To discuss how the mitochondrion is involved in low intensity ultrasound induced apoptosis, HepG2 cells were irradiated by low intensity focused ultrasound (ISPTA = 3W/cm2, 1 min) and then cultured from 3-12 h post irradiation in the study. The morphological alteration was examined by light and fluorescent microscopy respectively. Cell viability and apoptosis were examined by trypan blue staining and flow cytometry with double staining of FITC-labelled Annexin-V/PI. Key proteins responded to irradiation were screened out by sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE) and shotgun proteomic methods with Agilent 1100 HPLC-Chip-MS technology. Representative apoptotic morphological characteristics and increased percentage of apoptotic cells were achieved. Six important proteins (4 up-regulated and 2 down-regulated) were selected and analyzed. It revealed low intensity focused ultrasound could induce apoptosis in HepG2 cells and the US-induced apoptosis was mitochondria-dependent and caspases-dependent. Moreover, mitochondrial membrane permeability transition (MPT) is related to ultrasound induced apoptosis, but VDAC may be not the main MPT channel. Understanding it could help to assist the cancer therapy by regulating the MPT as the target.

1.
A.
Abdollahi
,
S.
Domhan
,
J. W.
Jenne
,
M.
Hallaj
,
G.
Dell’aqua
,
M.
Mueckenthaler
,
A.
Richter
,
H.
Martin
,
J.
Debus
,
W.
Ansorge
,
K.
Hynynen
, and
P. E.
Huber
,
The FASEB Journal
18
,
1413
1414
(
2004
).
2.
L. B.
Feril
and
T.
Kondo
,
Journal of Radiation Research
45
,
479
489
(
2004
).
3.
J. C.
Martinou
and
R. J.
Youle
,
Developmental Cell
21
,
92
101
(
2011
).
4.
Y.
Feng
,
Z. M.
Tian
,
M. X.
Wan
,
Journal of Ultrasound in Medicine
29
,
963
974
(
2010
)
5.
A. V.
Vaseva
,
N. D.
Marchenko
,
K.
Ji
,
S. E.
Tsirka
,
S.
Holzmann
and
U. M.
Moll
,
Cell
149
,
1536
1548
(
2012
).
6.
G.
Sass
,
R.
Barikbin
and
G.
Tiegs
,
Z Gastroenterol
50
,
34
40
(
2012
).
This content is only available via PDF.