Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Retrovirus expression in embryonal carcinoma (EC) cells is blocked at a postintegration stage of the viral life cycle, in part because of the inadequate function of the viral long terminal repeat promoter in this cell type. However, selection for retrovirus expression in EC cells has identified mutations in Moloney murine leukemia virus (M-MuLV) located in the tRNA primer-binding site (PBS) region which relieve the EC cell-specific repression. We have found that exchanging the M-MuLV proline PBS for a glutamine one in a recombinant virus permits expression in EC cells. By using the recombinant virus as a backbone, the EC cell-specific repressor-binding site (RBS) element has been mapped to M-MuLV nucleotides 147 to 174. The RBS does not require precise positioning downstream of the M-MuLV promoter and can function in either orientation and in an intron, indicating that the regulatory effect is probably at the DNA, rather than RNA, level. We also show that the RBS element can repress heterologous promoters from an upstream position. Our results indicate that the RBS acts as a silencer that its inhibitory effect is mediated by a trans-acting factor, and that the mechanism of action is probably at the level of transcription. Through in vitro binding assays we have identified a binding factor which specifically recognizes the wild-type RBS sequence (binding factor A). The binding characteristics of factor A suggest that it is a stem cell repressor which acts at the M-MuLV RBS. Our DNA-binding assays also have identified a unique binding factor (binding factor Hp) which specifically recognizes a hemimethylated form of the wild-type RBS. This factor may play a role in methylation mediated control of retrovirus expression in EC cells.
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PMID:A stem cell-specific silencer in the primer-binding site of a retrovirus. 199 87

The examination of cerebrospinal fluid has provided useful information for diagnosis of CNS infections. The progress of analytical technology has brought the possibility to detect very small amounts of chemical substances. I thought that new information from brain should be obtained by using modern analytical technology for several substances in CSF. Free amino acid pattern, glutamine, homocarnosine, glutamic acid decarboxylase (GAD), neuron specific enolase (NSE) and 2',5'-oligoadenylic acid synthetase (2-5 A) in CSF have been examined for information of brain injury and dysfunctions. The results are as follows. 1) The individual difference and constancy of free amino acid pattern in CSF were found in children without any neurological diseases. 2) The levels of free amino acids in CSF increased in the acute phase of bacterial meningitis. 3) High levels of glutamine in CSF of children with acute bacterial meningitis were normalized during the recovery phase. 4) A marked imbalance of free amino acids in CSF was found in children with Lennox-Gastaut syndrome. 5) A decrease of homocarnosine levels in CSF was related with the degree of unconsciousness in children suffering from neurological diseases. 6) High GAD activities in CSF were observed in the acute phase of aseptic meningitis and after intrathecal injection of methotrexate for the therapy against meningeal leukemia. 7) High NSE activities in CSF were found in the acute phase of bacterial meningitis, intracranial hemorrhage, encephalopathy and encephalitis. 8) High 2-5A activities CSF were measured in the acute phase of mumps meningitis with subsequent decreases during the recovery phase. These results suggest that several substances in CSF are useful as markers of brain injury and dysfunction.
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PMID:[Cerebrospinal fluid as informative source of the brain]. 201 95

1. Isolated perfused livers from starved mice inoculated with myeloproliferative leukemia virus exhibited similar rates of consumption of [3-13C]alanine and of synthesis of glutamine and glutamate labeled at the C-2 or C-3 positions as livers from uninfected mice. 2. Leukemic livers also formed glutamine and glutamate labeled at the C-4 position. This is related to their lower content of triglyceride as compared to that of control livers which do not produce these isotopomers. 3. The glucose synthesis rate was much lower in livers from leukemic mice. This is explained by the glycolytic properties of the leukemic infiltrating cells.
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PMID:Modification of the gluconeogenic/glycolytic balance in isolated perfused liver of myeloproliferative leukemia infected mice: a 13C NMR study. 215 73

Expression of the murine leukemia virus pol gene occurs by translational readthrough of an in-frame UAG codon between the gag and pol coding regions. In a previous study, we mutated the UAG codon to UAA or UGA and demonstrated that both of these termination codons could be suppressed in reticulocyte lysates and in infected cells with the same efficiency as UAG. We now report the identity of the amino acids inserted in vitro in response to UAA and UGA in fusion products containing the gag-pol junction region. The results show that UAA, like UAG, directs the incorporation of glutamine, whereas UGA directs the incorporation of three amino acids, arginine, cysteine, and tryptophan. To our knowledge, this is the first report indicating misreading of UAA as glutamine and UGA as arginine and cysteine in higher eukaryotes. Interestingly, although our protein synthesis system presumably contains other known UAG and UGA suppressors, these tRNAs did not suppress the termination codons in our experiments. Thus, it seems possible that the sequence surrounding the gag-pol junction not only promotes suppression but also helps determine which tRNAs function in suppression.
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PMID:Identification of amino acids inserted during suppression of UAA and UGA termination codons at the gag-pol junction of Moloney murine leukemia virus. 224 57

A glutamine analogue, L-glutamic acid gamma-monohydroxamate (GAH) demonstrated complete cytotoxicity against L1210 cells in culture and marked anti-tumoral activity in vivo against L1210 leukemia and B16 melanoma. In vitro, GAH caused concentration-dependent inhibition of L1210 cell growth, with complete cell death being reached at 72 hr and at a 500 microM concentration. A minimal incubation time of 38 hr with 500 microM GAH was necessary to obtain complete cell death at 72 hr. During incubation, GAH is metabolized to hydroxylamine. Hydroxylamine acts as the active form of GAH, since the concentration-dependent inhibition of cell growth caused by hydroxylamine is the same as that observed with GAH. The cytotoxic effects of GAH and hydroxylamine on L1210 cells were not reversed or prevented by L-glutamine or L-glutamic acid and purine nucleosides but were prevented or reversed by pyruvate, 2-oxaloacetate and 2-oxoglutarate. In vivo, GAH considerably increased survival of mice bearing L1210 leukemia or a solid tumor, the B16 melanoma. Antitumor activity of GAH against L1210 leukemia and B16 melanoma was schedule-dependent. The administration of GAH 3 times daily was more effective than a twice daily treatment and the maximum ILS was observed using split-dose schedules on days 1 through 3 and 7 through 9 without noticeable toxicity. Under these conditions hydroxylamine is highly toxic, suggesting that in vivo GAH might act as an hydroxylamine releaser in the tumor cells and is not significantly metabolized in the body.
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PMID:In vitro and in vivo anti-tumor activity of L-glutamic acid gamma-monohydroxamate against L1210 leukemia and B16 melanoma. 232 50

We performed analyses of electrolytes, amino acids, albumin, alpha 2-macroglobulin, gamma-globulin and LDH in the lumbar cerebrospinal fluid of children undergoing treatment for acute lymphoblastic leukemia, non-Hodgkin-lymphoma or acute myeloid leukemia. At the time of diagnosis signs of a disturbance of the blood-brain barrier were found in some patients. During induction treatment with L-asparaginase a rise of glutamic acid and a decrease of glutamine occurred. This finding correlated with slowing of the EEG. Treatment with vincristine was associated with a slight drop of sodium and chloride concentration in serum, but not in the cerebrospinal fluid. Central nervous system prophylaxis with cranial irradiation, and to a lesser degree with intravenous medium-dose methotrexate, gave rise to a further deterioration of the blood-brain barrier function as indicated by an increase in albumin, alpha 2-macroglobulin and LDH levels. During radiotherapy the concentration of several amino acids rose, probably due to a disturbance of active carrier mechanisms. Patients with elevated albumin at the end of radiotherapy more often suffered an early leukemia relapse while still on treatment. No other clinical or electroencephalographic correlations of altered barrier function could be found.
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PMID:Electrolytes, amino acids and proteins in lumbar CSF during the treatment of acute leukemia in childhood. 233 48

A study on the oncolytic activity of the L-cysteine derivative L-cysteine, ethyl ester, S-(N-methylcarbamate) monohydrochloride (NSC 303861), revealed that the drug caused complete regression of the MX-1 human mammary tumor xenograft. The compound also exhibited moderate antitumor activity against murine leukemia P388 (T/C value of 169% at a daily dose of 400 mg/kg) and against M5076 sarcoma (T/C value of 135% at a daily dose of 600 mg/kg). The drug was inactive against B16 melanoma, Lewis lung, colon 38 and CD8F1 mammary carcinomas. The compound exhibited significant cytotoxicity against hepatoma 3924A cells in culture (LC50 = 6 microM). Studies on the mechanism of action revealed that the cytotoxicity of the drug could be partially abrogated by protecting hepatoma 3924A cells in culture with L-glutamine. At 6 h after injection of the compound (400 mg/kg) into rats bearing hepatoma 3924A, the pools of L-glutamine and L-glutamate in the tumor decreased to 33% and 71%, respectively, of control levels; the drug selectively inhibited the activities of L-glutamine-requiring enzymes of purine nucleotide biosynthesis, amidophosphoribosyltransferase, FGAM synthase, and GMP synthase, to 21%, 1%, and 69%, respectively, without significantly altering the activities of pyrimidine biosynthetic enzymes, carbamoylphosphate synthase II and CTP synthase. Measurement of the nucleotide concentrations further corroborated the actions of the drug on the purine nucleotide biosynthetic enzyme activities. Drug injection (400 mg/kg) in the hepatoma 3924A-bearing rats reduced the concentrations of IMP in the tumor to 52%, those of total adenylates to 52%, those of total guanylates to 57%, and those of NAD to 73%, without significantly perturbing the pyrimidine nucleotide pools. Studies on the mechanism of action of the L-cysteine derivative suggested that the compound behaved as an L-glutamine antagonist, selectively acting on the enzymes of purine nucleotide biosynthesis.
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PMID:Oncolytic activity and mechanism of action of a novel L-cysteine derivative, L-cysteine, ethyl ester, S-(N-methylcarbamate) monohydrochloride. 234 42

The glutamine antagonists, acivicin (NSC 163501), azaserine (NSC 742), and 6-diazo-5-oxo-L-norleucine (DON) (NSC 7365), are potent inhibitors of many glutamine-dependent amidotransferases in vitro. Experiments performed with mouse L1210 leukemia growing in culture show that each antagonist has different sites of inhibition in nucleotide biosynthesis. Acivicin is a potent inhibitor of CTP and GMP synthetases and partially inhibits N-formylglycineamidine ribotide (FGAM) synthetase of purine biosynthesis. DON inhibits FGAM synthetase, CTP synthetase, and glucosamine-6-phosphate isomerase. Azaserine inhibits FGAM synthetase and glucosamine-6-phosphate isomerase. Large accumulations of FGAR and its di- and triphosphate derivatives were observed for all three antagonists which could interfere with the biosynthesis of nucleic acids, providing another mechanism of cytotoxicity. Acivicin, azaserine, and DON are not potent inhibitors of carbamyl phosphate synthetase II (glutamine-hydrolyzing) and amidophosphoribosyltransferase in leukemia cells growing in culture although there are reports of such inhibitions in vitro. Blockade of de novo purine biosynthesis by these three antagonists results in a "complementary stimulation" of de novo pyrimidine biosynthesis.
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PMID:Cytotoxic mechanisms of glutamine antagonists in mouse L1210 leukemia. 235 67

Acivicin is an investigational amino acid antitumor antibiotic currently being evaluated in Phase II clinical trials. In humans acivicin causes reversible, dose-limiting central nervous system (CNS) effects including somnolence, ataxia, personality changes, and hallucinations. We have observed and reported previously that acivicin-treated cats exhibit symptoms (ataxia, sedation, somnolence) resembling CNS toxicity reported in humans. We hypothesized that if acivicin uptake into brain were mediated by a saturable transport system common to endogenous amino acids, drug uptake and CNS toxicity might be blocked by elevation of normal amino acid concentrations in circulating plasma. To test this hypothesis, cats received constant-rate i.v. infusions of either saline or Aminosyn, 10% (a commercially available mixture of 16 amino acids not containing glutamine, glutamate, aspartate, or cysteine) for 4 h prior to and 18 h subsequent to administration of acivicin at a dose producing marked behavioral changes in control cats. Presence or absence of ataxia and sedation were noted at intervals after acivicin treatment. Results showed that Aminosyn infusion prevented CNS symptoms in six of eight cats. Subsequent experiments showed that acivicin levels in brain tissue of Aminosyn-treated cats were 13% of the drug levels in saline-infused cats. Acivicin levels in most peripheral tissues were also decreased significantly by Aminosyn infusion but not to the extent observed in brain. Decreased brain uptake was shown to be due to a combination of amino acid blockade of drug transport into that organ and of increased total body clearance of drug. Concomitant Aminosyn treatment did not alter the efficacy of acivicin in mice bearing L1210 leukemia or MX-1 human mammary carcinoma. Further studies demonstrated that a solution containing only four large neutral amino acids (leucine, isoleucine, phenylalanine, and valine) could also protect cats from acivicin-induced CNS toxicity, apparently without increasing acivicin total body clearance. However, a mixture of several other amino acids contained in Aminosyn (alanine, arginine, tyrosine, histidine, proline, serine, and glycine) failed to prevent CNS toxicity. We conclude that cotreatment with Aminosyn or a mixture of large neutral amino acids could protect cancer patients from acivicin-induced CNS toxicity without ablating antitumor efficacy.
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PMID:Prevention of central nervous system toxicity of the antitumor antibiotic acivicin by concomitant infusion of an amino acid mixture. 238 52

We have previously described the construction of a mutant of Moloney murine leukemia virus bearing a deletion at the normal site of integration of the viral DNA. We have now recovered a revertant of the virus after abortive infection of mouse cells and have determined the structure of the new virus. The revertant is a recombinant virus containing a 500-base-pair patch of new sequences derived from the mouse genome. The integration site was perfectly restored to the wild-type sequence, although the patch of DNA was overall only 80% homologous to Moloney murine leukemia virus. Surprisingly, the tRNA primer binding site was no longer homologous to the usual proline tRNAs, but was a perfect match for glutamine tRNA. This result suggests that the Moloney murine leukemia virus reverse transcriptase is not specific to one tRNA, but can utilize different tRNAs to prime the synthesis of viral DNA. Comparisons with published reports allowed the identification of sequences that are 94% homologous to the patch sequence, present in one of the endogenous retroviral sequences of the mouse. No replication-competent members of this family, utilizing the glutamine tRNA primer, have been previously isolated.
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PMID:Isolation of a recombinant murine leukemia virus utilizing a new primer tRNA. 241 55


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