H. Xia scite author profile

Perfusion, hypoxia and nucleoside uptake during ganciclovir therapy were determined in a murine HSV-1 TK-expressing tumour model (KBALB-STK). HSV-1 TK mRNA transcription in this cell line was confirmed by RT-PCR. BALB/c mice bearing KBALB-STK tumours accumulated (E)-5-(2-[125I]iodovinyl)-2'-fluoro-2'-deoxyuridine ([125I]IVFRU) (2.54% injected dose.g-1) and could be readily detected with planar imaging following administration of [131I]IVFRU. However, a single dose of ganciclovir (100 mg.kg-1 intraperitoneally) decreased tumour uptake of [125I]IVFRU to 0.33% injected dose.g-1. Subsequent single daily doses of ganciclovir over 3 consecutive days had a negligible effect on [125I]IVFRU uptake, which remained low. Tumour perfusion during 3 days of ganciclovir treatment was monitored with intravenous [99Tcm]HMPAO. Tumour perfusion increased from day 0 (no ganciclovir treatment) with 1.83% injected dose.g-1 tumour, to a maximum at day 2 (3.77% injected dose.g-1). In the same animals, accumulation of [3H]misonidazole decreased from 0.70% injected dose.g-1 at day 0 to a minimum at day 3 (0.24% injected dose.g-1), indicating that tumour tissue had become less hypoxic over the ganciclovir regimen. The uptake of [125I]IVFRU into the acid insoluble fraction of KBALB-STK cells in vitro in the presence of ganciclovir (2.0 microM) was completely inhibited, leading to a 57% decrease in total cellular accumulation of radioactivity. However, cytosolic entrapment of [125I]IVFRU was not affected by the presence of ganciclovir. These results indicate that the mechanisms leading to IVFRU exclusion during ganciclovir treatment of HSV-1 TK-expressing tumours can be attributed, at least partially, to inhibition of [125I]IVFRU-nucleotide incorporation into DNA.

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H. Xia

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Reporter gene imaging: Effects of ganciclovir treatment on nucleoside uptake, hypoxia and perfusion in a murine gene therapy tumour model that expresses herpes simplex type-1 thymidine kinase

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