UMLS:C0027651 - FACTA Search

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Query: UMLS:C0027651 (tumor)
685,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

5-Fluorocytosine (5-FC) lacks antineoplastic activity in human subjects because of the absence of cytosine deaminase (CDase) in mammalian cells. Intratumoral conversion of 5-FC into 5-fluorouracil (5-FUra) by locally implanted capsules containing CDase followed by systemic administration of 5-FC can be expected to induce antineoplastic activity at a local site with minimal systemic toxicity. In vitro and in vivo experiments were performed to evaluate this hypothesis. Spectrophotometric analysis confirmed the deamination of 5-FC to 5-FUra by CDase extracted from cultivated Escherichia coli. In vitro studies showed that 5-FC combined with CDase induced significant growth-inhibitory effects on the cultured glioma cells. An active CDase capsule, made of cellulose tubing, was newly designed for local implantation. 5-FC concentrations in the s.c. tumors of the rats given these CDase capsules, followed by 5-FC administration, showed a sufficient amount of delivery of 5-FC to the tumor tissue. 5-FUra appearing in the tumor reached the level of 8.0 micrograms/g at 2 h and stayed at more than 1.0 microgram/g at between 1 and 6 h. Significant reduction of the tumor growth and cytotoxic changes were observed. The passive cutaneous anaphylaxis reaction demonstrated no allergic reaction to the host due to the capsule. These results suggest that this chemotherapeutic method is effective for human brain tumors.
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PMID:Antineoplastic effects in rats of 5-fluorocytosine in combination with cytosine deaminase capsules. 397 37

The 5' sequences from the human carcinoembryonic antigen gene (CEA) were analyzed using luciferase reporter gene assays. This analysis identified important cis-acting sequences needed for selective expression in CEA-positive cells. Over 50 CEA/luciferase reporter clones were constructed and analyzed in two CEA-positive and two CEA-negative cell lines. The CEA sequences analyzed extended from the translational start to 14.5 kb 5' of the CEA gene. A 408-bp region from the CEA 3' untranslated region was also examined for its effect on reporter gene activity. The CEA promoter was located between bases -90 and +69 of the transcriptional start site. Sequences between -41 and -18 were essential for expression from the CEA promoter. Multimerization of sequences between -89 and -40 resulted in copy number-related increases in both expression level and selectivity for CEA-positive cells. Two upstream regions of CEA, -13.6 to -10.7 kb or -6.1 to -4.0 kb, when linked to the multimerized promoter led to high-level, selective expression in CEA-positive cell lines. Several CEA/luciferase constructs demonstrated 80- to 120-fold higher expression in CEA-positive cell lines compared to expression in CEA-negative Hep3B cells. The expression from these constructs was quite strong in CEA-positive cells, being two- to four-fold higher than an SV40 enhancer/promoter construct. The most promising CEA transcriptional regulatory sequences were used to regulate the expression of cytosine deaminase (CD) in stable cell lines. The expression of CD was assessed directly by an enzymatic assay and indirectly by determining the in vitro IC50 to 5-fluorocytosine (5FC). The chimeric gene pCEA/CD-145 displayed the desired expression spectrum--high-level expression in the CEA-positive cells and low-level expression in CEA-negative cells. CD expression from this chimera correlated well with the expression of the endogenous CEA gene. Treatment of mice bearing NCI H508 pCEA/CD-145 tumor xenografts with 5FC lead to significant antitumor effects in vivo. The CEA/CD chimeric gene should be useful for tumor-specific suicide gene therapy of CEA-positive tumors.
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PMID:Transcriptional regulatory sequences of carcinoembryonic antigen: identification and use with cytosine deaminase for tumor-specific gene therapy. 757 7

To evaluate the concept that in vivo transfer of the Escherichia coli cytosine deaminase gene will confer sensitivity of a solid tumor to the prodrug 5-fluorocytosine (5FC), we constructed an adenovirus vector (AdCMV.CD) carrying the cytosine deaminase gene driven by the cytomegalovirus (CMV) promoter, infected HT29 colon carcinoma cells in vitro and in vivo, and evaluated cell growth over time. AdCMV.CD produced a functional cytosine deaminase protein in HT29 cells in vitro as evidenced by the ability of lysates from the infected cells to convert [3H]5FC to its active metabolite 5-fluorouracil (5FU). The AdCMV.CD vector effectively suppressed HT29 cell growth in vitro in the presence of 5FC in a dose-dependent manner. Infection with AdCMV.CD, when as few as 10% of cells expressed the cytosine deaminase gene, was associated with a bystander effect when combined with 5FC in cell mixing studies. Further, this bystander effect was not dependent on cell-to-cell contact as demonstrated by suppression of [3H]thymidine incorporation in HT29 cells when supernatant from AdCMV.CD-infected cells treated with 5FC was transferred cells. Consistent with these in vitro observations, when AdCMV.CD was directly injected into established subcutaneous HT29 tumors in nude mice receiving 5FC, there was a four-fold reduction in tumor size at day 15 compared to controls, and a five-fold reduction at day 28. These observations suggest that adenovirus-mediated gene transfer of the E. coli cytosine deaminase gene and concomitant administration of 5FC may have potential as a strategy for local control of the growth of tumor cells susceptible to 5FU.
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PMID:In vivo adenovirus-mediated gene transfer of the Escherichia coli cytosine deaminase gene to human colon carcinoma-derived tumors induces chemosensitivity to 5-fluorocytosine. 757 18

We have been developing an enzyme/prodrug gene therapy approach for the treatment of primary and metastatic tumors in the liver. This system uses the cytosine deaminase/5-fluorocytosine (CD/5-FCyt) enzyme/prodrug combination. Another system that has received considerable attention is the herpes simplex virus thymidine kinase/ganciclovir (HSV-TK/GCV) enzyme/prodrug combination. The purpose of the present study was to compare these two enzyme/prodrug systems. The human colorectal tumor cell line, WiDr, was genetically modified to express either the CD gene (WiDr/CD) or the HSV-TK gene (WiDr/TK). The IC50 (concentration of drug producing 50% inhibition of cell growth) for GCV was approximately 3.4 microM in WiDr/TK cells, while the IC50 for 5-FCyt was approximately 27 microM in WiDr/CD cells. In vivo antitumor studies were conducted using high but nontoxic levels of GCV (50 mg/kg/day) or 5-FCyt (500 mg/kg/day). When tumor xenografts were composed of 100% of cells expressing either HSV-TK or CD, 100% tumor-free animals were observed after GCV or 5-FCyt treatment, respectively. However, when only 10% of the tumor cells expressed HSV-TK, no antitumor effect by GCV treatment could be observed. In contrast, when tumors were composed of 4% of the cells expressing CD, 60% of the animals were tumor-free after 5-FCyt treatment. Transmission electron microscopy of the WiDr solid tumors revealed the presence of desmosomes but no gap junctions.
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PMID:Enzyme/prodrug gene therapy: comparison of cytosine deaminase/5-fluorocytosine versus thymidine kinase/ganciclovir enzyme/prodrug systems in a human colorectal carcinoma cell line. 758 11

The nonmammalian cytosine deaminase (CD) enzyme converts the nontoxic prodrug 5-fluorocytosine (5-FC) to the toxic metabolite 5-fluorouracil. Parental cells of a mammary adenocarcinoma (TSA-pc) of BALB/c mice were transfected with the CD gene (TSA-CD), and the ability of 5-FC to hamper their growth was evaluated. A quantity amounting to 0.5 mg of 5-FC/0.3 ml of medium inhibits the proliferation of TSA-CD cells, but not that of TSA-pc, nor that of TSA-pc transfected with neomycin-resistance gene only (TSA-neo). In BALB/c mice, 800 mg 5-FC/kg of body weight injected daily i.p. for 30 days causes total regression of incipient (1-day-old), and established (3- and 7-day-old) TSA-CD tumors, and of 3-day-old experimental lung metastases, but does not impair TSA-pc nor TSA-neo cell growth. Because in CD8+ T lymphocyte- and granulocyte-depleted mice 5-FC no longer impairs TSA-CD growth, immune mechanisms appear to play an important role in this regression. Following, regression, all mice are resistant to subsequent s.c. or i.v. lethal challenges with TSA-pc. The induction of this immune memory is dependent on CD4+ lymphocytes, whereas its effector phase depends on both CD4+ and CD8+ lymphocytes. The memory elicited in tumor-bearing mice by the 5-FC-dependent regression of TSA-CD tumors cures a significant number of mice with 4-day-old TSA-pc metastases, but does not impair the growth of 4-day-old solid s.c. tumors. The reliability of this regression and the subsequent establishment of an efficient immune memory against poorly immunogenic TSA-pc offer the prospect that CD-transduced tumor cells and 5-FC can be used as components of a live antitumor vaccine.
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PMID:5-Fluorocytosine-induced eradication of murine adenocarcinomas engineered to express the cytosine deaminase suicide gene requires host immune competence and leaves an efficient memory. 773 Jun 33

Several recent reports have demonstrated that anticancer drugs can be generated site-selectively at solid tumors by monoclonal antibody-enzyme conjugates targeted to antigens on tumor cell surfaces. The first step in this drug targeting approach involves the delivery of the enzyme conjugate to a tumor cell population. After the conjugate has localized within the tumor and cleared from non-target tissues, a relatively non-cytotoxic drug precursor (prodrug) is administered. Upon contact with the targeted enzyme, the prodrug is converted into a toxic drug. Several examples are presented to illustrate this targeting strategy. Monoclonal antibody-beta-lactamase conjugates have been developed to activate a panel of anticancer prodrugs that are mechanistically dissimilar. The antitumor activities of the monoclonal antibody-beta-lactamase conjugate/prodrug combinations exceed those obtained by systemic drug administration, and are immunologically specific. In another example involving targeted cytosine deaminase for the generation of 5-fluorouracil, it is shown that as much as 17 times more drug can be delivered within a tumor compared to when 5-fluorouracil is administered alone. The method of using targeted enzymes for prodrug activation can be extended to include prodrugs that release very potent drugs, such as palytoxin, a marine natural product, and to treat cells that have the multidrug resistance phenotype. Some of the requirements for successful therapy with this approach for cancer therapy are discussed.
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PMID:Selective activation of anticancer prodrugs by monoclonal antibody-enzyme conjugates. 788 77

The gene encoding cytosine deaminase (CD) has been expressed in the human colorectal carcinoma cell line WiDr. Metabolism studies confirm that tumor cells expressing CD convert the very nontoxic prodrug 5-fluorocytosine (5FCyt) to 5-fluorouracil (5FUra) and 5FUra metabolites. Tumor xenografts composed of CD-expressing cells can selectively generate tumor levels of > 400 microM 5FUra when the host mouse is dosed with nontoxic levels of 5FCyt. The selective metabolic conversion of 5FCyt to 5FUra in CD-expressing tumor cells results in the inhibition of thymidylate synthase and incorporation of 5FUra into RNA. 5FUra is also liberated into the surrounding environment when CD-expressing tumor cells are treated with 5FCyt. The liberated 5FUra is able to kill neighboring, non-CD-expressing tumor cells in vitro and in vivo. Most importantly, when only 2% of the tumor mass contains CD-expressing cells (98% non-CD-expressing cells), significant regressions in all tumors are observed when the host mouse is dosed with nontoxic levels of 5FCyt.
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PMID:Metabolism of 5-fluorocytosine to 5-fluorouracil in human colorectal tumor cells transduced with the cytosine deaminase gene: significant antitumor effects when only a small percentage of tumor cells express cytosine deaminase. 805 98

Successful expression of the cytosine deaminase (CD) suicide gene in vivo is demonstrated in three weakly immunogenic murine tumor models: the 102 and 205 fibrosarcomas and the 38 adenocarcinoma. Normal mammalian cells do not contain cytosine deaminase, but tumor cells transduced with retroviral vectors containing the CD gene metabolize the relatively nontoxic prodrug 5-fluorocytosine to the highly toxic 5-fluorouracil. In vitro cells expressing the CD gene are killed by 5-fluorocytosine while unmodified cells are not. When injected into syngeneic mice, CD+ tumors can also be eliminated in vivo by systemic treatment with 5-fluorocytosine without significant toxicity to the host. Animals whose CD+ tumors were eliminated with prodrug treatment resist subsequent rechallenge with unmodified wild type tumor. This posttreatment immunity appears to be tumor specific. Applications of the CD system in gene therapy models are discussed.
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PMID:Tumors expressing the cytosine deaminase suicide gene can be eliminated in vivo with 5-fluorocytosine and induce protective immunity to wild type tumor. 813 55

The selective delivery of anticancer drugs to tumors vs normal tissue using targeted antibody-enzyme conjugates for prodrug activation is limited by the amount of drug generated by blood-borne enzyme. Clearance of non-tumor-associated conjugate would increase the tumor/blood conjugate ratio, and enable larger amounts of prodrugs to be administered. A method for clearing the monoclonal antibody (mAb) conjugate L6-cytosine deaminase (L6-CD) was established by using an antibody raised against CD. The mAb 102-26 was obtained by immunizing BALB/C mice with CD conjugated to keyhole limpet hemocyanin. 102-26 was able to precipitate purified CD from solution as assessed by radioimmune precipitation and recognized CD in Western blot analyses. Similar studies were used to establish that 102-26 also recognized CD when conjugated to the L6 and 1F5 mAbs. Selective removal of L6-CD from the circulation of nude mice bearing H2981 human lung adenocarcinoma (L6-antigen positive) was achieved by injecting 102-26 24 h after L6-CD administration. High T/B ratios were obtained by clearance of a L6-CD (38:1 compared to 1.3:1 without clearance).
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PMID:Application of monoclonal antibodies against cytosine deaminase for the in vivo clearance of a cytosine deaminase immunoconjugate. 827 19

A human colorectal carcinoma cell line, WiDr, was genetically engineered to express the nonmammalian enzyme, cytosine deaminase (CD). Expression of CD in WiDr cells (WiDr/CD) did not alter the growth rate of these cells when grown in vitro or as solid tumor xenografts in nude mice. However, expression of CD did increase the sensitivity of these cells to the nontoxic prodrug, 5-fluorocytosine (FCyt), decreasing the 50% inhibitory concentration for FCyt from 26,000 microM in parental WiDr cells to 27 microM in WiDr/CD cells. The increase in sensitivity to FCyt in WiDr/CD cells was the result of the CD-mediated conversion of FCyt to 5-fluorouracil (FUra) and subsequent FUra anabolites. The half-life of the prodrug, FCyt, was determined to be approximately 40 min in nude mice. A single i.p. injection of 500 mg FCyt/kg body weight resulted in a transient FCyt plasma level of approximately 4000 microM while osmotic minipumps or constant tail vein infusions of FCyt achieved continual FCyt plasma levels of 5 microM and 50 microM, respectively, with no overt signs of toxicity. Significant antitumor effects were observed in nude mice bearing tumors derived from WiDr/CD cells when these animals were given 500 mg FCyt/kg i.p. for 10 consecutive days. These antitumor effects were demonstrated by decreases in tumor growth rate, tumor size, tumor weight, and thymidine incorporation into tumor DNA. This antitumor effect was significant but less profound if FCyt was administered by constant tail vein infusion. WiDr and WiDr/CD cells were very sensitive to FUra in vitro (50% inhibitory concentration approximately 5 microM). However, no significant antitumor effects were observed in nude mice bearing tumors derived from either WiDr or WiDr/CD cells when these animals were treated with various doses of FUra. Taken collectively, these data indicate that nontoxic plasma levels of FCyt can be attained which can produce profound antitumor effects on tumors engineered to express CD and that these antitumor effects are significantly better than those that can be achieved using FUra. These positive data support the continued development of a gene therapy approach to colorectal carcinoma involving the selective expression of CD in colorectal tumors with subsequent administration of FCyt.
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PMID:In vivo antitumor activity of 5-fluorocytosine on human colorectal carcinoma cells genetically modified to express cytosine deaminase. 840 37

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