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)

Oxaliplatin is a new platinum analog of the DACH family. Recent preclinical data have confirmed its non overlapping spectrum of activity with cisplatin, including acquired and intrinsic platinum resistant cell lines (as KB-CP, A 2780, HT29, CaCo2 colon cancer). When combined with other cytotoxic agents (5FU, SN38, CDDP, carboplatin), oxaliplatin has additive and/or synergistic antitumoral effects on various in vitro and in vivo models (colon, breast, ovarian and epidermoid tumors). Phase II trials have confirmed a sensorial peripherical neuropathy as its limiting toxicity while neither ototoxicity nor renal toxicities and only limited myelotoxicity were noted. Available phase II studies have established its antitumoral activity as single agent in 5FU refractory colon carcinoma while preliminary results suggest efficacy in cisplatin resistant ovarian cancer, in non small cell lung cancer, non Hodgkin lymphoma. Antitumoral activity has been observed during phases 1 in melanoma, glioma, breast and oesophageal cancers. A high response rate (28-65%) with the triple association (FU/folinic acid/oxaliplatin) has been reported in advanced colon cancer treated in first and second line settings. The results of two randomized phase III studies (FU/folinic acid +/- oxaliplatin) are expected. The oxaliplatin/cisplatin combination as salvage regimen had produced significant antitumoral activity (response rate: 45%) in resistant/refractory ovarian cancer. Finally, recent experimental and clinical data have outlined the potential interest in the development of this new original platinum compound. New single agent phases II are expected in other tumor types as well as new oxaliplatin combinations are ongoing (phase I trials of oxaliplatin/CPT-11 and of oxaliplatin/carboplatin, phase II study of oxaliplatin-vinorelbine in lung cancer.
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PMID:[Oxaliplatin: the first DACH platinum in clinical practice]. 929 71

This study was conducted to identify tumor types warranting Phase II clinical trials of oxaliplatin using the human tumor cloning assay. Oxaliplatin was tested at concentrations ranging from 0.5 to 50.0 microg/ml in 1-h and 14-day continuous exposures along with 1.4 microg/ml carboplatin and 0.2 microg/ml cisplatin for comparison. We defined in vitro response as tumor growth inhibition >50% of control. In the 1-h exposure schedule, in vitro responses were observed in 9 of 116 (8%), 18 of 115 (16%), 38 of 103 (37%), and 7 of 13 (54%) tumor specimens at concentrations of 0.5, 5.0, 10.0, and 50.0 microg/ml oxaliplatin, respectively. In the 14-day exposure schedule, in vitro responses were observed in 10 of 121 (8%), 37 of 121 (31%), 57 of 106 (54%), and 15 of 15 (100%) tumor specimens at concentrations of 0.5, 5.0, 10.0, and 50.0 microg/ml oxaliplatin, respectively. Activity was observed against colon cancer, non-small cell lung cancer, gastric cancer, and melanoma colony-forming units. In both cisplatin-resistant and cisplatin-sensitive tumors, the activity of oxaliplatin was concentration and time dependent. A 1-h exposure to 5.0 and 10.0 microg/ml oxaliplatin led to 7.4 and 23.4% in vitro responses, respectively, in specimens resistant to 1-h exposure of 0.2 microg/ml cisplatin. Moreover, 1-h exposures to 5.0 microg/ml and 10.0 microg/ml oxaliplatin showed in vitro antitumor responses in 10.2 and 24.3%, 17.2 and 34.5%, 10.0 and 20.0%, 6.7 and 16.7%, and 11.4 and 34.3% of specimens resistant to 1.4 microg/ml carboplatin, 6.0 microg/ml 5-fluorouracil, 3.0 microg/ml irinotecan, 10.0 microg/ml paclitaxel, and 0.04 microg/ml doxorubicin, respectively. The effect in those drug-resistant specimens was improved when oxaliplatin was used on the protracted exposure regimen. Our data indicate that oxaliplatin is an active drug in vitro against a large variety of human tumors. Both concentration and duration of exposure are important factors for oxaliplatin cytotoxicity. The broad spectrum of activity and the in vitro activity against some tumors primarily resistant to conventional anticancer drugs encourage further clinical investigations of oxaliplatin in patients with advanced cancer refractory to conventional chemotherapy.
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PMID:Activity of oxaliplatin against human tumor colony-forming units. 956 98

Oxaliplatin, the first available diaminocyclohexane platinum, has clinical activity in colorectal and ovarian cancers. Its mechanism of action is thought to be similar to that of cisplatin, its main mechanism being the intrastrand DNA adduct between two adjacent guanins or two adjacent guanine and adenine adducts. Ongoing molecular pharmacological studies of the mechanism of action of cisplatin suggest that platinated adducts are recognized by proteins of the mismatch repair system, including the products of the hMLH1 and hMSH2 genes. DNA mismatch repair defects occur in a wide variety of sporadic human cancers, are the main genetic factor in hereditary non-polyposis colon cancer and a frequent de novo or acquired phenomenon in ovarian cancer and other solid tumours. Moreover, they have recently been reported to be a cause of resistance to cisplatin but not to oxaliplatin, as diaminocyclohexane platinum adducts do not appear to be recognized by the mismatch repair complex. These findings explain the oxaliplatin activity in some cisplatin-resistant tumours. In addition, the good safety profile of oxaliplatin makes it a drug of choice for combination therapy, and it has been shown to be synergistic with other cytotoxic agents, including 5-fluorouracil, cisplatin, carboplatin, topotecan, gemcitabine and CPT-11. The results of several ongoing trials are awaited, but available data demonstrate that oxaliplatin is highly effective in the treatment of advanced colorectal and ovarian cancers. Promising early results suggest that it is also efficacious in non-Hodgkin's lymphoma, breast and non-small-cell lung cancers. As a result of its mechanism of action, its favourable safety profile and the differential profile of its antitumoral activity, the full potential of oxaliplatin as an active, versatile antitumoral agent is yet to be fully explored.
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PMID:Ongoing and unsaid on oxaliplatin: the hope. 964 13

The systemic anticancer drug therapy is indicated in the adjuvant as well as in the palliative setting. There is an indication for an adjuvant therapy in case of Dukes B (stadium II) as well as in Dukes C (stadium III) colon cancer. An indication in the palliative setting remains for the Dukes D (stadium IV) colon cancer patients. Locoregional chemotherapeutical approaches represent no standard procedure and cannot be recommended outside clinical trials because the real value of this therapy is unknown due to a lack of large randomized trials. The mainstay of treatment of colon cancer is 5-Fluoruracil (5-FU), which should be combined with folinic acid in case of bolus (2-4 min. injection) therapy. In the adjuvant situation the Mayo scheme administered over a period of half a year remains the standard of choice because this procedure is validated by large randomized trials and replaces the combination 5-FU + levamisol given over a period of one year in former times. In the palliative situation 5-FU based therapy remains the goldstandard although more options than 5-FU plus folinic acid are now available. Oxaliplatin and irinotecan are approved for the treatment of metastatic colon cancer in first line in combination with 5-FU. Capecitabine and Ralitrexed are drugs, which are approved outside of Germany and can be used as well if indicated. The median survival of patients with metastatic colon cancer is between 12 and 18 month. It will be discussed in which way this range depends on the chemotherapeutical strategy.
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PMID:[Chemotherapy of colonic carcinoma in the year 2001]. 1132 9

The combination of 5-fluorouracil-folinic acid and oxaliplatin has led to a significant improvement of chemotherapy efficacy in advanced pretreated colorectal cancer. The objective of the present study was, considering the oxaplatin-5-fluorouracil-folinic acid combination, to examine the impact of one given drug on the cellular determinants of cytotoxic activity of the other drug. These cellular factors were analysed on the human colon cancer cell line WiDr in clinically relevant conditions of drug exposure ('De Gramont' schedule) with oxaliplatin-folinic acid during 2 h followed by 5-fluorouracil 48 h. The DNA binding of oxaliplatin was significantly reduced by the presence of 5-fluorouracil but this effect was time-dependent and after 50 h the platinum incorporated into DNA was identical in controls and in the drug combination. In the presence of oxaliplatin, there was less formation of FUH(2) which is the first catabolite produced in the cascade of 5-fluorouracil metabolic degradation. The effects of drugs on cell cycle were quite different from one drug to the other with oxaliplatin inducing a shift towards G(2) accumulation and 5-fluorouracil-folinic acid to a greater proportion of cells in G(1)-S. When oxaliplatin and 5-fluorouracil-folinic acid were combined the cell cycle effects were very similar to that of the 5-fluorouracil-folinic acid sequence alone. Oxaliplatin was able to reduce thymidylate synthase activity with a marked impact 28 h after the beginning of cell exposure to the drug. The 5-fluorouracil-folinic acid drug sequence led to a profound reduction in thymidylate synthase activity and this decrease was not markedly enhanced by the presence of oxaliplatin. Regarding apoptosis, changes in mitochondrial membrane permeability were observed in the presence of the tested drugs and the impact of 5-fluorouracil-folinic acid was greater than that of oxaliplatin. The addition of oxaliplatin did not amplify the action of 5-fluorouracil-folinic acid upon mitochondrial membrane permeability change. The presence of oxaliplatin itself did not modify the intracellular concentration of total reduced folates. The fact that oxaliplatin may reduce 5-fluorouracil catabolism could be central in explaining the supra-additive interaction between these drugs.
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PMID:Impact of the oxaliplatin-5 fluorouracil-folinic acid combination on respective intracellular determinants of drug activity. 1195 66

Oxaliplatin (L-OHP) is a new platinum analogue that has shown antitumour activity against colon cancer both in vitro and in vivo and is now used in the chemotherapeutic treatment of metastatic colon and rectal cancer. L-OHP like cisplatin (CDDP), is detoxified by glutathione (GSH)-related enzymes and forms platinum (Pt)-DNA adducts lesions that are repaired by the nucleotide excision repair system (NER). We investigated the cytotoxicity and the pharmacology of L-OHP and CDDP on a panel of six colon cell lines in vitro. We showed that GSH and glutathione S-transferase (GST) activity were not correlated to oxaliplatin cytotoxicity. Pt-DNA adducts formation and repair were correlated with CDDP, but not with L-OHP cytotoxicity. The determination of ERCC1 and XPA expression, two enzymes of the NER pathway, by reverse transcriptase-polymerase chain reaction (RT-PCR), demonstrated that ERCC1 expression was predictive of L-OHP sensitivity (r(2)=0.67, P=0.02) and XPA level after oxaliplatin exposure was also correlated to L-OHP IC(50) (r(2)=0.5; P=0.04). The knowledge of such correlations could help predict the sensitivity of patients with colon cancer to L-OHP.
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PMID:Cellular determinants of oxaliplatin sensitivity in colon cancer cell lines. 1250 67

Oxaliplatin is a useful agent in combination with 5-fluorouracil/leucovorin for the treatment of patients with metastatic carcinoma of the colon or rectum whose disease has recurred or progressed during or within 6 months of completion of first-line therapy (a combination of bolus 5-fluorouracil/leucovorin and irinotecan). Oxaliplatin works by disrupting DNA replication and transcription and is cell-cycle nonspecific. In vitro, oxaliplatin has shown activity against numerous tumor lines, but it has only been approved for the treatment of metastatic carcinoma of the colon or rectum.
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PMID:Oxaliplatin: a new drug for the treatment of metastatic carcinoma of the colon or rectum. 1268 91

The purpose of this report is to summarize information on oxaliplatin, a drug recently approved by the U.S. Food and Drug Administration. Information provided includes regulatory history, study design, efficacy and safety results, and pertinent literature references. A single, multicenter, randomized trial, enrolling 463 patients with metastatic colorectal carcinoma whose disease had recurred or progressed during or within 6 months of completion of therapy with the combination of bolus 5-fluorouracil (FU)/leucovorin (LV) and irinotecan, was submitted. Study arms included infusional 5-FU/LV alone (arm A), oxaliplatin alone (arm B), and the combination of oxaliplatin and infusional 5-FU/LV(arm C). Oxaliplatin, at a dose of 85 mg/m2, was administered to patients in arms B and C intravenously over 2 hours in 250-500 ml of dextrose 5% in water (D5W) on day 1 only. A 200-mg/m2 dose of LV was administered simultaneously to arm C patients, in a separate bag using a Y-line, or alone to arm A patients, by i.v. infusion, over 2 hours. 5-FU was then administered to arms A and C patients, first as a bolus injection over 2-4 minutes at a dose of 400 mg/m2, then as a continuous infusion in 500 ml of D5W over 22 hours at a dose of 600 mg/m2. LV was repeated on day 2 of the cycle (arms A and C) followed by a 400-mg/m2 5-FU bolus and a 600-mg/m2 22-hour infusion. Treatment was repeated every 2 weeks. Response rate was the prespecified end point for accelerated approval. Time to progression (TTP) was a secondary end point. The prespecified primary comparison was between the 5-FU/LV regimen and the 5-FU/LV/ oxaliplatin combination regimen. The three arms were well balanced for patient prognostic factors. There were no complete responders. The partial response rates were 0%, 1%, and 9% for the 5-FU/LV, oxaliplatin, and oxaliplatin plus 5-FU/LV treatments, respectively (p = 0.0002, arm C versus arm A). The median times to radiographic tumor progression, based on available radiographs, were 2.7 months, 1.6 months, and 4.6 months, respectively (p < 0.0001, arm C versus arm A). Common adverse events associated with the combination treatment included peripheral neuropathy, fatigue, diarrhea, nausea, vomiting, stomatitis, and abdominal pain. Neutropenia was the major hematologic toxicity. Adverse events were similar in men and women and in patients <65 and > or =65 years of age, but older patients may have been more susceptible to dehydration, diarrhea, hypokalemia, and fatigue. Oxaliplatin in combination with infusional 5-FU/LV was approved for the treatment of patients with metastatic carcinoma of the colon or rectum whose disease has recurred or progressed during or within 6 months of completion of first-line therapy with the combination of bolus 5-FU/LV and irinotecan. Approval was based on response rate and on an interim analysis of TTP. No results are available, at this time, that demonstrate a clinical benefit, such as improvement in disease-related symptoms or survival.
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PMID:FDA drug approval summaries: oxaliplatin. 1475 10

Two thousand and three was a particularly dense year for publications and communications on therapy for colon cancer summarizing the real advance performed in this field. The last ten years allowed a rapid evolution for colon chemotherapy with a switch from 5-FU modulated by leucovorin to poly-chemotherapy (fluoropyrimidines with oxaliplatin or irinotecan) integrated into therapeutic strategies, where surgery had a place more and more important in metastatic patients. In correlation with these advances, median survival of patient with metastatic colorectal cancer is between 17 and 22 months. Targeted therapeutics with monoclonal antibody such as EGF inhibitors (cetuximab) or VEGF inhibitors (bevacizumab) had for the first time demonstrated efficacy with encouraging results in randomised trials. In adjuvant situation, LV5FU2 is less toxic than monthly FUFOL and no statistically significant difference could be detected in disease-free or overall survival between the two schedules. Oxaliplatin combined with 5 fluorouracil and leucovorin (FOLFOX4) is the first combination to demonstrate significant superiority over 5 fluorouracil and leucovorin in adjuvant treatment of colorectal cancer. Fluorouracil-based adjuvant chemotherapy benefited to patients with stage II or III colon cancer with microsatellite-stable tumours or tumour exhibiting low-frequency microsatellite instability but may be not those with tumours exhibiting high-frequency microsatellite instability (MSI). These data need to be confirmed by prospective studies before changing our therapeutic references. The number of lymph nodes analyzed for colon cancer staging is itself a prognostic variable on outcome. Laparoscopic surgery of colon cancer is demonstrated as a feasible and safe procedure. Shrinkage of tumours after administration of preoperative chemotherapy and availability of ablative techniques (radiofrequency and cryotherapy) now allow to treat with curative intent metastases initially considered as non-resectable.
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PMID:[Colon cancer: what is new in 2004?]. 1497 8

Hyperthermia is used to treat intraperitoneal colorectal carcinomatosis. In this setting, the molecular effects of oxaliplatin and hyperthermia, in combination and alone, were deciphered in ovarian and colon cancer cells. The combined antiproliferative effects of hyperthermia and oxaliplatin (Eloxatine) on human IGROV-1 ovarian carcinoma, Caco-2 and HT-29 colon carcinoma cell lines were investigated by cell viability test, cell cycle analysis and modulation of expression of cell cycle-related proteins. Oxaliplatin inhibited growth of all cell lines in a dose-dependent manner. The efficacy of the drug was markedly enhanced by concurrent exposure to mild heat shock (1 h, 42 degree C). In IGROV-1 cells, a low concentration (15 microg/ml) of oxaliplatin in combination with hyperthermia induced a transient G2/M arrest. In both colon carcinoma cell lines, a G1/S arrest with a reduction of the G0/G1 population occurred. In IGROV-1 and Caco-2 cells, growth arrest was accompanied by apoptosis as suggested by the appearance of sub-G1 population. Time-course changes of cell cycle regulatory proteins levels revealed accumulation of cyclins A and B as well as of cdc2 and cdk2 upon exposure of IGROV-1 cells to hyperthermia and oxaliplatin. In this cell line, p53 appeared to be implicated in both G2/M arrest and apoptosis. G1/S arrest of HT-29 cells was linked to up-regulation of cyclin E and p27(Kip1) and accumulation of the hypophosphorylated form of pRB, whereas in Caco-2 cells only the hyperphosphorylated form was detected as well as a down-regulation of the proto-oncogene c-myc. Taken together, the results of these in vitro studies suggest that hyperthermia and oxaliplatin might elicit antiproliferative effects by modulating the expression of cell cycle regulatory proteins through different signalling pathways.
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PMID:Thermal enhancement of oxaliplatin-induced inhibition of cell proliferation and cell cycle progression in human carcinoma cell lines. 1520 21


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