Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0023418 (leukemia)
 93,477 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Deoxycytidine kinase is an enzyme required for the activation of, for example, cytarabine, the most widely used agent for the chemotherapy of haematological malignancies. However, deoxycytidine kinase also plays an important role in the activation of several new agents used in the treatment of leukaemia, such as cladribine. Recently, a new cytidine analogue, gemcitabine, has shown impressive activity as a single agent against several solid malignancies (ovarian cancer, non-small cell lung cancer), demonstrating that in solid tumours deoxycytidine kinase can be an important target for the activation of antimetabolites. Studies on the regulation of deoxycytidine kinase have shown that the enzyme has a complicated regulation (feedback inhibition by the product and regulation by ribonucleotides). Modulation of deoxycytidine kinase activity has already been shown to be an effective way to improve the effect of cytarabine and will probably be a target for new therapies.
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PMID:New targets for pyrimidine antimetabolites for the treatment of solid tumours. 2: Deoxycytidine kinase. 798 Jul 70

Compared with most solid tumours in humans, ovarian cancer may be considered a relatively chemosensitive disease. The platinum-based drug, cisplatin, has significantly enhanced long term survival (by more than 10%), though there remains scope for considerable improvement. Carboplatin is equiactive with, but substantially less toxic than, cisplatin (especially in terms of nephrotoxicity, effects on the gastrointestinal tract and neurotoxicity). Long term data are emerging from randomised trials that support the replacement of cisplatin by carboplatin in the first-line treatment of ovarian cancer. Iproplatin is also less toxic than cisplatin, but is more toxic and less active than carboplatin. A further advance in reducing patient morbidity associated with platinum-based chemotherapy may come from the first orally administrable platinum complex, JM216, which has recently been introduced into clinical trials. Current and future platinum drug discovery initiatives should focus on circumventing mechanisms of tumour resistance to cisplatin. Laboratory studies have identified 3 major mechanisms of resistance: reduced drug transport, enhanced intracellular detoxification (through glutathione and/or metallothioneins) and enhanced DNA removal (or tolerance) of platinum-DNA adducts (the long assumed critical lesions leading to cell kill). Platinum complexes based on the 1,2-diaminocyclohexane carrier ligand (such as oxaliplatin and tetraplatin) have recently entered clinical trials, having been shown to circumvent cisplatin resistance in murine leukaemia tumour models. Clinically, they have shown little evidence of activity in cisplatin-resistant disease and appear to cause severe neurotoxicity.
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PMID:New platinum agents. A comparison in ovarian cancer. 798 87

The antineoplastic activity that taxol has demonstrated in advanced ovarian cancer and other neoplasms in which the platinum analogues are among the most active agents has been the impetus for the development of taxol/platinum combination regimens. Since both classes of agents are known to induce cell-cycle-dependent effects and to delay cell-cycle traverse in specific phases of the cycle, an evaluation of drug sequence dependence was incorporated into initial clinical studies of the drug combination. To complement clinical studies, sequence-dependent interactions were assessed in vitro using L1210 leukemia. Cytotoxicity resulting from the combination of taxol and cisplatin was significantly increased over that achieved with cisplatin alone only when cisplatin was administered after taxol. This sequence was significantly superior to both the reverse sequence and to simultaneous drug treatment. Results achieved with sequence iterations of vincristine and cisplatin were nearly identical. In addition, alkaline-elution studies, using the optimal sequence of cisplatin and either taxol or vincristine, demonstrated that these antimicrotubule agents do not increase the formation of cisplatin-induced DNA interstrand and DNA-protein crosslinking over that produced by cisplatin alone. Although the mechanisms for the sequence-dependent cytotoxic interactions between cisplatin and the antimicrotubule agents have not been determined, it is likely that antagonistic interactions occur with the suboptimal sequences, probably because of cell-cycle-dependent phenomena.
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PMID:Sequence-dependent cytotoxic effects due to combinations of cisplatin and the antimicrotubule agents taxol and vincristine. 810 46

The isolation of genes that predispose to familial disease is an important goal in cancer research. The identification of such genes "opens up" the possibility of genetic diagnosis in families so that individuals who are at risk of cancer through inheriting a predisposing mutation can be identified. Genes that are involved in familial cancer syndromes may also be important in the pathogenesis of sporadic forms of the disease, which are often more common. In the search for genes that predispose to familial breast and ovarian cancer much recent progress has been made. A locus on the long arm of chromosome 17, in the interval 17q12-21, has been identified by genetic linkage, and appears to be responsible for disease in approximately 40% of breast cancer families and most families that contain breast and ovarian cancer. The region containing this locus, which has been called BRCA1, has been narrowed to a 3-4 cM interval defined by THRA1, the thyroid hormone receptor locus alpha, and D17S183, an anonymous microsatellite polymorphism. Loci other than BRCA1 that have been identified appear not only to predispose to breast and/or ovarian tumors, but to tumors at other sites too. A new locus has been identified on chromosome 2 which is linked to hereditary non-polyposis colorectal cancer (HNPCC). Families with HNPCC are also at risk of endometrial cancer and tumors of the ovary, amongst other cancer sites. Finally, mutations in the p53 gene are inherited in families with Li-Fraumeni syndrome, a rare cancer syndrome predisposing to breast tumors, sarcomas, leukemia and other cancers. Li-Fraumeni syndrome is also the only inherited cancer syndrome that predisposes at least in part to breast cancer where the actual predisposing gene is known. For the other cancer syndromes, the cloning of the predisposing genes is eagerly awaited.
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PMID:Predisposing genes in breast and ovarian cancer: an overview. 811 68

Hereditary breast cancer (HBC) shows extant clinical and genetic heterogeneity. Clinically one finds the onset of breast cancer at an early age, an excess of bilaterality, and patterns of multiple primary cancer such as combinations of breast and ovarian carcinoma in the hereditary breast-ovarian cancer (HBOC) syndrome. In addition to HBOC, one sees a variety of putative breast cancer-prone genotypes inclusive of hereditary site-specific breast cancer, and the Li-Fraumeni (SBLA) syndrome that is characterized by cancers involving all three germinal layers including sarcomas, brain tumors, leukemia, lymphoma, and adrenal cortical carcinoma in addition to often markedly early-onset breast cancer. Breast cancer is also associated with autosomal dominantly inherited Cowden's disease and autosomal recessively inherited ataxia-telangiectasia. Examples of pedigrees depicting clinical examples of these several HBC syndromes are presented in order to describe HBC's heterogeneity. The recent identification of the BRCA1 gene in early-onset hereditary site-specific breast cancer and the HBOC syndrome has led to new challenges for the genetic counselor. We review genetic counseling, which embraces surveillance and management recommendations that are responsive to the natural history of HBC and address the concept for future development of centers of expertise for HBC in the interest of improving cancer control.
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PMID:Hereditary breast cancer and family cancer syndromes. 819 73

The systemic toxicity and efficacy of cisplatin (CDDP) were examined in vitro and in vivo. Procedures were performed before and after the antineoplastic agent was encapsulated into multilamellar liposomes (L-CDDP). In vitro cytotoxicity evaluation in L1210 murine leukaemia and NIH OVCAR human ovarian cancer cells showed IC50 values of 0.14 and 0.05 micrograms/ml with CDDP or L-CDDP, respectively. In vivo, mice injected intravenously with L-CDDP had plasma levels of platinum 4-fold higher than with CDDP. The t1/2 alpha was 2 h and the t1/2 beta exceeded 48 h with L-CDDP; whereas a t1/2 alpha of 15 min and t1/2 beta of 12 h was observed with CDDP. The values of platinum in liver, spleen, kidneys, lungs and heart were substantially higher in L-CDDP-treated compared to CDDP-treated mice. Cytotoxic evaluation of both agents was tested in vitro (murine L1210 leukaemia and NIH OVCAR cell line) and in vivo (male CD2F1 mice). CDDP and L-CDDP showed similar cytotoxicity in tissue culture. At the highest dose given, 12 mg/kg intraperitoneally (i.p.), L-CDDP showed higher antitumour efficacy demonstrated by an increased life span of the mice. The CDDP treatment at the highest dose was lethal to all the tumour bearing mice. The nephrotoxicity in rats (blood urea nitrogen and creatinine evaluation) of L-CDDP administered i.p. was significantly less than with CDDP. In addition, the ability of kidney slices to transport organic anions [para-aminohippurate (PAH)] and consume O2 was substantially decreased in rats treated with free CDDP compared to L-CDDP. Accordingly, the liposomal encapsulation of CDDP attenuates its nephrotoxicity, but allows maintenance of antitumour efficacy and may be a potentially effective modality in clinical settings.
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PMID:Comparative pharmacological, toxicological and antitumoral evaluation of free and liposome-encapsulated cisplatin in rodents. 821 58

Intraperitoneal administration of liposomal valinomycin (MLV-VM) with cis-diamminedichloroplatinum(II) (cDDP) had significant antitumor activity against murine P388 leukemia and inhibited the growth of OVCAR-3 tumors in a nude mouse model of human ovarian cancer. This tumor is a teratoma originating in the ovary with pathogenesis and metastatic properties similar to those of human ovarian cancer. Drug was given to the mice once every 5 days for 4 doses beginning 1 day after i.p. implantation of 10(7) or 5 x 10(7) OVCAR-3 tumor cells. For P388 leukemia, drug was given i.p. once or on days 1 and 5 after tumor inoculation. Despite the use of low doses of MLV-VM, the antitumor activity of the combination [increase in life span (%T/C), 289%-294%] represents a 4-log cell kill over the additive effect of the two drugs, indicating a synergistic interaction between MLV-VM and cDDP. Likewise, low doses of the drug combination produced a synergistic interaction on human ovarian OVCAR-3 tumors, and tumor-free, long-term survivors were obtained. Combined therapy of liposome-incorporated valinomycin and cisplatin was well tolerated and produced no overlapping nephrotoxicity, although a decrease in liver enzyme markers (alkaline phosphatase and/or alkaline aminotransferase) with MLV-VM was observed. These results appear to suggest that MLV-VM with cDDP may have considerable potential for the treatment of ovarian cancer disseminated within the peritoneal cavity, although the frequency and sequence of drug administration may need to be improved.
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PMID:Combination chemotherapy of human ovarian xenografts with intraperitoneal liposome-incorporated valinomycin and cis-diamminedichloroplatinum(II). 828 24

Aphidicolin, an inhibitor of DNA polymerases alpha and delta, is cytotoxic in vitro against tumor cells. The poor solubility of aphidicolin has led to the development of aphidicolin glycinate (AG; NSC 303812), a water soluble ester currently in early clinical trials. The antitumor activity of AG was investigated in a series of transplantable murine tumors in vivo. The drug demonstrated activity against the i.p. implanted B16 melanoma, producing maximum increased life spans of 75% following i.p. administration every 3 h for three doses on days 1-9. Treatment schedules involving both single injections per day on days 1-9 and multiple injections per day on days 1, 5, and 9 were less effective, indicating that this antitumor activity is schedule dependent. Similarly, greater activity was observed against the i.p. M5076 sarcoma when three daily injections were given on days 1-9 (57% increased life span) than with a single injection either on days 1-9 (36% increased life span) or on days 1, 5, 9, and 13 (inactive). Further scheduling studies in the s.c. M5076 sarcoma model showed that a 7-day infusion was superior to both a 24-h infusion and a 7-day course of three bolus treatments per day. On the assumption that DNA polymerase inhibition is the basis for this antitumor activity, inhibition of DNA synthesis in BALB/c x DBA/2 F1 mice was investigated by measuring incorporation of [3H]thymidine (20 microCi, i.v.) into DNA of spleen and jejunum. At 2 h after administration of AG, inhibition of DNA synthesis was dose dependent (median inhibitory dose, 60 mg/kg in both tissues) and was > 99% at 300 mg/kg. The inhibition was rapid in onset; AG (100 mg/kg i.p.) produced maximal (> 98%) inhibition in both tissues at 30 min. Recovery occurred in the intestine within 16 h; in spleen recovery was delayed to 24 h, and was followed by a rebound incorporation at 48 h (203%). A comparison of the inhibition of thymidine incorporation in tumor cells (B16 melanoma and P388 leukemia) and normal jejunum revealed no significant differences in the extent of inhibition or the rapidity of recovery in these tissues. The rapid recovery of DNA synthesis inhibition supports the use of prolonged infusion schedules in clinical trials, but the lack of evidence of selectivity for tumor cells suggests that AG may be of limited therapeutic value as a single agent. Thus, we evaluated AG in combination with cisplatin in an in vivo model of cisplatin refractory human ovarian cancer.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Antitumor activity and biochemical effects of aphidicolin glycinate (NSC 303812) alone and in combination with cisplatin in vivo. 830 34

Linear helical channel-forming peptides structurally similar to the Xenopus-derived antibiotic, Magainin2-amide, were synthesized. Because activity resides in the physicochemical properties of the peptides, an all-D-amino acid as well as an all-L-amino acid sequence were tested for anticancer activity. In vitro activity against carcinoma cells and in vivo efficacy against four murine ascites tumors were determined. The novel peptides proved to have enhanced potency in vitro and in vivo as compared to the parent compound. The 50% inhibitory concentrations against A549 cells for the all-D, the all-L, and Magainin2 were 6, 10, and 110 micrograms/ml, respectively. All three peptides had activity against P388 leukemia, S180 ascites, and a spontaneous ovarian tumor when injected i.p. Increase in life span of over 100% was produced for the analogues in the latter two models. The maximally effective concentrations for the analogues were 20 to 25 mg/kg while Magainin2 required 50-60 mg/kg for in vivo efficacy. The all-D-amino acid peptide, MSI-238, proved as effective as doxorubicin at a more advanced stage of the ovarian tumor and this activity may be attributed to its resistance to proteolytic degradation. Therefore, this class of amphiphilic alpha-helical cationic peptides has potential in the peritoneal treatment of ovarian cancer.
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PMID:Anticancer efficacy of Magainin2 and analogue peptides. 831 12

Bullatacin, a compound isolated from plants of the Annonaceae, and its analogues show in vivo potential as antitumor agents based on their efficacy in normal mice bearing L1210 murine leukemia and athymic mice bearing A2780 conventional ovarian cancer xenografts. These compounds also have interesting potential as insecticides and inhibit respiration in insect-derived Sf9 cells with high potency. Their toxicity in both cases probably arises from their strong inhibition of mitochondrial electron transport with a specific action at complex I.
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PMID:Mode of action of bullatacin: a potent antitumor and pesticidal annonaceous acetogenin. 837 27


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