Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0027819 (neuroblastoma)
 27,800 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Lack of effective therapy of primary brain tumors has promoted the development of novel experimental approaches utilizing oncolytic viruses combined with gene therapy. Towards this end, we have assessed a conditionally replication-competent, gamma(1)34.5-deleted herpes simplex virus type 1 (HSV-1) expressing cytosine deaminase (CD) for treatment of malignant brain tumors. Our results are summarized as follows: (i) a recombinant HSV (M012) was constructed in which both copies of the gamma(1)34.5 gene were replaced with the bacterial CD gene, under the control of the cellular promoter Egr-1; (ii) M012-infected cells in vitro efficiently convert 5-fluorocytosine (5-FC) to 5-fluorouracil, thereby enhancing cytotoxicity of neighboring, uninfected cells; (iii) both direct and bystander cytotoxicity of murine neuroblastoma and human glioma cell lines after infection with M012 were demonstrated; (iv) direct intracerebral inoculation of A/J mice demonstrated lack of neurotoxicity at doses similar to G207, a gamma(1)34.5-deleted HSV with demonstrated safety in human patient trials and (v) intratumoral injection of M012 into Neuro-2a flank tumors in combination with 5-FC administration significantly reduced tumor growth versus tumors treated with R3659 combined with 5-FC, or treated with M012 alone. Thus, M012 is a promising new oncolytic HSV vector with an enhanced prodrug-mediated, antineoplastic effect that is safe for intracranial administration.
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PMID:Engineered herpes simplex virus expressing bacterial cytosine deaminase for experimental therapy of brain tumors. 1699 Aug 46

The success of cancer gene therapies requiring in vivo gene transfer is severely hampered by the low efficacy of gene transfer, which has been difficult to improve. We therefore established a novel strategy to increase the share of transduced cells post gene transfer. We hypothesized that in vivo selection of tumor cells transduced with a suicide gene effectively enriches these cells within a tumor, thus allowing for an increased bystander effect after the prodrug is given, leading to enhanced eradication of tumor cells. We reasoned that in vivo enrichment should be achieved by exploiting the metabolism of the suicide gene product. For this 'enrichment-eradication' strategy we chose a fusion gene of cytosine deaminase and uracil phosphoribosyl transferase. Positive selection (enrichment) was to be achieved by concurrently giving N-(phosphonacetyl)-L-aspartate, an inhibitor of pyrimidine de novo synthesis, which leads to pyrimidine depletion-mediated death of non-transduced cells, and cytosine, to rescue fusion gene expressing cells via the pyrimidine salvage pathway. Negative selection (eradication) was to be induced by giving the prodrug 5-fluorocytosine. Indeed, murine NXS2 neuroblastoma cells transduced with the fusion gene were effectively enriched in vitro, leading to a near-complete bystander effect. In vivo enrichment-eradication of NXS2 cells led to decreased tumor growth. This proof-of-principle study shows that enrichment-eradication may compensate the effects of low in vivo gene transfer efficacy, a major obstacle in cancer gene therapy.
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PMID:Enriching suicide gene bearing tumor cells for an increased bystander effect. 1702 30

The death ligand Apo2L/TRAIL (Apo2 ligand/tumor necrosis factor-related apoptosis-inducing ligand) eradicates many tumor types while sparing most normal tissues. However, some tumors are resistant to TRAIL. We therefore determined if TRAIL cooperates with cytosine deaminase/5-fluorocytosine (CD/5-FC) gene therapy and investigated the mechanisms involved. Transfection of human LAN-5 neuroblastoma cells with CD rendered the cells (LAN-5-CD) sensitive to 5-FC-induced, caspase-dependent apoptosis. Mediated by caspase-3, CD/5-FC and TRAIL cooperated to induce apoptosis in these TRAIL-resistant cells and to cleave X-linked inhibitor of apoptosis protein (XIAP). In established LAN-5-CD tumors growing subcutaneously in mice, intratumorally applied TRAIL did not decrease tumor growth and systemically administered 5-FC only attenuated tumor growth. In contrast, 5-FC together with TRAIL dramatically decreased tumor growth and eradicated a tumor. Assuming sufficient gene transfer of CD in situ, CD/5-FC with TRAIL may be useful for the therapy of tumors resistant to TRAIL.
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PMID:Cytosine deaminase/5-fluorocytosine gene therapy and Apo2L/TRAIL cooperate to kill TRAIL-resistant tumor cells. 1747 7