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)

Irinotecan (CPT-11) is a topoisomerase I inhibitor commonly used in the treatment of colorectal tumors. It is a prodrug, converted to an active metabolite, SN-38, by carboxylesterases (CEs). CEs are ubiquitary enzymes that react with numerous substrates. A specific CPT-11 converting enzyme was isolated from rat serum, with different kinetic properties than other CEs. We determined kinetic properties of specific CPT-11 CE activity (CPT-CE) in human normal liver and colon tumors. Km were very similar (3.4 microM in liver and 3.8 microM in colon tumors), but Vmax was higher in liver (2.7 pmol/min/mg protein) than in colon tumor (1.7 pmol/min/mg protein). CPT-CE and total CE (using p-nitro-phenylacetate as substrate) were weakly correlated in colon tumors. The large interpatient variability observed in liver CPT-CE activity could play a potential role in the pharmacokinetic variability observed with irinotecan.
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PMID:Characterization of CPT-11 converting carboxylesterase activity in colon tumor and normal tissues: comparison with p-nitro-phenylacetate converting carboxylesterase activity. 1100 87

Side effects due to administration of anti-cancer drugs often cause the treatment to be abandoned or a decrease in the amount of anti-cancer drugs. Recently, the anti-tumor effects of "low-dose CPT-11", which can be administered at the outpatient clinic, are reported. We performed "low-dose CPT-11 + CDDP" as a neoadjuvant chemotherapy to a patient with advanced gastric cancer. CPT-11 and CDDP combination chemotherapy caused very few side effects, so we could continue the treatment and achieve anti-tumor effects. Consequently, surgery could be performed, but disseminated metastasis was found so that the surgery ended as a non-curative operation. However, it was considered that this method of "low-dose CPT-11 + CDDP" was very effective as the neoadjuvant chemotherapy in a patient with advanced gastric cancer.
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PMID:[A case of advanced gastric cancer treated with neoadjuvant chemotherapy of low-dose CPT-11 + CDDP]. 1143 51

Reverse transcription polymerase chain reaction (RT-PCR) single-strand conformation polymorphism analysis was used to detect topoisomerase I (top1) mutations in total RNA from 16 specimens that were excised during surgery from eight patients with non-small cell lung cancer (NSCLC) who had received preoperative chemotherapy consisting of irinotecan (CPT-11) and cisplatin. PCR single-strand conformation polymorphism and subsequent DNA sequencing analysis showed two nucleotide substitutions resulting in Trp736stop (TGG to TGA) and Gly737Ser (GGT to AGT) in one tumor specimen. The mutations were located near a site in top1 that was previously reported to harbor a mutation in the human lung cancer cell line PC7/CPT, which was selected for CPT resistance. These results demonstrate that mutations in top1 occur after chemotherapy with CPT-11 in NSCLC patients and suggest that development of resistance to CPT-11 in some patients may involve mutation of top1. However, the significance of top1 mutations to CPT resistance needs to be further investigated.
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PMID:Point mutations in the topoisomerase I gene in patients with non-small cell lung cancer treated with irinotecan. 1184 5

Mitomycin C (MMC) is an anticancer drug that requires reductive activation to exert its toxicity. MMC is known to cross-link DNA that contributes significantly to the cytotoxicity and consequent cell death. Cytosolic NADPH:quinone oxidoreductase 1 (NQO1) and microsomal enzymes have been shown to mediate MMC-induced DNA cross-linking. However, NQO1 plays only a minor role, indicating presence of other cytosolic enzymes/proteins that contribute to this process. In this study, we have characterized a unique cytosolic activity in NQO1-null mice that catalyzed MMC-induced DNA cross-linking. This activity was cofactor independent and dicoumarol insensitive. The unique cytosolic activity was purified to homogeneity. The peptide sequencing of the purified protein identified the unique cytosolic activity as GRP58 (M(r) 58,000 glucose-regulatory protein), also known as GRp57/ER60/ERp61/HIP-70/Q2 and CPT. Immunodepletion of NQO1-null mice liver cytosol and partially purified fractions with anti-GRP58 antibody led to a complete loss of GRP58 protein and consequent significant reduction of MMC-induced DNA cross-linking. Mouse cDNA encoding GRP58 was isolated and sequenced. Chinese hamster ovary cells permanently overexpressing GRP58 showed increased MMC-induced DNA cross-linking and increased cytotoxicity on exposure to MMC. Bacterially expressed and purified GRP58 increased the MMC-induced DNA cross-linking when added to mouse cytosolic samples. A tissue array analysis indicated that GRP58 is ubiquitously expressed among mouse tissues, although at different levels. Expression analysis using matched human tumor/normal array revealed an up-regulation of GRP58 in breast, uterus, lung, and stomach tumors compared with normal tissues of similar origin.
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PMID:Role of GRP58 in mitomycin C-induced DNA cross-linking. 1452 30

7-Ethyl-10-[4-(1-piperidino)-1-piperidino]carbonyloxycamptothecin (irinotecan, CPT-11) is a camptothecin prodrug that is metabolized by carboxylesterases (CE) to the active metabolite 7-ethyl-10-hydroxycamptothecin (SN-38), a topoisomerase I inhibitor. CPT-11 has shown encouraging antitumor activity against a broad spectrum of tumor types in early clinical trials, but hematopoietic and gastrointestinal toxicity limit its administration. To increase the therapeutic index of CPT-11 and to develop other prodrug analogues for enzyme/prodrug gene therapy applications, our laboratories propose to develop camptothecin prodrugs that will be activated by specific CEs. Specific analogues might then be predicted to be activated, for example, predominantly by human liver CE(hCE1), by human intestinal CE (hiCE), or in gene therapy approaches using a rabbit liver CE (rCE). This study describes a molecular modeling approach to relate the structure of rCE-activated camptothecin prodrugs with their biological activation. Comparative molecular field analysis, comparative molecular similarity index analysis, and docking studies were used to predict the biological activity of a 4-benzylpiperazine derivative of CPT-11 [7-ethyl-10-[4-(1-benzyl)-1-piperazino]carbonyloxycamptothecin (BP-CPT)] in U373MG glioma cell lines transfected with plasmids encoding rCE or hiCE. BP-CPT has been reported to be activated more efficiently than CPT-11 by a rat serum esterase activity; however, three-dimensional quantitative structure-activity relationship studies predicted that rCE would activate BP-CPT less efficiently than CPT-11. This was confirmed by both growth inhibition experiments and kinetic studies. The method is being used to design camptothecin prodrugs predicted to be activated by specific CEs.
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PMID:Activation of a camptothecin prodrug by specific carboxylesterases as predicted by quantitative structure-activity relationship and molecular docking studies. 1461 91

Mammalian bombesin (BN) receptors are among those most frequently overexpressed by a number of common tumors including prostate, breast, lung, and colon cancers. The aim of this study was to develop a camptothecin-bombesin (CPT-BN) conjugate that interacts with all classes of BN receptors and possibly functions as a prodrug via a labile linker with site-specific cytotoxicity for cancer cells bearing these receptors. CPT was coupled to analogs of [D-Tyr6,beta-Ala11,Phe13,Nle14]BN-(6-14) (BA0) using carbamate linkers (L1 and L2) with built-in nucleophile-assisted releasing groups for intracellular cleavage of free cytotoxic agents. One conjugate, CPT-L2-BA3, bound to all three BN receptor classes with high affinity and functioned as a full agonist at each. 125I-CPT-L2-BA3 was rapidly internalized by cells expressing each BN receptor class and, using fluorescent imaging, was found to co-localize with BN receptors initially and later to be internalized in cytoplasmic compartments. HPLC analysis of internalized ligand showed that 40% was intact, 25% was metabolized by releasing free CPT, and 35% was metabolized to other breakdown products. CPT-L2-BA3 inhibited the growth of NCI-H1299 non-small cell lung cancer cells in 3-(4,5-dimethylthiazol-2-yl)-2.5-diphenyl-2H-tetrazolium bromide (MTT) and clonal growth assays. CPT-L2-BA3 was cytotoxic in an MTT assay for cells transfected with each class of BN receptor; however, it had significantly less effect in cells lacking BN receptors. These results indicate that CTP-L2-BA3 is a potent agonist that is cytotoxic for cells overexpressing any of the three BN receptor classes and functions as a prodrug for receptor-mediated cytoxicity. It therefore should be a useful prototype to explore the effectiveness of tumor-specific cytotoxicity delivery using a receptor-mediated mechanism.
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PMID:Development of high affinity camptothecin-bombesin conjugates that have targeted cytotoxicity for bombesin receptor-containing tumor cells. 1501 26

The mechanism of cytotoxicity of the camptothecin family of antitumor drugs is thought to be the consequence of a collision between moving replication forks and camptothecin-stabilized cleavable DNA-topoisomerase I complexes. One property of camptothecin analogs relevant to their potent antitumor activity is the slow reversal of the cleavable complexes formed with these drugs. The persistence of cleavable complexes with time may be an essential property for increasing the likelihood of a collision between the replication fork and a cleavable complex, giving rise to lethal DNA lesions. In this paper, we examined a number of camptothecin analogs forming cleavable complexes with distinctly different stabilities. Absolute reaction rate analysis was carried out for each derivative. Our results indicate that the stability of the cleavable complex is dominated by the activation entropy (DeltaS++) of the reversal process. We measured the relative lipophilicity of the CPT analogs by reverse-phase HPLC, but the DeltaS++ of complex reversal is not directly related to the lipophilicity of the CPT analog being used. We suggest that solvent ordering around the 7- through 10-position of the CPT ring may be responsible for reversal rate's dependence on DeltaS++. We demonstrate that the cleavable complex stability conferred by each camptothecin analog is directly correlated with the induction of apoptosis and cytotoxicity to tumor cells.
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PMID:Topoisomerase I-DNA complex stability induced by camptothecins and its role in drug activity. 1528 5

Two CPT-SSA conjugates, JF-10-71 and JF-10-81, containing a chemically adjustable release-rate carbamate linker, have been reported previously by us to potently inhibit growth of human neuroblastoma IMR32 cells overexpressing somatostatin receptor type II (SSTR2) but are stable under buffer incubation conditions or in rat plasma. Further experiments now reveal that the conjugates performed well against many additional cell lines, particularly somatostatin receptor containing rat pancreatic CA20948 cells that were actually more sensitive to the conjugates than free camptothecin itself. JF-10-71 and JF-10-81 also were examined for their inhibitory effects on the growth of this and several other tumors transplanted into rats (CA20948) or nude mice. CA20948 tumors, known to overexpress SSTR2 and grown in Lewis rats, were treated, respectively, with nontoxic 400 nmol/kg intraperitoneal (i.p.) doses of JF-10-71 or JF-10-81. Also, SSTR2-positive human SCLC NCI-H69 tumors transplanted in nude mice were treated in a similar fashion. Human prostate PC-3 tumors, which do not contain high concentrations of SSTR2, also were grown in nude mice and treated with a 400 nmol/kg ip dose of JF-10-71. Both cytotoxic conjugates significantly inhibited growth of SSTR2-specific pancreatic and SCLC tumors, but JF-10-81 did not significantly affect PC-3 tumor growth. These experimental results suggested that CPT-SSA conjugates can effectively target and kill tumor cells growing in vivo and that the effect is mediated by somatostatin receptors resulting in either release of camptothecin at the cell surface or, more likely, after receptor-mediated cellular internalization.
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PMID:Effects of camptothecin conjugated to a somatostatin analog vector on growth of tumor cell lines in culture and related tumors in rodents. 1537 Nov 4

The p16INK4a protein is immunocytochemically detected in liquid-based (LB) specimens as a diagnostic marker of cervical dysplasia and neoplasia. Its up-regulation is promoted by high-risk human papillomavirus (HR-HPV) infection. We aimed to detect p16INK4a on conventional Papanicolaou (Pap) test (CPT) slides and to determine the relationship between its overexpression and HR-HPV infection. CPT and LB Pap test (LBPT) slides (165 samples of each) were examined by immunocytochemical staining for p16INK4a. After polymerase chain reaction (PCR), HPV-DNA was genotyped by dot blot hybridization. The CPT slides displayed more numerous dispersed squamous cells and LBPT slides had a clearer background. Positive p16INK4a on CPT occurred in 0% (0/30), 52.5% (21/40), 54.3% (19/35), 100% (30/30), and 100% (30/30) in normal, atypical squamous cells of undetermined significance (ASCUS), low-grade squamous intraepithelial lesions (LSILs), high-grade SILs (HSILs), and squamous cell carcinomas (SCCs) cases, respectively. LBPT slides showed comparable results but were less sensitive. HPV-DNA was detected in 86.7, 70, 45, 57.14, and 10% in SCCs, HSILs, ASCUS, LSILs, and normal cervical cells, respectively. Because HR-HPV was identified in all HPV+ samples of high-grade dysplasia (HSILs and SCCs) and all positive p16INK4a samples infected with HR-HPV, the association of p16INK4a overexpression with HR-HPV infection was confirmed. This study suggests that immunocytochemical staining of p16INK4a on CPT slides is convenient and cost-effective for cervical cancer screening by the detection of dysplastic cells infected with HR-HPV.
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PMID:Immunocytochemical staining of p16INK4a protein from conventional Pap test and its association with human papillomavirus infection. 1545 98

gamma-Linolenic acid (GLA), an essential omega-6 polyunsaturated fatty acid (FA) is an attractive concept as anticancer agent because it exerts selective cytotoxic on human breast cancer cells without affecting normal cells. This selective toxicity has been identified to be due, at least in part, to the production of lipid peroxides and free radicals. Interestingly, a novel hypothesis for GLA-induced tumor cell toxicity has recently been proposed. GLA, through a molecular mechanism involving the lipogenic enzyme fatty acid synthase (FAS), coordinately interrupts the pathways that replenish the pools of metabolic intermediates in the citric acid cycle (cellular anaplerosis). First, supraphysiological concentrations of GLA inhibit glycolysis, while a cytochrome P450-dependent epoxidation of GLA generates epoxides metabolites for GLA that would mimic the inhibitory action of standard FAS inhibitors such as cerulenin and C75. Second, GLA-epoxide inhibits FAS activity, thus resulting in the accumulation of cytosolic malonyl-CoA which, in turn, inhibits carnitine palmitoyl transferase I (CPT-I) and prevents FA oxidation. The recent characterization of GLA as a novel regulator of FAS expression in breast cancer cells supports and further expands this hypothesis, and directly involves FAS-dependent de novo fatty acid synthesis as the mechanism of GLA-induced toxicity to tumor cells. We hypothesize that, at low (physiological) concentrations, the inhibitory effect of GLA on FAS-regulated breast cancer cell survival is not specific and is due to cell toxicity caused by lipid peroxidation. Taking into account that the inhibitory effect of FAs on the expression of FAS in cultured hepatocytes has been shown to be related to a non-specific peroxidative mechanism, a similar GLA-dependent FAS regulatory mechanism involving peroxidative products may occur in normal and neoplastic tissues. At high (supraphysiological) concentrations of GLA, the specific downregulation of FAS gene expression leads to accumulation of the substrate for FAS, malonyl-CoA, that, as a result of FAS blockade, continue to be generated by the rate-limiting enzyme of the fatty acid biosynthetic pathway acetyl-CoA carboxilase, which is not inhibited in the absence of FAS-catalyzed long chain endogenous fatty acids. Physiologically, the elevated levels of malonyl-CoA occurring during FA biosynthesis reduce FA oxidation to prevent a futile cycle of simultaneous FA synthesis and degradation. Paradoxically, high-dose GLA treatments of FAS-overexpressing breast cancer cells will promote malonyl-CoA-induced inhibition of CPT-I and FA oxidation, thus precipitating an energy crisis that triggers decreased proliferation or apoptotic cell death. In summary, this working model presents the concept that the breast cancer adaptation in FAS expression can be exploited to develop GLA-based dietary interventions aimed at altering the FA synthesis pathway, which appears to be linked to neoplastic transformation and is associated with tumor virulence and adverse clinical outcome in a subset of human breast carcinomas.
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PMID:Inhibition of fatty acid synthase-dependent neoplastic lipogenesis as the mechanism of gamma-linolenic acid-induced toxicity to tumor cells: an extension to Nwankwo's hypothesis. 1560 68

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