |
Journal | Physical biology |
Volume | 12 |
Issue number | 4 |
DOIs | |
Publication status | Published - Jul 2015 |
Keywords
- sonoporation
- endocytosis
- drug delivery
- pharmacokinetic parameters
- real time
- fibered confocal fluorescence microscopy
- BLOOD-BRAIN-BARRIER
- CONFOCAL FLUORESCENCE MICROSCOPY
- MICROBUBBLE-TARGETED DELIVERY
- ULTRASOUND IN-VITRO
- FOCUSED ULTRASOUND
- INTRACELLULAR DELIVERY
- ACOUSTIC CAVITATION
- PLASMID DNA
- SONOPORATION
- MEMBRANE