Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0699790 (colon cancer)
 28,837 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In light of the discouraging results obtained with conventional chemotherapy of human colon cancer using 5-fluorouracil, we examined the effects of cis-diamminedichloroplatinum (cisplatin) alone and combined with 3'-deoxy-3'-azidothymidine (AZT) on chemotherapy of colorectal adenocarcinomas induced by dimethyldrazine in CD-1 mice. Thirteen weeks after a 20 week tumor induction period (15 mg/kg dimethylhydrazine weekly) groups of 19 mice were given either no therapy, or weekly cisplatin (6 mg/kg for 4 wks), AZT (400 mg/kg, wks 3 and 4), or cisplatin and AZT. Animals were autospied at death or after euthanasia on day 99 post initiation of therapy, their colons excised, fixed in buffered formalin and the number and volume of tumors measured. Cisplatin alone or with AZT decreased tumor size by 47-52%, and enhanced survival, leaving 55% of the mice alive at day 99 compared to 18% in controls. These therapeutic effects were amplified when animals were given chemotherapy during recovery from the effects of short-term dietary provision of the anti-carcinogenic steroid, dehydroepiandrosterone (DHEA). Our results suggest cisplatin is an effective chemotherapeutic agent against colon cancer in this murine model, and warrant further studies of its interaction with AZT and DHEA in enhancing this effect.
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PMID:Chemotherapy of murine colorectal carcinoma with cisplatin and cisplatin plus 3'-deoxy-3'-azidothymidine. 153 69

The chemosensitivities of 62 human colon cancer tissues, 67 rectal cancer tissues and 31 tumor-adjacent normal mucosal tissues were determined using the in vitro succinate dehydrogenase inhibition (SDI) test. These tissues obtained at the time of surgery were exposed to carboquone (CQ), adriamycin (ADM), mitomycin C (MMC), aclacinomycin A (ACR), cisplatin (DDP) and 5-fluorouracil (5-FU). The chemosensitivity was considered as positive when succinate dehydrogenase (SD) activity of the drug-treated cells decreased to below 50% of that of control cells, on day 3 of exposure. Decrease in the SD activity was noted in the colon cancer tissues, compared to the rectal cancer tissues, exposed to six antitumor drugs and in particular, to CQ (p less than 0.05), DDP (p less than 0.01) and ACR (p less than 0.05, one-sided paired t test). Decrease in the SD activity was noted in the tumor tissues, compared to the tumor-adjacent normal tissues, exposed to CQ, MMC and ACR (p less than 0.01). The sensitive rates were higher in the colon cancer tissues than the rectal cancer tissues, against all six antitumor drugs. Our findings show that the rectal cancer tissues are resistant to antitumor drugs, compared to the colon cancer tissues in vitro. When selecting antitumor drugs to treat patients with a rectal cancer, the assessment for chemosensitivity of the related tissues is crucial.
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PMID:Human colon cancer tissues are more sensitive than rectal cancer tissues to antitumor drugs in vitro. 199 40

Correlation between sensitivity to two cross-linking agents, 1-(4-amino-2-methylpyridine-5-yl)-methyl-3-(2-chloroethyl)-3-nitrosourea (ACNU) and cisplatin (DDP), and intracellular glutathione (GSH) level was investigated for two naturally drug-resistant human colon cancer cell lines in comparison with two drug-sensitive human leukemia cell lines. As a result, no appreciable correlation was observed between them. We also studied the possibility that DL-buthionine-S,R-sulfoximine (BSO), an inhibitor of GSH biosynthesis, can sensitize the cancer cells to these anticancer agents via depletion of intracellular GSH. It was found that BSO potentiated ACNU cytotoxicity against human leukemia K562 cells and DDP cytotoxicity against K562 and human colon cancer WiDr cells. It indicates that cancer cells with higher GSH level are more effectively sensitized by BSO regardless of degree of their intrinsic sensitivity to these anticancer agents. These results suggest that intracellular GSH level is not a common mechanism for natural resistance to cross-linking agents in human colon cancer cells but one of the determinants of sensitivity to these anticancer agents of GSH-rich cells.
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PMID:Intracellular glutathione levels in human colon cancer cells naturally resistant to cross-linking agents. 259 79

1-beta-D-Arabinofuranosylcytosine (ara-C) and hydroxyurea (HU) were investigated as possible inhibitors for the repair of cis-diamminedichloroplatinum(II) (DDP)-induced DNA damage. HU and ara-C were chosen for their known ability to inhibit DNA excision repair following UV irradiation. Work by several groups has suggested that the repair of DDP-induced DNA damage may involve an excision-repair mechanism. The cytotoxic effects of dose, exposure duration, and sequence for the three drugs was studied in a human colon cancer cell line (HT-29) by colony formation assays. Significant synergistic cytotoxicity was seen whether HU + ara-C were given prior to, or following DDP exposure. Cytotoxic synergy was also seen between HU + ara-C themselves. The effect of the combined antimetabolites on the level and persistence of DDP-induced DNA interstrand cross-links was assessed by DNA alkaline elution. These were measured as an indicator of DDP-DNA adduct formation and removal. When HU + ara-C exposure preceded or followed DDP treatment, higher levels of interstrand cross-linking were found at late time points than were seen with DDP alone, suggesting repair inhibition. We conclude that the combination of HU, ara-C, and DDP shows synergistic cytotoxicity, and that this effect may be due in part to inhibition of DDP-induced DNA adduct repair. The concentrations of drugs used in vitro are achievable in humans. On the basis of these results, a Phase I/II clinical trial of the three agents in combination has been initiated.
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PMID:1-beta-D-arabinofuranosylcytosine and hydroxyurea production of cytotoxic synergy with cis-diamminedichloroplatinum(II) and modification of platinum-induced DNA interstrand cross-linking. 292 95

We evaluated the cytotoxic and DNA cross-linking (CL) ability of four second generation platinum coordination complexes (TNO-6, JM-89, JM-8 and JM-9) delivered alone or in combination with 1-beta-D-arabinofuranosyl cytosine (ara-C) to human colon cancer cells (LoVo). Cell survival varied markedly as a function of the particular substitution moiety. JM-8 and JM-9 were virtually ineffective, even at concentrations as high as 50 micrograms/ml. At that concentration cis-diamminedichloroplatinum(II) (cis-DDP) killed greater than 99.99% of the cells. JM-82 was slightly more active while TNO-6 was the only derivative with appreciably higher cytotoxic activity due to an abrogation of the shoulder region of the type C survival curve. The highest CL effect was observed for cis-DDP followed closely by TNO-6. Very little CL effects were demonstrated for the other three analogs JM-82, JM-8 and JM-9 when measured 6 h after treatment. The combination of cis-DDP and ara-C augmented 10-fold the cytotoxic activity of cis-DDP alone, an effect accompanied by an almost 2-fold increase in CL; every other analog failed to interact in a potentiating manner (either cytotoxicity, or CL at 6 h) with the antimetabolite. Thus, it appears clear that the associated moieties of the Pt coordination complex play a fundamental role in reducing the interaction of the analogs with DNA (as reflected by the decreased CL and cytotoxic effects produced by each agent alone) and in totally preventing their interaction with ara-C to yield a potentiating lethal effect.
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PMID:Ligands of second generation platinum analogs decrease both platinum-induced DNA cross-linking and its ability to interact with 1-beta-D-arabinofuranosyl cytosine to potentiate cytotoxic efficacy. 353 74

Cisplatin plus 5-FU appears to have significant additive activity in various tumors, such as head and neck carcinoma and esophageal cancer. A partial explanation for this may be drug synergism, which has been noted in the L1210 leukemia model. Based on these data, a prospective trial of weekly bolus 5-FU (15 mg/kg) and cisplatin (60 mg/m2) given every 3 weeks was initiated at Indiana University. Forty-one patients, of whom 38 are fully evaluable for response, were treated with these two drugs. Ten partial and one complete response (complete + partial response rate = 29%) were observed in the 38 evaluable patients. Thirteen additional patients had stable disease for greater than or equal to 3 months. The median durations of remission and survival time were 6 and 10.3 months, respectively. Myelosuppression was unusually severe, with granulocyte counts less than 1000/mm3 in 65% of patients, including four patients with granulocyte count nadirs less than 100/mm3. Three patients developed granulocytopenic fever, with two drug-related deaths (sepsis, hyperosmolar coma). Nearly all patients had nausea and vomiting, but this was not a treatment-limiting toxic effect in any patient. Although this combination suggests a higher response rate than usually seen with bolus iv 5-FU in colon cancer, a trial comparing 5-FU alone or with cisplatin to determine whether true synergy exists is currently underway.
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PMID:Cisplatin plus 5-FU for the treatment of adenocarcinoma of the colon. 407 11

Autolymphocyte therapy (ALT) is adoptive cellular therapy of cancer using ex vivo activation of autologous peripheral blood lymphocytes (PBL). Memory T cells are the principal effector population in ALT, with in vivo activity in patients with metastatic renal cell carcinoma (RCC) and melanoma, and ex vivo cytotoxicity against autologous tumor targets. However, the noncytolytic lymphocyte portion of ex vivo-activated memory T cells (ALT cells) may also contribute as antitumor effectors. Pretreatment of murine and human tumor cells ex vivo with chemotherapeutic agents can enhance their susceptibility to antitumor lymphocytes ex vivo and in vivo. To determine whether cis-diamminedichloroplatinum(II) (DDP) could enhance ex vivo antitumor effects of ALT cells by immunomodulation, human breast and colorectal carcinoma target cells were derived from both primary and metastatic surgical specimens and incubated in complete medium (CM) with DDP or in CM alone (control group). Viability of each group was confirmed by trypan blue-dye exclusion test. ALT cells were prepared from autologous PBL at surgery. Primary and metastatic tumor cells from each group were used as targets for ALT cells and levels of interferon-gamma (IFN-gamma) release were measured as a determination of antitumor effect and recognition. Primary tumor target cells incubated in DDP showed enhanced antitumor effects and recognition by autologous ALT cells, as measured by the IFN-gamma assay compared to non-DDP-treated controls. Metastatic autologous tumor target cells demonstrated less IFN-gamma release than did the primary targets, although this was enhanced by pre-treating metastatic tumor targets with DDP. ALT cells demonstrated minimal IFN-gamma release when incubated with allogeneic tumor targets. These data suggest that autotumor recognition of metastatic tumor targets is comparable to that of primary lesions following ex vivo pretreatment of metastatic cells with nonlethal doses of certain chemotherapeutic agents. DDP may somehow alter the physical properties of target cells, rendering them susceptible to immune-mediated attack and the combination of ALT and DDP may lead to increased therapeutic efficacy in patients with metastatic breast and colon cancer.
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PMID:Adoptive cellular therapy of human breast and colorectal tumor targets using ex vivo activated memory T lymphocytes with potentiation by cis-diamminedichloroplatinum(II). 815 4

Cisplatin (CDDP) has a curative effect in approximately 80%, of patients with testicular cancer, in contrast to the frequent development of resistance in patients with small cell lung cancer and ovarian cancer, and to the natural resistance of colon cancer. At present it is unknown which factors explain the unique curability of testicular cancer. Since it is very likely that the absence or presence of specific proteins plays an important role in cellular sensitivity towards CDDP, we have screened the protein patterns of various human CDDP-sensitive cell lines and cell lines with acquired or intrinsic resistance to CDDP of testicular, lung and colon origin. The expression of several proteins appeared to correlate with in vitro CDDP sensitivity. The most striking difference found was a relative increase in expression lactate dehydrogenase (LDH) H-subunit expression in the germ cell lines. In testis and colon tumour samples some of these proteins, LDH-H included, also appeared to correlate with in vivo CDDP sensitivity. In the analysis of the mechanisms of drug-resistance, screening of the protein patterns of intrinsic sensitive and resistant cell lines could be a valuable approach.
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PMID:Expression of proteins correlated with the unique cisplatin-sensitivity of testicular cancer. 906 79

Activity catalysing double-strand DNA recombination has been investigated in human tumour cell lines using an in vitro assay in which nuclear extracts from tumour cells are used to catalyse homologous recombination between deletion plasmids. The cell lines investigated showed comparable constitutive levels of recombination activity. In several cell lines a two- fold to fourfold increase in the frequency of double-strand recombinational events catalysed by nuclear extracts was observed if the cells were exposed to low doses of ionizing radiation. The response was greatest for cells harvested at 6 h after radiation exposure, and the dose to produce an optimal effect was 25 cGy. Cell lines showing this response included a relatively radioresistant human colon cancer line and two cis-DDP (cis-diamminedichloroplatinum II) resistant ovarian tumour cell lines which are cross-resistant to radiation. Sub-lethal doses of cis-DDP were also effective in inducing upregulation of recombinational activity in the cis-DDP resistant cell lines. No change in recombinational activity was seen for radiation/drug-sensitive ovarian cell line following exposure to low drug or radiation doses. These findings are of particular interest since they involve a radiation-induced process with potential for direct involvement in DNA repair. Further studies will be aimed at determining if the extent of resistance to cytotoxic agents is causally related to the degree of inducible recombination activity.
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PMID:Low doses of ionizing radiation induce nuclear activity in human tumour cell lines which catalyzes homologous double-strand recombination. 912

Thioredoxin (TRX) is a widely distributed Mr 13,000 protein with a redox-active dithiol/disulfide in the active site. The TRX system, consisting of TRX, TRX reductase, and NADPH, has an intracellular reducing capacity. Another reducing capacity, glutathione (GSH), can be associated with cis-diaminedichloroplatinum (cDDP) resistance. Therefore, we examined the involvement of TRX in cDDP resistance using two cell lines designated St/DDP and HT/DDP, which were established from the human gastric cancer cell line St-4 and the colon cancer cell line HT-29. St/DDP and HT/DDP were seven and five times as resistant to cDDP as their parental lines, and the expression of TRX in these variants was increased by 2.5- and 2-fold, respectively. The expression of TRX in the complete revertant cells of St/DDP was reduced as low as that in St-4 cells. TRX reductase activity was also increased in St/DDP and HT/DDP, suggesting that activation of the TRX system was associated with in vitro-acquired cDDP resistance. Because cDDP is the first-line drug against ovarian cancer, we examined the expression of TRX in 11 human ovarian cancer cell lines not treated with cDDP in vitro. Positive correlation between TRX expression and cDDP resistance was observed in these cell lines (r = 0.76, P = 0.007). This correlation was comparable to that between GSH content and cDDP resistance (r = 0.69, P = 0.019). These results suggest a possible involvement of TRX, as well as GSH, in cDDP resistance.
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PMID:Increased expression of thioredoxin/adult T-cell leukemia-derived factor in cisplatin-resistant human cancer cell lines. 981 87


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