Abstract
Replicating virus vectors are attractive tools for anticancer gene therapy, but the potential for adverse events due to uncontrolled spread of the vectors has been a major concern. To design a tumor-specific retroviral replicating vector (RRV), we replaced the U3 region of the RRV ACE-GFP with a regulatory sequence consisting of the hepatitis B virus enhancer II (EII) and human α-fetoprotein (AFP) core promoter to produce ACE-GFP-EIIAFP, a hepatocellular carcinoma (HCC)-targeting RRV. Similar to ACE-GFP, ACE-GFP-EIIAFP exhibited robust green fluorescent protein (GFP) expression in HCC cells and, most importantly, it exhibited HCC-specific replication and did not replicate in non-HCC tumor cells or normal liver cells. We sequenced the promoter region of ACE-GFP-EIIAFP collected from serial infection cycles to examine the genomic stability of the vector during its replicative spread, and found that the vector could retain the hybrid promoter in the genome for at least six infection cycles. In vitro studies revealed that ACE-CD-EIIAFP and ACE-PNP-EIIAFP, which express the yeast cytosine deaminase and Escherichia coli purine nucleoside phosphorylase, respectively, exert a highly potent cytotoxic effect on HCC cells in the presence of their respective prodrugs. In vivo, ACE-CD-EIIAFP-mediated suicide gene therapy efficiently suppressed HCC tumor growth and no detectable RRV signal was observed in extratumoral tissues. These results suggest that the tumor-specific, suicide-gene-encoding RRV may fulfill the promise of retroviral gene therapy for cancer.
Highlights
Vectors derived from murine leukemia virus (MLV) have been widely employed for delivering genes to cancer cells in vitro and in vivo
The growth of hepatocellular carcinoma (HCC) infected with the targeted retroviral replicating vector (RRV) carrying the yeast cytosine deaminase (CD)[29] or the Escherichia coli purine nucleoside phosphorylase (PNP)[30,31] suicide gene was suppressed in the presence of their respective prodrugs: 5-fluorocytosine (5-FC) and fludarabine phosphate (F-araAMP)
The hybrid long terminal repeat (LTR) were generated by replacing the MLV U3 with a sequence consisting of the a human α-fetoprotein (AFP) enhancer domain B and the AFP core promoter or a chimeric sequence consisting of the hepatitis B virus (HBV) enhancer II (EII) and the AFP core promoter
Summary
Vectors derived from murine leukemia virus (MLV) have been widely employed for delivering genes to cancer cells in vitro and in vivo. To improve the gene delivery efficiency of retrovirus vectors, we have constructed a series of retroviral replicating vectors (RRVs) derived from MLV.[14,15,16,17] We have previously demonstrated that MLV-based RRVs containing transgenes inserted at the env-3′ untranslated region border can stably propagate over multiple infection cycles and transmit the inserted transgenes throughout a solid tumor in vivo, without detectable spread to extratumoral tissues.[18,19,20] it would be advantageous to incorporate additional mechanisms so that RRVs selectively target tumor cells and thereby minimize the risk to normal tissues. Transcriptional targeting of replication-defective retrovirus vectors to HCC cells can be achieved by introducing a human α-fetoprotein (AFP) promoter into the vector.[25,26] In the present study, we characterized two RRVs targeted to HCC by replacing the U3 region of LTR with a sequence consisting of the AFP core promoter fused to the AFP enhancer domain B or the enhancer II (EII) of the human hepatitis B virus (HBV). Our results demonstrate that highly efficient and tumor-specific cell killing can be achieved both
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