UMLS:C0023418 - FACTA Search

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Query: UMLS:C0023418 (leukemia)
93,477 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Avian c-erbB is activated to a leukemia oncogene following truncation of its amino-terminal, ligand-binding domain by retroviral insertion. The insertionally activated transcripts encode protein products that have constitutive tyrosine kinase activity and that can induce erythro-leukemia but not sarcomas. We have found that a single point mutation within the ATP-binding pocket of the tyrosine kinase domain in this truncated molecule can increase the ability of this oncogene to induce anchorage-independent growth of fibroblasts in vitro and fibrosarcoma formation in vivo. Associated with this increased transforming potential is a corresponding increase in the kinase activity of the mutant erbB protein product. The mutation, which converts a valine to isoleucine at position 157 of the insertionally activated c-erbB product, is at a residue that is highly conserved within the protein kinase family. To our knowledge, this is the first demonstration of a point mutation in the ATP-binding pocket that activates a tyrosine kinase.
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PMID:Tissue-specific transformation by epidermal growth factor receptor: a single point mutation within the ATP-binding pocket of the erbB product increases its intrinsic kinase activity and activates its sarcomagenic potential. 197 68

The appearance of chemoresistance is the most relevant limitation of chemotherapy. It has been shown that multidrug resistance (MDR) is frequently related to the expression of a membrane glycoprotein (P-170). This protein is able to bind ATP and leads to decreased accumulation of structurally unrelated antineoplastic drugs extensively used in the management of hematological patients. The availability of monoclonal antibodies and probes allowed extensive studies both "in vitro" and "in vivo" of the protein structure and of its mechanism of action. The P 170 activity may be antagonized by drugs able to compete with chemotherapic agents for the binding or by calcium antagonists that inhibit the expulsion activity of the protein. P 170 has been found in variable percentages of several hematological malignancies such as leukemia, myelodysplastic syndromes, myeloma and lymphoma. The reported data seem to indicate that the patients carrying P 170-positive neoplastic cells should be treated with drugs that are not bound by the protein. However, the possibility of inhibiting the protein function and the recent reports suggesting the use of P 170 as a target for immunotoxins could be the basis for new therapeutic protocols.
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PMID:Multidrug resistance: focus in hematology. 198 Apr 79

We previously reported that MX2, a new morpholino anthracycline, showed marked effects on pleiotropic drug-resistant sublines of murine P388 leukemia in vivo as well as in vitro. In this study we examine the in vitro cytotoxicity against pleiotropic drug-resistant sublines of human tumor cell lines. MX2 was effective against multidrug-resistant sublines of four human tumor cell lines; these cells, having a 4.8- to 200-fold cross-resistance to Adriamycin (ADM) showed only a 0.7- to 2.3-fold resistance to MX2 compared with the sensitive cells. To elucidate the mechanism by which MX2 overcomes multidrug resistance, the intracellular pharmacology of MX2 in human myelogenous leukemia K562 and its ADM-resistant subline (K562/ADM) was examined. Both K562 and K562/ADM cells accumulated MX2 more easily than ADM, and the intracellular accumulation of MX2 attained a steady state in both cell lines within 30 min of incubation at 37 degrees C. The amount of MX2 that accumulated in K562/ADM at a steady state was only 1.3 times lower than that in K562. However, ADM was accumulated slowly in both cell lines compared with MX2, and the intercellular concentration reached a steady state in K562/ADM after 90 min of incubation and in K562 after more than 120 min. K562/ADM cells accumulated a 3.3-fold lower concentration of ADM than K562 after 120 min of exposure. The steady-state concentration of ADM in K562/ADM was 8.3 times lower than that of MX2. In addition, greater than 70% of MX2 was retained in both cell lines after 150 min of incubation in the absence of this drug. Verapamil, a calcium antagonist, hardly augmented the cytotoxicity of MX2 against K562/ADM, and no distinct effect of this drug on both the time course and the maximal level of accumulation of MX2 was observed. Interestingly, MX2 effectively inhibited ATP/Mg2(+)-dependent [3H]vincristine binding to K562/ADM membrane preparations, indicating that MX2 could be transported outside the cell by an active efflux pump. The high intracellular accumulation and retention of MX2 in K562/ADM through the rapid influx of the drug into the cells may be one of the reasons why MX2 circumvents pleiotropic drug resistance.
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PMID:Cellular pharmacology of MX2, a new morpholino anthracycline, in human pleiotropic drug-resistant cells. 198 80

The intracellular concentration of 1-beta-D-arabinofuranosylcytosine (ara-C) for half-maximal phosphorylation by leukemic blasts obtained directly from patients was 2.1 +/- 2.5 microM (median, 1.3 microM, N = 25), and the rate of ara-C accumulation actually declined at concentrations above 20 microM in 35% of these cell populations. These apparent Km values for cellular phosphorylation were an order of magnitude lower than the Km of deoxycytidine (dCyd) kinase for ara-C with ATP as phosphate donor. dCyd kinase was purified from human leukemia cells and assayed for [3H]ara-C kinase activity with a mixture of 7 nucleotides at their approximate cellular concentrations or with a single nucleotide deleted. At low or high ara-C concentrations, ATP, GTP, CTP, or dTTP could be eliminated without significantly altering the rate. The only potential phosphate donor that was clearly important was UTP, since its deletion reduced the rate to only 25% of that with the complete mix. As anticipated, eliminating dCTP, the end product of this salvage pathway, moderately increased the rate by 50% at 0.4 microM ara-C or by 26% at 40 microM ara-C. At 40 microM ara-C, deleting UDP from the mix increased the rate more than deleting dCTP. dCTP was less inhibitory against 1 mM UTP (50% inhibitory concentration, 26 microM) than against 4 mM ATP (50% inhibitory concentration, 2.2 microM). In kinetic assays with 4 mM ATP and variable ara-C, UDP was a potent uncompetitive inhibitor with a Ki of 4 microM; the Ki for ADP was 1000-fold higher. Direct fit of kinetic data to the Michaelis equation yielded a Km for ara-C of 49 microM with 4 mM ATP as the phosphate donor; however, there was evidence of negative cooperativity with a Hill coefficient of 0.7. High ara-C Km values were also obtained with GTP and CTP, but with no evidence of cooperativity. With 1 mM UTP, the Km was 1.5 microM with moderate substrate inhibition; thus the kinetic data with UTP were similar to those for ara-C phosphorylation by intact cells. UDP was less potent versus UTP than versus ATP. It lowered the Vmax and enhanced the ara-C substrate inhibition without altering the Km. When 1 mM UTP and 4 mM ATP were mixed, the kinetic pattern was similar to that for UTP alone. The Km for UTP with [3H]dCyd as the phosphate acceptor of 0.8 microM was 25-fold lower than the Km for ATP of 20 microM.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:A critical role for uridine nucleotides in the regulation of deoxycytidine kinase and the concentration dependence of 1-beta-D-arabinofuranosylcytosine phosphorylation in human leukemia cells. 202 37

The effect of the antitumor complex [Au(dppe)2]Cl (where dppe is Ph2P(CH2)2PPh2) on the overall metabolism of cultured mouse L1210 leukemia cells was investigated by comparing 1H and 31P NMR spectra of perchloric acid extracts of cells incubated for 1 h in the presence and absence of 2 microM [Au(dppe)2]Cl. There were marked (ca. two-fold) increases in the levels of lactate and almost all detectable amino acids suggesting a drug-induced increase in the rate of glycolysis and inhibition of protein synthesis. The levels of taurine and phosphorylcholine were significantly decreased and 31P NMR spectra revealed a depletion of nucleoside triphosphates (NTP). The effect on nucleotide metabolism was investigated further by separating purine and pyrimidine nucleotides and precursors by anion-exchange HPLC. NTP levels were depleted by ca. 70-90% and there was a ca. three- to four-fold increase in nucleoside di- and monophosphates. The effect is postulated to be the result of uncoupling of mitochondrial oxidative phosphorylation. The Cu(I) complex [Cu(Ph2PCH = CHPPh2)2]Cl produced a similar effect on the cellular metabolism but was more potent. The water-soluble complex [Cu(Ph2P(CH2)PEt2)2]Cl caused the accumulation of cellular amino acids at a concentration that did not significantly deplete ATP levels.
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PMID:1H and 31P NMR and HPLC studies of mouse L1210 leukemia cell extracts: the effect of Au(I) and Cu(I) diphosphine complexes on the cell metabolism. 206 26

Heat production by leukemia cells Molt 4, growing in suspensions with 1 and 3 x 10(5) cells/ml for 4 days, was studied by microcalorimetry. Heat production rates were related to cell growth, glucose consumption, lactate production and cellular ATP-content. The results show that the time course of heat dissipation is dependent on initial cell number. However, observed thermal power maxima were fairly identical in all experiments. Heat production rates per cell were similar during the initial phase of the study independently of initial cell number, while higher cell densities resulted in significantly lower rate of heat production. Glycolytic conversion of glucose into lactate is nearly stoichiometric. Our results indicate a relationship between heat production and amounts of glucose and lactate in the medium. ATP concentration in cells decreased after 24 hours of culture.
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PMID:Microcalorimetric investigations on human leukemia cells--Molt 4. 210 21

Using the patch-clamp technique, we studied regulation of potassium channels by G protein activators in the histamine-secreting rat basophilic leukemia (RBL-2H3) cell line. These cells normally express inward rectifier K+ channels, with a macroscopic whole-cell conductance in normal Ringer ranging from 1 to 16 nS/cell. This conductance is stabilized by including ATP or GTP in the pipette solution. Intracellular dialysis with any of three different activators of G proteins (GTP gamma S, GppNHp, or AlF-4) completely inhibited the inward rectifier K+ conductance with a half-time for decline averaging approximately 300 s after "break-in" to achieve whole-cell recording. In addition, with a half-time averaging approximately 200 s, G protein activators induced the appearance of a novel time-independent outwardly rectifying K+ conductance, which reached a maximum of 1-14 nS. The induced K+ channels are distinct from inward rectifier channels, having a smaller single-channel conductance of approximately 8 pS in symmetrical 160 mM K+, and being more sensitive to block by quinidine, but less sensitive to block by Ba2+. The induced K+ channels were also highly permeable to Rb+ but not to Na+ or Cs+. The current was not activated by the second messengers Ca2+, inositol 1,4,5-trisphosphate, inositol 1,3,4,5-tetrakisphosphate, or by cyclic AMP-dependent phosphorylation. Pretreatment of cells with pertussis toxin (0.1 microgram/ml for 12-13 h) prevented this current's induction both by guanine nucleotides and aluminum fluoride, but had no effect on the decrease in inward rectifier conductance. Since GTP gamma S is known to stimulate secretion from patch-clamped rat peritoneal mast cells, it is conceivable that K+ channels become inserted into the plasma membrane from secretory granules. However, total membrane capacitance remained nearly constant during appearance of the K+ channels, suggesting that secretion induced by GTP gamma S was minimal. Furthermore, pertussis toxin had no effect on secretion triggered by antigen, and triggering of secretion before electrical recording failed to induce the outward K+ current. Finally, GTP gamma S activated the K+ channel in excised inside-out patches of membrane. We conclude that two different GTP-binding proteins differentially regulate two subsets of K+ channels, causing the inward rectifier to close and a novel K+ channel to open when activated.
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PMID:G protein control of potassium channel activity in a mast cell line. 210 71

The depletion of intracellular ATP by mitochondrial inhibitors in a glucose-free saline solution inhibited antigen-stimulated 45Ca uptake, the rise in cytoplasmic calcium, measured by fura-2, and secretion in rat basophilic leukemia cells. Lowering the intracellular ATP concentration also released calcium from an intracellular store and made further 45Ca efflux from the cells unresponsive to subsequent antigen stimulation. Antigen-stimulated 45Ca efflux could be restored by the addition of glucose. The ATP-sensitive calcium store appeared to be the same store that releases calcium in response to antigen. In contrast, intracellular ATP was not lowered, and antigen-stimulated secretion was unaffected by mitochondrial inhibitors, provided that glucose was present in the bathing solution. Similarly, antigen-stimulated 45Ca uptake, 45Ca efflux, and the rise in free ionized calcium were unaffected by individual mitochondrial inhibitors in the presence of glucose. However, when the respiratory chain inhibitor antimycin A was used in combination with the ATP synthetase inhibitor oligomycin in the presence of glucose, antigen-stimulated 45Ca uptake was inhibited, whereas the rise in free ionized calcium and secretion were unaffected. Also, antigen-induced depolarization (an indirect measurement of Ca2+ influx across the plasma membrane) was not affected. The inhibition of antigen-stimulated 45Ca uptake could, however, be overcome if a high concentration of the Ca2+ buffer quin2 was present in the cells to buffer the incoming 45Ca. These results suggest that in fully functional rat basophilic leukemia cells the majority of the calcium entering in response to antigen stimulation is initially buffered by a calcium store sensitive to antimycin A and oligomycin, presumably the mitochondria.
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PMID:The effect of mitochondrial inhibitors on calcium homeostasis in tumor mast cells. 213 75

Using an outgrowth method, combinations of trimetrexate and etoposide were synergistic against L1210 leukemia as assessed by the median-effect method. Trimetrexate was also found to stimulate etoposide-mediated protein-associated DNA strand breaks by nearly 2-fold when L1210 cells were exposed to 0.5 microM drug(s) for 2 hr. Trimetrexate had no effect on the transport of etoposide or the repair of etoposide-induced DNA strand breaks. Other drugs that interfere with de novo purine biosynthesis, including methotrexate and 5,10-dideazatetrahydrofolate, also potentiated etoposide-induced DNA strand breaks, whereas agents that specifically reduce intracellular concentrations of pyrimidines (pyrazofurin or CB-3717) had no effect. Only those protectants that restored ATP levels (adenosine or hypoxanthine) could abolish the stimulatory effect of trimetrexate. Finally, it was shown that by exposing cells to various concentrations of 2,4-dinitrophenol, there was an inverse relationship between the number of DNA strand breaks produced by etoposide and the intracellular concentrations of ATP down to about 600 microM. The results indicate that trimetrexate stimulates etoposide-induced DNA strand breaks possibly by modulating intracellular ATP levels which may contribute to the synergistic interaction between these drugs.
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PMID:Cytotoxic synergism between trimetrexate and etoposide. Evidence that trimetrexate potentiates etoposide-induced protein-associated DNA strand breaks in L1210 leukemia cells through alterations in intracellular ATP concentrations. 214 63

A bacterial expression vector containing a segment of the v-abl gene from Abelson murine leukemia virus (A-MuLV) was constructed such that the gag region of v-abl was replaced by a sequence encoding the IgG-binding domain of the S. aureus protein A. pabl HP, a fusion protein encoded by this vector was rapidly purified to near homogeneity by affinity chromatography on IgG-Affigel and Mono Q FPLC. The Km of the pabl HP kinase for ATP varied with [Val5]-angiotensin II concentration and was 21.2 microM at saturating concentrations of [Val5]-angiotensin II. The Km for [Val5]-angiotensin II at saturating concentrations of ATP was 3.8 mM. The turnover number, at 20 degrees C, was 62 mumol min-1 mumol-1. Initial rate studies support a ternary complex kinetic mechanism for phosphoryl transferase. The substrate specificity of the pabl HP kinase was further characterized using synthetic peptides. This expression system, which enables the rapid purification of recombinant v-abl kinase is suitable for the comparative enzymological study of mutant v-abl enzymes generated by site-directed mutagenesis.
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PMID:An E. coli expression system for the rapid purification and characterization of a v-abl tyrosine protein kinase. 215 86

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