Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:3.5.4.1 (cytosine deaminase)
747 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

An attenuated strain of Salmonella typhimurium, designated VNP20009, was generated by deletion of the msbB and purl genes. When VNP20009 was administered intravenously (IV) to mice bearing spontaneous, syngeneic, or human xenograft tumors, the bacteria accumulated preferentially within the extracellular components of tumors, forming tumor-to-normal tissue ratios exceeding 300-1000 to 1. NVP20009 was administered safely at doses up to 2.5 x 10(9) cfu/kg in monkey toxicology studies. Based on the preclinical data, VNP20009 entered Phase I human clinical trials in November 1999, and has now been administered to >45 patients by IV or direct intratumoral injection. By the intratumoral route, a maximum tolerated dose has not been reached, and dose escalation continues past the current dose level of 4 x 10(7)/m2. Furthermore, VNP20009 persisted in injected tumors for at least 2 weeks in 8/11 patients treated to date. By 30-min IV administration, a maximum tolerated dose (MTD) of 3 X 10(8) cfu/m2 has been established. In all patients treated to date, VNP20009 was not shed in urine or stool. VNP20009 has been further modified by chromosomal insertion of an E. coli cytosine deaminase (CD) gene at the deltamsbB locus which, when expressed, converts 5-fluorocytosine (5-FC) to 5-fluorouracil (5-FU). The CD containing VNP20009 was designated TAPET-CD or VNP20029. TAPET-CD had similar efficacy and safety in murine tumor models and similar safety profiles in animal toxicology studies, compared to its parent VNP20009. Specifically, TAPET-CD had a reduced virulence of >10,000 fold, when compared to the wild-type Salmonella strain. It was well-tolerated at doses up to 2 x 10(6) cfu/mouse and 1 X 10(10) cfu/monkey. After an IV or direct tumor injection to tumor-bearing mice, TAPET-CD reached tumor levels as high as 10(8)-10(9) cfu/gm. When compared to the accumulation in liver or spleen, the normal tissues with the greatest colonization of TAPET-CD, tumor-to-normal tissue ratios of TAPET-CD were 300-1000 to 1. TAPET-CD also caused tumor growth inhibition of >90% in several murine tumor models. When 5-FC was administered by intraperitoneal (IP) injection once or 3 times daily to tumor-bearing mice that had been pre-treated with TAPET-CD, high levels of 5-FU (reaching 20-40 microM/g) were detected in the tumor, with low or undetectable 5-FU levels in normal tissues (e.g., spleen, liver, etc.). Furthermore, co-administration of 5-FC and TAPET-CD in 4 different murine tumor models enhanced anti-tumor activity compared to the significant anti-tumor activity of TAPET-CD alone, further confirming the benefit of the inserted CD gene. On the basis of the preclinical data, a Phase I clinical protocol is proposed in which advanced cancer patients will receive TAPET-CD by direct intratumoral injection and 5-FC. TAPET-CD will be administered on day 1. 5-FC will be given orally q8h daily beginning day 4 or when all toxicities of TAPET-CD have resolved to < or = grade 1, and continued for 14 days. Tumor tissues will be sampled to verify TAPET-CD colonization and to measure intratumoral 5-FC and 5-FU concentrations on day 8. A second sample of tumor tissue will be obtained between day 15-17 in selected patients to confirm the persistence of high levels of bacteria in tumor and to obtain a second measurement of 5-FC and 5-FU intra-tumoral concentrations. The TAPET-CD/5-FC treatment cycle will be repeated in appropriate patients on day 29.
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PMID:A phase I trial of genetically modified Salmonella typhimurium expressing cytosine deaminase (TAPET-CD, VNP20029) administered by intratumoral injection in combination with 5-fluorocytosine for patients with advanced or metastatic cancer. Protocol no: CL-017. Version: April 9, 2001. 1152 49

Adenovirus (Ad) gene transfer vectors traffic to regional lymph nodes (RLNs) after footpad injections in mice, resulting in localized production of interferon gamma (IFN-gamma). With this background, we evaluated the hypothesis that Ad vector administration may inhibit RLN tumor metastasis independent of the transgene in the expression cassette. Tumors of MM48, a cell line with a propensity toward lymphogenous metastasis, were established in the footpads of syngeneic C3H mice, and E1(-)E3(-) Ad vectors encoding no transgene (AdNull) or encoding an irrelevant transgene (AdCD; Escherichia coli cytosine deaminase with no 5-fluorocytosine administration) were administered (10(10) particles) in a peritumoral location. Both vectors suppressed the growth of tumor in the regional (popliteal) lymph node. This effect was localized to the regional, but not distant, lymph nodes (p < 0.05). Heat inactivation of the vector or decreasing the dose of the vector to 10(9) particles did not suppress RLN growth of the tumor when compared with 10(10) particles of active AdNull (p < 0.05 and p < 0.01, respectively). The ability of an E1(-)E4(-) vector expressing beta-galactosidase (AdRSVbetagal.11) to suppress RLN tumor growth showed that the E4 region of the Ad vector was not responsible for the effect. Blocking either IFN-gamma or natural killer (NK) cells with systemic antibody treatment in immunocompetent mice allowed rapid growth of RLN metastases despite Ad vector administration, and Ad vector injection into the footpads of tumor-free mice induced the accumulation of NK cells in the RLN. These data demonstrate that, in a metastatic murine tumor model, a low dose (10(10) particles) of replication-deficient Ad vectors inhibits RLN metastases independent of a therapeutic transgene, an effect that is mediated, at least in part, by IFN-gamma and NK cells.
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PMID:Adenovirus gene transfer vectors inhibit growth of lymphatic tumor metastases independent of a therapeutic transgene. 1153 67

TAPET-CD, a genetically engineered Salmonella strain with chromosomal-incorporated cytosine deaminase (CD) gene, has been shown to selectively accumulate tumors, suppress tumor growth, and convert 5-fluorocytosine (5-FC, an antifungal agent) to the antitumor agent 5-fluorouracil (5-FU) in animals. The current studies investigated the safety of TAPET-CD, and TAPET-CD/5-FC combination, in animals. In C57BL/6 mice (n = 10 females/dose), the maximum nonlethal dose of TAPET-CD (intravenous [IV] bolus) was 1 x 10(6) colony-forming units (cfu)/mouse, or > 10,000 x that of wild-type Salmonella. In Sprague-Dawley rats (n = 4/sex/group), after treatment with 4 weekly cycles of TAPET-CD (an IV injection/cycle at 1 x 10(5), 3 x 10(5), 1 x 10(6), 3 x 10(6), or 1 x 10(7) cfu/rat on day 1) and 5-FC (per os twice daily [PO b.i.d.], 250 mg/kg on days 2-7/cycle), clinical signs and mortality were evaluated daily, body weight and clinical pathology weekly, and gross necropsy on day 29. No treatment-related toxicity, although occasional and mild clinical signs (e.g., dehydration), increased hepatic enzyme/function values and white blood cells, splenic enlargement, and bilateral red discoloration of the kidneys, were observed. In cynolmogus monkeys, Experiment 1 involved treatment with TAPET-CD (IV injection at 1 x 10(9) cfu/monkey). Clinical signs and mortality were evaluated daily, body weight weekly, and gross necropsy on days 2, 7, and 31 (1/sex/time point). Experiment 2 involved treatment with TAPET-CD (IV injection at 1 x 10(9) and 1 x 10(10) cfu/monkey in Groups 1 to 3 and Groups 4 to 6, respectively) on day 1 and 5-FC (PO b.i.d. at 250, 500, and 1000 mg/kg in Groups 1 to 3, and 500, 1500, and 0 mg/kg in Groups 4 to 6, respectively) on days 4 to 17 (n = 1/sex/group). Clinical signs and mortality were evaluated daily; body weight and clinical pathology on days 1, 2, 4, 14, and 18; body temperature on days 1, 4, and 18; ophthalmic examinations on days 3 and 17; and gross necropsy and histopathology on day 18. Experiment 1 indicated that TAPET-CD at 1 x 10(9) or 1 x 10(10) cfu/monkey was well tolerated, with only occasional mild clinical signs (i.e., emesis, vomiting, inappetance, loose/infrequent/absence of stool), increases in hepatic enzyme/function values, and splenic enlargement. Experiment 2 indicated that TAPET-CD/5-FC combination had a maximum tolerated dose (MTD) of 1 x 10(10) cfu/monkey for TAPET-CD and 500 mg/kg for 5-FC in monkeys. Supra-MTDs induced renal toxicity. In conclusion, TAPET-CD had a good safety profile (reflected by the extremely large amount of TAPET-CD needed to induce mortality or toxicity) in mice, rats, and monkeys. More adverse events were observed with TAPET-CD/5-FC combination when compared to TAPET-CD and these events were similar to the reported effects of 5-FU, suggesting the involvement of 5-FU.
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PMID:Evaluation of the acute and subchronic toxic effects in mice, rats, and monkeys of the genetically engineered and Escherichia coli cytosine deaminase gene-incorporated Salmonella strain, TAPET-CD, being developed as an antitumor agent. 1156 16

Yeast cytosine deaminase (yCD)-based gene therapy offers the potential for selective production of the cytotoxic and radiosensitizing drug 5-fluorouracil (5-FU) from the benign prodrug 5-fluorocytosine within colorectal cancers. Although previous attempts to target therapy to colorectal cancer using the carcinoembryonic antigen (CEA) promoter have demonstrated specificity, this has been achieved at the cost of 10- to 300-fold loss in activity compared with strong but nonspecific rous sarcoma virus (RSV) or cytomegalovirus promoters. We developed a highly specific and active gene transfer method for colorectal cancer using CEA under control of a promoter-enhancer. We compared the RSV promoter-derived with the CEA promoter-enhancer-derived transgene expression in 10 different cell lines with differing CEA status. We found that the transgene expression resulting from both transient transfection and adenoviral infection with the CEA promoter-enhancer was as strong as the RSV promoter while maintaining specificity for CEA-producing cell lines. For instance, when we compared yCD expression between LoVo (CEA+) and human fibroblast (CEA-), we found a 30-fold-increased yCD expression in LoVo cells from CEA-enhancer adenovirus although there was no difference in the yCD expression between the cell lines when infected with RSV/yCD virus. This specificity was also achieved while maintaining a higher yCD enzyme activity than we obtained with RSV/yCD adenovirus in an HT-29 intrahepatic tumor model. We then compared the response of HT-29 xenografts to treatment with 5-fluorocytosine and yCD adenovirus driven by either the RSV or the CEA promoter-enhancer and found similar tumor growth inhibition. These findings suggest that the CEA promoter-enhancer strategy confers specificity while preserving activity and is worth exploring in additional animal and, potentially, clinical trials.
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PMID:High and selective expression of yeast cytosine deaminase under a carcinoembryonic antigen promoter-enhancer. 1195 93

The study was designed to evaluate whether TAPET-CD, an attenuated strain of Salmonella typhimurium expressing Escherichia coli cytosine deaminase (CD), was capable of converting nontoxic 5-fluorocytosine (5-FC) to the active antitumor agent 5-fluorouracil (5-FU). The antitumor effect of TAPET-CD plus 5-FC against subcutaneously implanted colon tumors was also evaluated. TAPET-CD was given to tumor-bearing mice by a single bolus intravenous administration followed with 5-FC by intraperitoneal administration. TAPET-CD accumulated in tumors at levels 1000-fold higher than that in normal tissues and high levels of 5-FU were detected in tumors in mice treated with both TAPET-CD and 5-FC. No 5-FU could be detected in normal tissues. Inhibition of tumor growth was observed in mice treated with either TAPET-CD alone or TAPET-CD in combination with 5-FC (TAPET-CD/5-FC), but not with 5-FC alone. TAPET-CD/5-FC inhibited tumor growth by 88%-96%, compared to TAPET-CD alone, which inhibited tumor growth by 38%-79%. These data suggest that tumor-targeting Salmonella could be used to deliver prodrug-converting enzyme selectively to tumors and produced anti-tumor effects when the corresponding prodrug was also given.
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PMID:Tumor-targeted Salmonella expressing cytosine deaminase as an anticancer agent. 1213 75

To evaluate whether in vitro and in vivo transferring of Escherichia coli cytosine deaminase gene to a solid tumor will confer the sensitivity to the prodrug 5-fluorocytosine (5FC) on these cells, we constructed two replication-defective adenovirus vector in which the cytosine deaminase gene was driven by CAG promoter (Adex1CACD) and AFP gene 5'-flanking region (Adex1AFPCD), respectively. By transferring these two vectors to SMMC7721AFP(-) and HepG2 human hepatocellular carcinoma (HCC) cells in vitro, we found that Adex1CACD vector could effectively suppress SMMC7721AFP(-) and HepG2 cells growing in the presence of 5FC even if the infected cell is less to 20%, while Adex1AFPCD vector only conferred HepG2 cells sensitivity to 5FC. When Adex1CACD was directly injected into established subcutaneous SMMC7721AFP(-) tumors in nude mice receiving 5FC, the tumor growth was inhibited significantly, which was consistent with those in vitro results. Furthermore, the Adex1AFPCD plus 5FC suppressed SMMC7721AFP(+) tumor growth in vivo, but not SMMC7721AFP(-) tumor. The results suggested that the CAG promoter-controlled CD gene could effectively mediate the growth inhibition in different kinds of HCC combined with administration of 5FC, and the AFP promoter-controlled CD gene could only suppress the HCCs expressing high levels of AFP. Therefore, adenovirus-mediated tumor-specific gene transfer may be a potential strategy for local control of tumor growth.
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PMID:Adenovirus-mediated tissue-specific cytosine deaminase gene therapy for human hepatocellular carcinoma with different AFP expression levels. 1241 26

Cancer gene therapy is an active area of research relying upon the transfer and subsequent expression of a therapeutic transgene into tumor cells in order to provide for therapeutic selectivity. Noninvasive assessment of therapeutic response and correlation of the location, magnitude, and duration of transgene expression in vivo would be particularly useful in the development of cancer gene therapy protocols by facilitating optimization of gene transfer protocols, vector development, and prodrug dosing schedules. In this study, we developed an adenoviral vector containing both the therapeutic transgene yeast cytosine deaminase (yCD) along with an optical reporter gene (luciferase). Following intratumoral injection of the vector into orthotopic 9 L gliomas, anatomical and diffusion-weighted MR images were obtained over time in order to provide for quantitative assessment of overall therapeutic efficacy and spatial heterogeneity of cell kill, respectively. In addition, bioluminescence images were acquired to assess the duration and magnitude of gene expression. MR images revealed significant reduction in tumor growth rates associated with yCD/5-fluorocytosine (5FC) gene therapy. Significant increases in mean tumor diffusion values were also observed during treatment with 5FC. Moreover, spatial heterogeneity in tumor diffusion changes were also observed revealing that diffusion magnetic resonance imaging could detect regional therapeutic effects due to the nonuniform delivery and/or expression of the therapeutic yCD transgene within the tumor mass. In addition, in vivo bioluminescence imaging detected luciferase gene expression, which was found to decrease over time during administration of the prodrug providing a noninvasive surrogate marker for monitoring gene expression. These results demonstrate the efficacy of the yCD/5FC strategy for the treatment of brain tumors and reveal the feasibility of using multimodality molecular and functional imaging for assessment of gene expression and therapeutic efficacy.
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PMID:Molecular imaging of gene expression and efficacy following adenoviral-mediated brain tumor gene therapy. 1292 Aug 60

The E. coli PNP suicide gene sensitizes solid tumors to nucleoside prodrugs, such as 6-methylpurine-2'-deoxyriboside (MeP-dR). In this study using lentiviral, MuLv, and HSV-based gene transfer, we quantified thresholds for inhibition of tumor growth and bystander killing by E. coli PNP and tested the role of intestinal flora in this process. Regressions of human glioma tumors following retroviral transduction exhibited dose dependence on both the level of PNP expression and the dose of MeP-dR administered, including strong tumor inhibition when 90-99% bystander cells comprised the tumor mass. A replication competent, non-neurovirulent herpes simplex virus (HSV) deficient in both copies of the gamma-1 34.5 gene was next engineered to express E. coli PNP under the egr-1 promoter (HSV-PNP). HSV-PNP injected intratumorally (17 million pfu/0.05 ml) in nude mice bearing 300 mg human glioma flank tumors produced a delay in tumor growth (approximately 24 days delay to one doubling). MeP-dR treatment after antibiotic therapy (to eliminate enteric flora encoding PNP enzymes) resulted in antitumor enhancement, with arrest of tumor growth (delay to doubling >50 days). Bystander killing of the magnitude described here has been difficult to accomplish with other suicide genes, such as HSV-tk or cytosine deaminase. The results establish a model for applying E. coli PNP to HSV treatment of glioma.
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PMID:Antibiotic-mediated chemoprotection enhances adaptation of E. coli PNP for herpes simplex virus-based glioma therapy. 1581 29

Combined treatment using adenoviral-directed enzyme/prodrug therapy and immunotherapy has the potential to become a powerful alternative method of cancer therapy. We have developed adenoviral vectors encoding the cytosine deaminase gene (Ad-CD) and cytosine deaminase:uracil phosphoribosyltransferase fusion gene (Ad-CD:UPRT). A monoclonal antibody, TRA-8, specifically binds to death receptor 5, one of two death receptors bound by tumor necrosis factor-related apoptosis-inducing ligand (TRAIL). The purpose of this study was to evaluate cytotoxicity in vitro and therapeutic efficacy in vivo of the combination of Ad-CD:UPRT and TRA-8 against human pancreatic cancer and glioma cell lines. The present study demonstrates that Ad-CD:UPRT infection resulted in increased 5-FC-mediated cell killing, compared with Ad-CD. Furthermore, a significant increase of cytotoxicity following Ad-CD:UPRT/5-FC and TRA-8 treatment of cancer cells in vitro was demonstrated. Animal studies showed significant inhibition of tumor growth of MIA PaCa-2 pancreatic and D54MG glioma xenografts by the combination of Ad-CD:UPRT/5-FC plus TRA-8 as compared with either agent alone or no treatment. The results suggest that the combination of Ad-CD:UPRT/5-FC with TRA-8 produces an additive cytotoxic effect in cancer cells in vitro and in vivo. These data indicate that combined treatment with enzyme/prodrug therapy and TRAIL immunotherapy provides a promising approach for cancer therapy.
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PMID:Combination of cytosine deaminase suicide gene expression with DR5 antibody treatment increases cancer cell cytotoxicity. 1608 79

The most used treatment for bone cancer pain is radiation; however, the mechanism responsible for analgesia after irradiation is unknown. The mechanistic influence of a single, localized 10-, 20- or 30-Gy dose of radiation on painful behaviors, osteolysis, histopathology and osteoclast number was evaluated in mice with painful femoral sarcomas. Dramatic reductions in pain behaviors (P < 0.05) and osteolysis (P < 0.0001) were seen in mice irradiated with 20 and 30 Gy. Irradiation reduced the tumor area by more than 75% (P < 0.05) but did not affect osteoclast frequency per mm2 tumor. Treatment with 20 Gy prior to tumor injection had no effect on tumor growth or pain behaviors, suggesting that radiation reduces osteolysis and pain through direct tumor effects. To demonstrate that tumor elimination was responsible for reduction in osteolysis and pain, sarcoma cells containing the suicide gene cytosine deaminase (CD) were inoculated into femora. After onset of bone cancer pain, mice were treated with the prodrug 5-fluorocytosine (5-FC). 5-FC treatment significantly reduced both osteolysis (P < 0.0005) and bone cancer pain (P < 0.05). The findings in this study demonstrate that one mechanism through which radiation decreases bone cancer pain is by direct effects on tumor cells.
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PMID:Radiation treatment decreases bone cancer pain through direct effect on tumor cells. 1618 42


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