Sensitisation of human carcinoma cells to the prodrug CB1954 by adenovirus vector-mediated expression of E. coli nitroreductase.

The enzyme nitroreductase from E. coli can reduce the weak, monofunctional alkylating agent 5-(aziridin-1-yl)-2, 4-dinitrobenzamide (CB1954) to a potent cytotoxic species that generates interstrand crosslinks in DNA. Nitroreductase therefore has potential as a "suicide enzyme" for cancer gene therapy, as cells that express nitroreductase become selectively sensitive to the prodrug CB1954. We have incorporated a nitroreductase expression cassette into a replication-defective adenovirus vector (Ad-CMV-ntr), which allowed efficient gene transfer to SK-OV-3 or IGROV-1 ovarian carcinoma cells. Nitroreductase levels increased in line with multiplicity of infection, and this was reflected in increasing sensitisation of the cells to CB1954, reaching an optimum (approx. 2, 000-fold sensitisation) with 25-50 p.f.u. per cell. Similar Ad-CMV-ntr-dependent sensitisation to CB1954 was seen in 3 of 6 low-passage primary ovarian tumour lines. Cells grown at low-serum concentration to inhibit proliferation remained equally susceptible to the Ad-CMV-ntr-dependent cytotoxicity of CB1954, indicating a distinct advantage over retroviral gene delivery and other popular enzyme-prodrug systems for human tumours with a low rate of cell proliferation. Additionally, cisplatin-resistant cells were sensitised towards CB1954 by Ad-CMV-ntr as efficiently as the parental cells, indicating that the system could be effective in patients with cisplatin-resistant tumours. In a murine xenograft model for disseminated peritoneal carcinomatosis with ascites, treatment of nude mice bearing intraperitoneal SUIT2 tumours with Ad-CMV-ntr and CB1954 almost doubled the median survival from 14 to 26 days (p < 0.0001).

Virus-directed enzyme prodrug therapy using CB1954.

The virus-directed enzyme prodrug therapy (VDEPT) anti-cancer 'gene therapy' strategy relies on the use of viral vectors for the efficient delivery to tumour cells of a 'suicide gene' encoding an enzyme which converts a non-toxic prodrug to a cytotoxic agent. The prodrug 5-(aziridin-1-yl)-2,4 dinitrobenzamide, CB1954, has been proposed for use in enzyme-prodrug gene therapy systems with the Escherichia coli enzyme nitroreductase (Ntr). Ntr converts CB1954 to 2- and 4-hydroxylamino derivatives, whereupon the non-enzymatic reaction of the 4-hydroxylamino derivative with cellular thio- esters generates a potent cytotoxic bifunctional alkylating agent capable of cross-linking DNA. Ntr delivery has been achieved in vitro using retroviral and adenoviral vectors and confirmed by immunocytochemical demonstration of Ntr expression. The Ntr-expressing cells have been shown to be sensitized to CB1954 by up to 2000-fold. The Ntr-CB1954 system shows effective bystander killing in mixed populations of Ntr-expressing and non-expressing cells treated with CB1954. The efficacy of this enzyme-prodrug approach in model systems compared with other VDEPT approaches demonstrates the feasibility and future promise of this gene therapy strategy.