The purpose of this study was to determine the efficacy of adenovirus-based
p53 gene therapy in the treatment of ovarian cancer using an intraperitone
al microscopic tumor animal model system.
Adenovirus-mediated wild-type p53 gene was introduced into the NIH:OVCAR-3
human ovarian cancer cell line in vitro and in vivo. In order to study micr
oscopic intraperitoneal tumor, athymic nude mice were inoculated intraperit
oneally (i.p.) with 1 x 10(7) OVCAR-3 cells and observed for tumor growth.
Three days after inoculation with OVCAR-3 cells, the mice were divided into
3 treatment groups. One group received three daily i.p. injections of 1 x
10(8) pfu Ad-CMV-p53, a second group received three daily i.p. injection of
1 x 10(8) pfu of the control adenovirus construct expressing beta galactos
idase (Ad-CMV-beta gal) and a third group received three daily i.p. injecti
ons of normal saline.
Adenovirus-mediated introduction of the wild-type p53 gene in the ovarian c
ancer cell line resulted in transient high levels of p53 protein for 24-48
h. Cell cycle analysis revealed G1 arrest, as well as the appearance of apo
ptosis. In vitro cell growth assays showed growth inhibition of cancer cell
s infected with Ad-CMV-p53 compared to cells infected with Ad-CMV-beta gal
or normal saline. There was a significant increase in survival in the Ad-CM
V-p53 adenovirus treated animals compared to the PBS treated animals (P = 0
.004). Likewise, the survival in Ad-CMV-p53 treated mice was also significa
ntly greater than mice treated with Ad-CMV-beta gal (P < 0.0001).
These results demonstrated that Ad-CMV-p53 treatment is effective in inhibi
ting tumor growth and prolonging survival in this microscopic cancer xenogr
aft model. The results of this study constitute a step in translating promi
sing in vitro and in vivo data from an adenovirus-based gene therapeutic mo
del system into practical and scientifically based human cancer therapeutic
trials.