Ultrasound Gene Transfer into Fibroblast Cells using Microbubbles.

Autor: Nakamura, Yoji, Hirayama, Kota, Yoshinaka, Kiyoshi, Tei, Yuichi, Takagi, Shu, Matsumoto, Yoichiro
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Zdroj: AIP Conference Proceedings; 4/14/2009, Vol. 1113 Issue 1, p433-437, 5p, 1 Chart, 5 Graphs
Abstrakt: Ultrasound is widely applied in the medical field and offers the strong advantages of non-invasiveness and high-selectivity. Gene transfer using ultrasound, which is called sonoporation, is one application. Ultrasound has the potential to deliver therapeutic materials such as genes, drugs or proteins into cells. Microbubbles are known to be able to improve delivery efficiency. This is attributed to therapeutic materials passing through the cell membrane after permeability is increased by destruction or oscillation of microbubbles. The present study tried to deliver the GFP plasmids into fibroblast cells. Cells were cultured in 6-well culture plates and exposed to ultrasound (frequency, 2.1 MHz; wave pattern, duty cycle 10%; intensity, 0–26 W/cm2; time, 0–200 s) transmitted through medium containing microbubbles (Levovist® (void fraction, 8×10-5) or Sonazoid® (void fraction, 0–24×10-4)) and GFP plasmids at a concentration of 15 μg/mL. Density of microbubbles after ultrasound irradiation was measured. When ultrasound intensity was increased with Levovist® 8×10-4, transfection efficiency increased, cell viability decreased and microbubbles disappeared. With Sonazoid®, transfection efficiency and cell viability were basically unchanged and microbubbles decreased, but did not disappear. Transfection efficiency also improved with increased ultrasound irradiation time or microbubble density. Microbubble destruction appeared to have the main effect on gene transfection under Levovist® and microbubble oscillation had the main effect under Sonazoid®. [ABSTRACT FROM AUTHOR]
Databáze: Complementary Index