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)

A number of highly lipophilic dineodecanoato(trans-R,R- and trans-S,S-1,2-diaminocyclohexane) platinum (II) complexes were entrapped in multilamellar vesicles composed of dimyristoyl phosphatidylcholine and dimyristoyl phosphatidyl-glycerol at a molar ratio of 7:3. The entrapment efficiency and stability of liposomal platinum (L-Pt) preparations was greater than 90%. The subacute mouse LD50 of L-Pt preparations tested ranged from 60 to 104 mg/kg. All L-Pt preparations tested had no significant nephrotoxicity at the LD50 dose except for L-Pt 5, which caused renal dysfunctions (as evidenced by elevated blood urea nitrogen levels) at the LD50 dose. L-Pt preparations had shown good in vivo antitumor activity against i.p. L1210 leukemia when an optimal dose was administered i.p. to mice on days 1, 5 and 9 (% T/C 230-300; cisplatin 220). L-Pt preparations were also markedly active, by the i.p. route, against L1210 leukemia resistant to cisplatin (% T/C 237-355; cisplatin 112). All L-Pt preparations exhibited significant antitumor activity against B16 melanoma when administered i.p. on day 1 (% T/C 144-155; cisplatin 161). L-Pt 1, 3 and 5 were all tested by the i.v. route on days 4, 8 and 12 against M5076 reticulosarcoma, but none of these preparations showed any significant antitumor activity against this tumor system (% T/C 120-127; cisplatin 173). Current studies aimed at optimizing the liposomal formulation of these compounds should result in the selection of a single isomeric L-Pt formulation for clinical development.
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PMID:Toxicity and efficacy studies on a series of lipid-soluble dineodecanoato(trans-R,R- and trans-S,S-1,2-diaminocyclohexane) platinum (II) complexes entrapped in liposomes. 152 98

The 14-O-palmitoyl ester of 3'-deamino-3'-hydroxydoxorubicin was synthesized to study the liposomal formulation and biological activity properties conferred by the attachment of a lipophilic group to position 14 of the anthracycline molecule. The entrapment efficiency of 14-O-palmitoyl-hydroxyrubicin in multilamellar vesicles composed of dimyristoylphosphatidyl choline and dimyristoylphosphatidyl glycerol was greater than 99%. In addition, the stability of liposomes containing 14-O-palmitoyl-hydroxyrubicin was greater than 99% at 14 days as assessed by the amount of drug leaking out of the liposomes and the absence of crystals of free drug in the liposome pellet. Esterification at position 14 did not significantly decrease the potency of the parent compound 3'-hydroxydoxorubicin. Liposome-entrapped 14-O-palmitoyl-hydroxyrubicin was significantly more active than doxorubicin against two murine tumor models. Against ip L-1210 leukemia, liposome-entrapped 14-O-palmitoyl-hydroxyrubicin injected i.p. into mice at doses of 60 and 80 mg/kg resulted in a %T/C value (median survival of treated/control animals x 100) of greater than 600, with 3-4 of 6 animals being cured, whereas in the same experiments, doxorubicin injected at the optimal dose (10 mg/kg) resulted in a %T/C value of 340, with 1 of 6 animals being cured. In animals bearing liver metastases of M-5076 reticulosarcoma, liposome-entrapped 14-O-palmitoyl-hydroxyrubicin showed significant antitumor activity when given on a three-i.v.-injection schedule of 20 mg/kg on days 4, 8, and 12 (%T/C, 175), whereas doxorubicin injected at optimal doses of 6-8 mg/kg on the same days was devoid of antitumor activity (%T/C, 129-133). These results indicate that esterification at position 14 enhances the affinity of this type of compounds for lipid bilayers without negatively affecting their biological activity.
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PMID:Liposomal formulation and antitumor activity of 14-O-palmitoyl-hydroxyrubicin. 164 93

The cytotoxicity of bleomycin (BLM) toward Chinese Hamster V79 and murine leukemia L1210 was extraordinarily potentiated in the presence of glycerol. The synergistic effect of glycerol emerged in combinations with BLM analogs (peplomycin and libromycin) as well, but not with other cytotoxic drugs such as adriamycin, neocarzinostatin, paraquat, hydrogen peroxide, and N-methyl-N-nitrosourea. The cytotoxicity of BLM and its analogs was potentiated by some polyhydric alcohols as intensely as by glycerol. Polyhydric alcohols containing more than two hydroxyl groups in the molecule were effective in V79 cells, and those containing more than three hydroxyl groups were effective in L1210 cells. The cellular uptake of [3H] peplomycin was not affected by glycerol. For antitumor activity, when 0.5 ml of glycerol (10%) and erythritol (10%) were combined with 2.0 mg/kg/day of BLM, the 5-day treatment of Ehrlich cell-bearing (i.p.) mice prolonged the life span by 244% and 282% (T/C), respectively. When a low dose of BLM (0.2 mg/kg/day) was combined with 0.5 ml of glycerol (20%) and erythritol (30%), the therapeutic gains were 1.82 and 1.88, respectively. These results suggest the possibility that the adjuvant treatment of BLM with polyhydric alcohols might be applied to the clinical treatment of cancerous peritonitis and pleuritis.
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PMID:Potentiation of bleomycin cytotoxicity by polyhydric alcohols. 169 98

Multivalent antigen that is capable of binding to and crosslinking the IgE receptors on rat basophilic leukemia (RBL) cells, induces a rapid and sustained rise in the content of filamentous actin. This reorganization of the actin may be responsible for changes in cellular morphology during the degranulation process. The antigen-stimulated polymerization of actin can be blocked in a dose-dependent manner by protein kinase inhibitors which also block degranulation. Conversely, reagents such as PMA, 1,2-dioctanoyl-sn-glycerol (diC8), and 1-oleoyl-2-acetyl-glycerol (OAG) which stimulate protein kinase C (PKC) also activate the rise in F-actin, although they have no effect on degranulation by themselves. The actin response which can be stimulated by the PKC activators can also be blocked by protein kinase inhibitors indicating that the PMA- and OAG-induced response is probably through activation of a protein kinase. Depletion of PKC activity through long term (20 h) exposure of RBL cells to PMA, also inhibited the F-actin response when the cells were stimulated with either multivalent antigen or OAG. External Ca++, which is an absolute requirement for degranulation, is not necessary for the rise in F-actin, but may modulate the response. Furthermore, ionomycin, which induces a large Ca++ influx, does not stimulate the F-actin increase even at doses that cause degranulation. These results suggest that activation of a protein kinase, such as PKC, may be responsible for signaling the polymerization of actin in RBL cells and that a rise in intracellular Ca++ is neither necessary nor sufficient for this response.
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PMID:Regulation of the antigen-induced F-actin response in rat basophilic leukemia cells by protein kinase C. 182 60

Comparison is made between several synthetic stereo and positional isomers of D-myo-inositol 1,4,5-trisphosphate (D-myo-1,4,5-IP3) with respect to their ability to mobilize calcium from the internal stores of saponin-permeabilized rat basophilic leukemia cells. D- and L-myo-Inositol 1,4,5-trisphosphates, D- and L-myo-inositol 2,4,5-trisphosphates, D- and L-chiro-inositol 1,3,4-trisphosphates, D,L-trans-1,2-cyclohexane-diol bisphosphate, D,L-myo-inositol 4,5-bisphosphate, L-glycerol 1,2-bisphosphate, glycerol 1,3-bisphosphate and D,L-(1R,3R,4R)-1-phosphoryloxymethyl-trans-3,4-cyclohexanediol bisphosphate were tested. The analogs, each of which contains a vicinal trans-1,2-diol-bisphosphate motif, displayed potencies that were distributed over a 10(4)-fold range of concentration and fell into 4 distinct classes of activity.
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PMID:The Ca2+ release activities of D-myo-inositol 1,4,5-trisphosphate analogs are quantized. 188 94

The role of protein kinase C in phospholipase A2 (PLA2) activation in rat basophilic leukemia cells (RBL-2H3) and macrophages was investigated. 12-O-Tetradecanoyl phorbol 13-acetate (TPA) doubled ionomycin-induced PLA2 activity, assessed by [3H]arachidonate release. Protein kinase C inhibitors, staurosporine and K252a (100 nM) or H-7 (15 micrograms/ml) inhibited ionomycin-stimulation of PLA2 activity by 62, 75 and 80%, respectively. Down-regulation of protein kinase C by prolonged treatment with TPA inhibited Ca2(+)-ionophore A23187 or antigen-stimulation of [3H]arachidonate release by 80%. We examined whether the inhibitory effect of dexamethasone (DEX) on PLA2 activity is related to modulation of protein kinase C activity. The 50% inhibition by DEX of ionomycin elevation of [3H]arachidonate release was almost overcome by addition of TPA. The Ca2+ ionophore and antigen-induced increase in [3H]TPA binding to intact RBL cells was not impaired by DEX. However, DEX markedly reduced phosphorylation of several proteins. 1-Oleoyl-2-acetyl-glycerol (OAG) had a sustained stimulatory effect on PLA2 activity in isolated plasma membranes derived from treated bone-marrow intact mouse macrophages, while both DEX and staurosporine reduced elevated PLA2 activity by 68 and 84%, respectively. The results support an essential role for protein kinase C in regulation of PLA2 activity.
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PMID:Arachidonic acid release by basophilic leukemia cells and macrophages stimulated by Ca2+ ionophores, antigen and diacylglycerol: essential role for protein kinase C and prevention by glucocorticosteroids. 200 19

Mitoxantrone (MTO) was incorporated into small unilamellar liposomes by formation of a complex between the anticancer drug and negatively charged lipids. The complex was formed at a 2:1 molar ratio between the lipids and MTO, with phosphatidic acid (PA) being the strongest complex-forming lipid. Weaker complexes and lower incorporation rates of MTO resulted when liposomes containing dicetylphosphate, phosphatidyl inositol, phosphatidyl serine, phosphatidyl glycerol, oleic acid, and tridecylphosphate were used. Thus, all further experiments were performed with PA-MTO liposomes that contained 0.1-3 mg MTO/ml and had mean vesicle sizes of 40-150 nm, depending on the drug concentration and the method of liposome preparation. In vitro incubations of free and liposomal MTO with human plasma showed that the drug is slowly transferred from the liposome membranes to the plasma proteins. For liposomal MTO a transfer rate of 48% was determined, whereas 75.8% of free MTO was bound to the plasma proteins. The organ distribution of the two preparations in mice showed that higher and longer-lasting concentrations of liposomal MTO were found in the liver and spleen. The terminal elimination halflives in the liver were 77 h for liposomal MTO and 14.4 h for free MTO. In the blood, slightly higher concentrations were detected for liposomal MTO, which also had slower biphasic elimination kinetics as compared with the free drug. Drug distribution in the heart was not significantly different from that in the kidneys. The LD25 of PA-MTO liposomes in mice was 19.6 mg/kg and that of free MTO was 7.7 mg/kg. The antitumor effects of PA-MTO liposomes were evaluated in murine L1210 leukemia, in various xenografted human tumors, and in methylnitrosourea-induced rat mammary carcinoma. Generally, the liposomal application form was more effective and less toxic than the free drug. The cytostatic effects were dependent on the tumor model, the application schedule, and the drug concentration. At doses that were toxic when free MTO was used, the liposomal preparation produced strong antitumor effects in some cases. In summary, the incorporation of MTO into liposomes changes the drug's plasma-binding properties, alters its organ distribution, reduces its acute toxicity, and increases its cytostatic efficiency in various tumor models. The liposomal PA-MTO complex represents a new application form of MTO that has advantageous properties.
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PMID:Evaluation of incorporation characteristics of mitoxantrone into unilamellar liposomes and analysis of their pharmacokinetic properties, acute toxicity, and antitumor efficacy. 201 13

Both thymidine kinase (TK) and DNA polymerase (DNAp) are present in measurable amounts in human serum. Even though the use of TK as a clinical marker is rapidly increasing there has been no attempt to characterize the serum TK in a wider extent, i.e.; with respect to Mw or other biochemical parameters. Therefore sera with high TK or DNAp activities derived from patients with cytomegalovirus (CMV) infection, B12-deficiency and leukaemia were fractionated by gel exclusion chromatography. The TK activity eluted as two peaks, one major TK activity with an apparent molecular weight (Mw) or 730 kD and one minor TK activity corresponding to a Mw of 58 kD. The amount of TK activity at 58 kD varied between 7 and 23% of total activity, depending on the serum fractionated. The DNAp activity in sera from patients with malignant disease and B12 deficiency eluted as a single peak corresponding to a Mw of 240 kD. A DNAp with a different Mw (greater than 1000 kD) was recovered from 1 of 3 investigated immunosuppressed patients with CMV infection. A similar pattern of enzyme forms was observed when sera were separated by glycerol gradient centrifugation. The effect of high salt and various reaction solution components on the enzymes were studied. The only condition found that affected the molecular forms of TK was the state of reduction. Incubation of sera with high concentrations of dithioerythritol (DTE) (400 mM) prior to separation transferred all serum TK to the 58 kD form, it also converted most of the serum DNAp from the 240 kD form to a smaller form (56 kD) without affecting the total recovery of enzymatic activity. The reaction product from both TK forms was exclusively monophosphate and none of the TK forms could efficiently utilize cytidine triphosphate as phosphate donor. The substrate kinetics of the small serum TK fraction was identical with those of an enzyme with similar size purified from proliferating HeLa cells, indicating that both serum TK activities are forms of TK 1, the proliferation associated cellular isozyme.
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PMID:Molecular forms in human serum of enzymes synthesizing DNA precursors and DNA. 215 79

This laboratory first provided evidence for a potential signal transduction pathway involving sphingomyelin and its derivatives (Kolesnick, R.N., and Clegg, S. (1988) J. Biol. Chem. 263, 6534-6537). Recently, this laboratory demonstrated the existence of the novel sphingolipid ceramide 1-phosphate in human leukemia (HL-60) cells. Ceramide 1-phosphate was synthesized from ceramide derived from sphingomyelin but not glycosphingolipids. This suggested that a specific pathway extended from sphingomyelin to ceramide 1-phosphate. The present studies provide additional support for this notion by demonstrating the existence of a ceramide kinase activity distinct from diacylglycerol (DG) kinase in HL-60 cells. Microsomal membranes contained a kinase activity that phosphorylated ceramide but not 1,2-DG in the presence of physiologic and higher Ca2+ concentrations (60 nM-3 mM). Kinetic analyses demonstrated an apparent Vmax for ceramide and ATP of 70 pmol.min-1.mg protein-1; apparent Km values were 45 and 25 microM, respectively. The pH optimum was within the physiologic range (pH 6-8). Magnesium but not other divalent cations (Mn2+, Ba2+, Cd2+, Zn2+) also stimulated ceramide phosphorylation. Magnesium also induced 1,2-DG phosphorylation. Since DG kinase is a Mg2(+)-stimulable enzyme that may utilize ceramide as substrate, additional studies separated calcium-dependent ceramide kinase from DG kinase activity. 1,2-DGs competitively inhibited magnesium- but not calcium-dependent ceramide phosphorylation. Hence, calcium-dependent ceramide kinase activity neither utilized DG as substrate nor was inhibited by DG. These activities were physically separable. Both activities were solubilized by n-octyl-beta-D-glucopyranoside and stabilized by glycerol. Ceramide kinase activity bound weakly to a DEAE-cellulose anion exchange column and eluted with 4-fold purification as a single peak of activity in the flow-through and 0.05 M NaCl elutions. In contrast, the majority of DG kinase activity bound more tightly and was recovered as a broad peak in the 0.2-0.35 M NaCl elutions. These studies demonstrate the existence of a ceramide kinase activity in HL-60 cells which is functionally and physically separable from DG kinase. These studies provide further support for the notion of a specific pathway from sphingomyelin to ceramide 1-phosphate.
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PMID:Characterization of a ceramide kinase activity from human leukemia (HL-60) cells. Separation from diacylglycerol kinase activity. 217 34

We evaluated the entrapment of 21 different water-insoluble aglycones or anthracycline antibiotics in multilamellar liposomes composed of dimyristoyl phosphatidyl choline and dimyristoyl phosphatidyl glycerol at a 7:3 molar ratio. The drug:lipid weight ratio was 1:15 to 1:50. The different analogues tested were modified at position 4 in the aglycone portion (4-demethoxy) and/or positions 2' (halo), 3' (hydroxy, acetoxy), or 4' (epi, acetoxy) in the sugar portion. The entrapment efficiency was assessed by measuring the amount of free drug remaining in the supernatant after centrifugation of the liposomes and by direct examination of the pellets by fluorescent microscopy. Optimal entrapment (greater than 98%) was observed with only four compounds: 4-demethoxyadriamycinone; 2'-iododaunorubicin; 4-demethoxydaunorubicin; and 2'-iodo-3'-hydroxy-4'-epi-4-demethoxydoxorubicin (Compound 22). All other compounds showed significant drug precipitation outside the multilamellar vesicles when observed by fluorescent microscopy. Compound 22, entrapped in liposomes, was evaluated in vivo against i.p. L-1210 leukemia by the i.p. route, and liver metastases of M5076 reticulosarcoma by the i.v. route. In both models, liposome-entrapped Compound 22 was more active than doxorubicin at the optimal dose [median survival (given in percentage) of treated to control animals was for L-1210, greater than 600 versus 212; for M5076, 200 versus 133]. 4-Demethoxy and 2'-iodo are structural modifications that markedly enhance the affinity of anthracycline antibiotics for lipid bilayers without compromising biological activity. These findings will serve as a guideline to obtain liposome-anthracycline preparations, with optimal formulation characteristics, enhanced tumor-targeting properties, and non-cross-resistance with doxorubicin.
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PMID:Anthracycline antibiotics with high liposome entrapment: structural features and biological activity. 219 51


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