Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0027651 (tumor)
 685,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Treatment with a combination (PMA) of (N-phosphonacetyl)-L-aspartic acid (PALA), methylmercaptopurine riboside (MMPR), and 6-aminonicotinamide (6AN) induced partial regressions of CD8F1 murine mammary tumors and provided for tumor growth inhibition without regression of Colon 38 tumors. HPLC-nucleotide pool analysis of CD8 mammary tumors obtained at various times after treatment with PMA revealed that MMPR-5'-phosphate, which inhibits de novo purine nucleotide biosynthesis, was constant at levels of approximately 2.5 nmol/mg protein for 72 hr after treatment. In contrast, the MMPR-5'-phosphate levels of C38 tumors decreased from 24-hr levels at 1.5 nmol/mg protein with a half-time of about 24 hr. Treatment of CD8 tumor-bearing mice with iodotubercidin, a potent inhibitor of adenosine/MMPR kinase, at various times after PMA, reversed both the accumulation of high levels of MMPR-5'-phosphate and the number of partial tumor regressions. These data demonstrate that a cycle of MMPR rephosphorylation is active in the CD8 mammary tumor and suggest that this recycling of MMPR is important for the optimal effect of PMA treatment.
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PMID:Correlation of retention of tumor methylmercaptopurine riboside-5'-phosphate with effectiveness in CD8F1 murine mammary tumor regression. 861 98

A novel inhibitor of dihydroorotate dehydrogenase (DHO-DH) has been discovered using data from the National Cancer Institute's in vitro drug screen. Upon analysis of cytotoxicity results from the sixty tumor cell lines used in this screen, the COMPARE program predicted that NSC 665564 was likely to have the same mechanism of inhibition as brequinar, a known potent inhibitor of DHO-DH. We validated this prediction experimentally using MOLT-4 lymphoblast and found the IC50 of brequinar (0.5 microM) and NSC 665564 (0.3 microM) were comparable and that this induced cytotoxicity was reversed by either uridine or cytidine. The enzyme target of NSC 665564 was shown to be identical to that of brequinar when incubation with each drug followed by a 1 h pulse with [14C] sodium bicarbonate resulted in cellular accumulation of [14C]N-carbamyl-L-aspartic acid and [14C]L-dihydroorotic acid, with concurrent marked depletion of CTP and UTP. The Ki's for NSC 665564 and brequinar were 0.14 and 0.24 microM, respectively, when partially purified MOLT-4 mitochondria (the site of DHO-DH) were used. These results show that mechanistic predictions obtained using correlations from the COMPARE algorithm are independent of structure since the structure of NSC 665564 is dissimilar to that of other established DHO-DH inhibitors.
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PMID:Identification of a novel inhibitor (NSC 665564) of dihydroorotate dehydrogenase with a potency equivalent to brequinar. 868 51

A three-drug combination, PMA, consisting of (phosphonacetyl)-L-aspartic acid + 6-methylmercaptopurine riboside + 5-aminonicotinamide, preceding either 5-fluorouracil (5-FU) or adriamycin (Adr), produced tumor-regressing activity in a murine advanced breast tumor model not attainable with either 5-FU or Adr as single agents, or with any lesser combination of these drugs administered at maximally tolerated doses. Marked tumor-regressing activity was further increased significantly by using 5-FU and Adr together in conjunction with the modulatory biochemical conditioning (particularly ATP depletion) provided by pretreatment with PMA.
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PMID:Enhanced antitumor activity of an adriamycin + 5-fluorouracil combination when preceded by biochemical modulation. 874 5

We report herein a patient with K-ras point mutation at codon 12 that had been detected in pure pancreatic juice (PPJ) obtained 3 yr and 6 months before he was diagnosed with pancreatic cancer (PC). In this 73-yr-old man, PC was diagnosed by ERCP, which showed obstruction of the main pancreatic duct (MPD) at the borderline area between the body and tail of the pancreas. Distal pancreatosplenectomy was performed, and an advanced PC at the tail of the pancreas with a few metastatic nodules in the liver was confirmed. Retrospectively, a K-ras point mutation at codon 12 from GGT (glycine) to GAT (aspartic acid) was detected in the PPJ collected endoscopically 3 yr and 6 months earlier, as well as in the PPJ when PC was diagnosed and in the resected tumor tissue. Reevaluation of pancreatography from the ERCP performed at that time revealed a very mild stenotic lesion of the MPD, speculated to be a PC at a very early stage, at the body-tail border, but it was difficult to diagnose this lesion as a PC, based only on this morphological study. Accordingly, we believe that this is an interesting and valuable clinical case, indicating that K-ras mutation can precede clinical evidence, and its determination in PPJ could be a useful genetic test calling for a careful and extensive clinical investigation for early detection of PC.
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PMID:Detection of K-ras point mutation at codon 12 in pure pancreatic juice collected 3 years and 6 months before the clinical diagnosis of pancreatic cancer. 879 13

Tissue inhibitor of metalloproteinases (TIMPs) are secreted proteins that regulate the activity of metalloproteinases, enzymes important in development, tissue remodeling, angiogenesis, and tumorigenesis. To assess the importance of three highly conserved amino acids, His7, Asp16, and His95, in determining the biological properties of mouse TIMP-1, they were mutated into Arg, Tyr, and Arg, respectively. Recombinant vectors constructed to express the wild-type and mutant TIMP-1 proteins under the control of the metallothionein promoter were transfected into mouse melanoma B16F10 cells, which produce very little TIMP-1. Individual clones were isolated and characterized by Southern, Northern, and Western blotting to verify the presence of the TIMP-1 minigene and its expression. Analyses of conditioned media for collagenase-inhibiting activity indicated that both histidine mutants, but not the aspartic acid mutant, were functionally impaired. An investigation of the cell migration, matrix invasion, and tumor formation capabilities of several individual clones representing each of the mutants revealed that the His7Arg and His95Arg mutations, but not the Asp16Tyr mutation, largely abolished the ability of the protein to inhibit all of these activities. These data establish that for B16F10 cells, endogenously generated TIMP-1 is an effective inhibitor not only of matrix invasion and tumorigenicity but also, unexpectedly, of cell motility on plastic. The novel finding that both His7 and His95 are separately essential for significant TIMP-1 activity in vivo provides an important new insight into TIMP-1 function.
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PMID:Directed mutagenesis reveals that two histidines in tissue inhibitor of metalloproteinase-1 are each essential for the suppression of cell migration, invasion, and tumorigenicity. 893 Apr 8

Hepatic angiosarcoma (HA) is an uncommon neoplasm associated with known etiologic factors in 25% to 42% of cases. It is, however, one of the most common sarcomas found in the liver. The aim of this study was to find was to find mutations in the K-ras-2 oncogene in sporadic and Thorotrast (TT)-induced HA. Point mutations in K-ras-2 were sought in archival, formalin-fixed tissue blocks from 24 patients with angiosarcoma. Of these, 19 cases were sporadic and 5 were TT-induced. Mutational analysis was performed by topographic microdissection with PCR amplification followed by genotyping. Specific mutations were determined by two independent methods: (a) direct sequencing of the PCR product confirmed by rePCR and by using a different sequencing primer, and (b) PCR-based selective enrichment of mutant DNA by endonuclease digestion followed by heteroduplex DNA analysis using denaturing gradient gel electrophoresis. Eleven K-ras-2 point mutations were detected in 7 of 24 (29%) tumors, including 5 of 19 (26%) sporadic HA and 2 of 5 (40%) TT-induced HA. There were seven G:C > A:T and four G:C > T:A mutations. All seven mutated tumors contained a codon 12-aspartate amino acid substitution. In addition, a second codon 12-cysteine mutant cell population was present in one of two codon 12-aspartate mutated TT-induced HA and in three of five codon 12-aspartate sporadic tumors. Of these four tumors, three contained both aspartate and cysteine mutations and were composed of multiple nodules; the fourth was a single mass. Seventeen tumors had multiple nodules; whereas 5 had a K-ras-2 mutation, 12 were wild-type. The molecular pathology of both sporadic and TT-induced HA is characterized by a high rate of K-ras-2 mutations characteristic of oxidative damage (ie, G:C > A:T and G:C > T:A mutations) resulting in two mutated population sets: codon 12 GGT > GAT and GGT > TGT (glycine to aspartic acid and cysteine). This is, to date, the first study to characterize the K-ras-2 gene mutations within human sporadic and TT-induced HA by direct sequence analysis and denaturing gradient gel electrophoresis. These data further support the hypothesis linking adduct-forming vinyl chloride exposure to HA containing a much higher frequency of K-ras-2 mutations and a mutational spectrum characteristic of chloroethylene oxide, a carcinogenic metabolite of vinyl chloride.
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PMID:Sporadic and Thorotrast-induced angiosarcomas of the liver manifest frequent and multiple point mutations in K-ras-2. 901 Apr 58

The beta subunit of human chorionic gonadotropin (hCGbeta) is encoded by four nonallelic CGbeta genes. An assay was developed for distinguishing type I CGbeta allelic genes beta7 and beta6, which possess a GCC codon corresponding to an alanine at position 117 of hCGbeta, from type II CGbeta genes beta8, beta5, and beta3 and its allele beta9, which possess a GAC codon corresponding to an aspartic acid at the same position. In normal trophoblast, hCGbeta is encoded by type II CGbeta genes, whereas normal nontrophoblastic tissues of differing histological origin (breast, prostate, skeletal muscle, bladder, adrenal glands, thyroid, colon, and uterus) express only type I CGbeta genes. We studied the expression of CGbeta genes in 86 tumor specimens collected from patients with breast, bladder, prostate, and thyroid cancer and found that up to 61% of these nontrophoblastic tumors expressed type II CGbeta genes. Experiments performed on tumor tissues and their normal counterparts confirmed that the malignant transformation of nontrophoblastic cells is associated with the expression of type II CGbeta genes. These findings provide the basis for a simple test (the CG117 assay) that may be useful for the diagnosis of the most frequent malignancies.
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PMID:Malignant transformation of nontrophoblastic cells is associated with the expression of chorionic gonadotropin beta genes normally transcribed in trophoblastic cells. 901 84

Thyroid carcinomas, even when well differentiated, usually appear as hypofunctioning at scintigraphy. We report a case of an aggressive insular thyroid carcinoma presenting as an autonomously functioning thyroid nodule and causing severe thyrotoxicosis. The tumor was metastatic to a cervical lymph node and both lungs. An activating mutation of the TSH receptor gene in both the primary tumor and the lymph node metastasis was found, due to a base substitution at codon 633 (normal guanine at position 1896 replaced by cytosine CAC for GAC causing aspartic acid substitution by histidine). Other known oncogenes (gsp, ras, PTC/ret, trk, met, and p53) were not involved. This is the first description of an activating TSH receptor mutation in a thyroid hyperfunctioning carcinoma in which an aggressive malignant phenotype coexisted with activation of the cAMP cascade and differentiated thyroid functions.
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PMID:Detection of an activating mutation of the thyrotropin receptor in a case of an autonomously hyperfunctioning thyroid insular carcinoma. 936 May 62

Nuclear localization sequence (NLS)-dependent nuclear import of SV40 large tumor antigen (T-Ag) fusion proteins is regulated by phosphorylation sites for casein kinase II (CKII) and the cyclin-dependent kinase Cdc2 amino-terminal to the NLS (amino acids 126-132). Between the T-Ag CKII and Cdc2 sites is a site (Ser120) for the double-stranded DNA-dependent protein kinase (dsDNA-PK), which we show here for the first time to play a role in regulating T-Ag nuclear import. We replaced Ser120 by aspartic acid or alanine using site-directed mutagenesis and assessed the effects on nuclear transport kinetics both in vivo (microinjected cells) and in vitro (mechanically perforated cells) in HTC rat hepatoma cells. Maximal nuclear accumulation of the Asp120 and Ala120 protein derivatives was approximately 40% and 70% reduced in vivo, respectively, compared with that of the wild type protein, and similarly reduced in vitro, although to a lesser extent. This implies that the dsDNA-PK site regulates the maximal level of nuclear accumulation, normally functioning to enhance T-Ag nuclear transport; the higher accumulation of the Asp120 protein compared with the Ala120 protein indicates that negative charge at the dsDNA-PK site is mechanistically important in regulating nuclear import. The Asp120 protein accumulated in the nucleus at a faster rate than the wild type protein, implying that phosphorylation at Ser120 may also regulate the nuclear import rate. CKII phosphorylation of the Asp120 protein in cytosol or by purified CKII was approximately 30% higher than that of the Ser120 and Ala120 proteins, while negative charge at the CKII site increased dsDNA-PK phosphorylation of Ser120 by approximately 80% compared with wild type, implying physical and functional interactions between the two phosphorylation sites. Quantitation of NLS recognition by the importin 58/97 subunits using an enzyme-linked immunosorbent assay indicated that while the Ala120 protein derivative had a binding affinity very similar to that of wild type, the Asp120 derivative showed 40% higher affinity. In vitro CKII phosphorylation increased importin binding by about 30% in all cases. These results imply that negative charge at the dsDNA-PK site may enhance nuclear import through increasing both NLS recognition by importin subunits, and phosphorylation at the CKII site, which itself also facilitates NLS recognition by importin 58/97.
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PMID:SV40 large tumor antigen nuclear import is regulated by the double-stranded DNA-dependent protein kinase site (serine 120) flanking the nuclear localization sequence. 926 64

The drug combination N-(phosphonacetyl)-L-aspartic acid (PALA), methylmercaptopurine riboside (MMPR) and 6-aminonicotinamide (6AN), referred to as PMA, induces regressions of advanced CD8F1 murine mammary carcinomas in vivo. We demonstrated that CD8F1 tumor regressions were preceded by the appearance of apoptotic bodies, as observed by microscopic examination of morphology and TUNEL endlabeling, and fragmentation of DNA into nucleosomal "ladder" patterns. These indications of apoptosis were present as early as 6 h after simultaneous administration of MMPR and 6AN and further increased by over fivefold during the next 3 to 6 h, then remained at 7 to 12.8% (0.6 to 2.4% in saline-treated controls) of the cell population for at least 24 h after MMPR + 6AN administration. The 5'-phosphate derivative of MMRP, MMPR-5P, which inhibits de novo purine biosynthesis, was present at a "steady-state" level, and significant (40%) depletion of ATP had occurred by 3 h and both of these events preceded the onset of apoptosis. In addition, MMPR-5P was retained in CD8F1 tumors at a high level over a prolonged period (> 96 h) even as tumors were undergoing regression. The prolonged presence of MMPR-5P was important for optimal chemotherapeutic effect, since treatment with iodotubercidin (IodoT), an inhibitor of MMPR/adenosine kinase, 6 h after MMPR+6AN administration prevented the prolonged accumulation of MMPR-5P and reversed the regression of CD8F1 tumors. In addition, compared to the PMA-treated group, there was a significant restoration of ATP levels after treatment with IodoT. In individual PMA-treated CD8F1 tumors the degree of ATP depletion was found to correlate with the degree of tumor shrinkage at 24 h, after tumors had sufficient time to respond to treatment. These results define the time-course of drug-induced apoptosis in CD8F1 tumors, show that ATP depletion occurs prior to apoptosis and demonstrate that prolonged retention of MMPR-5P is associated with optimal chemotherapy. Collectively, these results suggest that the depletion of ATP by PMA treatment may be a component of the biochemical apoptotic cascade in the CD8F1 tumor.
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PMID:Apoptosis induced in advanced CD8F1-murine mammary tumors by the combination of PALA, MMPR and 6AN precedes tumor regression and is preceded by ATP depletion. 927 13


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