Background: The aim of this study was to establish a clinically relevant model for gene transfer to liver with an adenoviral vector encoding wild-type p53 as a first step toward use of this class of gene products in the treatment of primary and metastatic liver tumors.
Methods: Full-size or 50% hepatectomized rat livers were subjected to asanguineous portal perfusion with a replication-defective adenoviral vector encoding wild-type p53 (Ad5p53), whereas control animals received adenoviral vector encoding Escherichia coli beta-galactosidase (beta-gal) (Ad5LacZ) or Ringer's lactate only. Liver biopsy specimens, blood samples, and liver weight were serially obtained. Gene transfer and expression were confirmed by X-Gal staining for gamma-gal, DNA/RNA polymerase chain reaction, (PCR) and Western blots for p53 and beta-gal. Liver integrity was assessed by histologic findings, serum transaminase levels, and synthetic function.
Results: The gene transfer rate in whole liver and after hepatectomy ranged from 20% to 40%. DNA PCR showed Ad sequences in livers transduced with Ad5p53 and Ad5LacZ. RNA PCR and Western blot confirmed expression and production of recombinant wild-type p53. Liver regeneration was not affected by p53 gene transduction. Liver histologic findings and synthetic function were not different between transduced and control groups.
Conclusions: Ad5p53 gene transfer to full-size or hepatectomized livers is efficient. Liver regeneration and hepatocyte function are unaffected by overexpression of p53. Adenovirus-mediated tumor-suppressor transduction of the liver is a safe and promising adjuvant in cancer gene therapy.