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)

Two types of HL-60 cells, 1,25-(OH)2D3-responsive ATCC HL-60 cells and 1,25-(OH)2D3-resistant LG HL-60 cells were used. Despite the presence of enough amounts of normal 1,25-(OH)2D3 receptors, only 22% of LG cells matured after a 4-day treatment with 10(-7) M 1,25-(OH)2D3, while 80% of ATCC cells differentiated. However, 1,25-(OH)2D3 inhibited the proliferation of LG cells to the same degree as that of ATCC cells. 1,25-(OH)2D3 also induced (1) the ability to metabolize 1,25-(OH)2D3 to 1,24,25-(OH)3D3, and (2) up-regulation of the 1,25-(OH)2D3 receptor in LG as well as ATCC cells. Furthermore, the proportion of mature LG cells was 78% after treatment with 10(-7) M 1,25-(OH)2D3 for the first 48 h and 10(-7) M dbcAMP for the second 48 h, which was greater than that when treated only with 10(-7) M dbcAMP for the second 48 h (24.2%). These results indicate that 1,25-(OH)2D3 receptor complexes function normally in LG cells at commitment step in cell differentiation. ATCC cells had a serine proteinase to destroy specific 1,25-(OH)2D3-binding activity of the unoccupied receptor and digest 53-kD receptor to a small fragment with a MW of 16.3 kD, while not affecting the level of the specific binding of the occupied receptor. Other cells, such as murine leukemia cells, M1, and human chronic myeloid leukemia cells, the differentiation of which is induced by 1,25-(OH)2D3, seemed to have the same type of proteinase, suggesting the physiological significance of this proteinase in 1,25-(OH)2D3-induced cell differentiation.
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PMID:Significance of proteolytic activity in 1,25-(OH)2D3-induced differentiation of HL-60 cells. 166 29

The Hardy-Zuckerman 4 feline sarcoma virus (HZ4-FeSV), isolated from a feline fibrosarcoma, is a replication defective acute transforming feline retrovirus that originated by transduction of feline c-kit sequences with feline leukemia virus (FeLV). The v-kit sequences of the HZ4-FeSV, a segment of 1106 nucleotides, correspond to sequences of the cytoplasmic domain of the c-kit receptor kinase. The HZ4-FeSV is known to encode an 80-kilodalton protein with FeLV gag and kit determinants. The P80gag-kit protein and its associated activities from HZ4-FeSV-transformed mink cells were characterized. The P80gag-kit protein was found to be myristoylated, suggesting a membrane association for this protein. In agreement with the predicted relationship with tyrosine kinases, by using the in vitro immune complex-kinase procedure, the P80gag-kit protein was shown to display a tyrosine-specific autophosphorylation activity. In vivo, the P80 protein was found to be phosphorylated on serine and threonine and to a lesser degree on tyrosine. In addition, potential in vivo protein substrates for tyrosine-specific phosphorylation mediated by the P80gag-kit kinase were identified in HZ4-FeSV-transformed cells.
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PMID:Tyrosine protein kinase activity of the HZ4-feline sarcoma virus P80gag-kit-transforming protein. 169 69

We have purified a protein from the granules of the rat NK leukemia cell line (RNK) that is cytostatic to a variety of tumor cells. This protein shows no species specificity because certain tumor cell lines of mouse, rat, and human origin were equally sensitive to its growth inhibitory effects. Treatment of sensitive cells resulted in a rounding of the cells followed by homotypic aggregation into large aggregates. The granule protein was distinct from cytolysin, Na-Cbz-Lys-thiobenzylester-esterase, or leukolexin. It had a molecular mass of 29 to 31 kDa, bound strongly to heparin, was inactivated by heating at 70 degrees C for 5 min or reduction, but was stable to trypsin treatment. By using molecular sieve chromatography, heparin agarose chromatography, and reverse phase HPLC, this protein was purified to homogeneity. The first 33 amino acids of the N-terminal amino acid sequence showed complete identity to the sequence predicted from a rat serine protease gene recently cloned and designated RNKP-1. Therefore we have purified a novel serine protease and demonstrated that it has effects on the growth and morphology of certain tumor cells. Other serine proteases that were structurally related and have substantial homology with RNKP-1 at the amino acid level showed neither growth inhibitory properties nor affected the morphology of the tumor target cells we used.
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PMID:Purification of a factor from the granules of a rat natural killer cell line (RNK) that reduces tumor cell growth and changes tumor morphology. Molecular identity with a granule serine protease (RNKP-1). 172 74

The gene that encodes a proteoglycan peptide core rich in serine and glycine (SG-PG) is selectively expressed by hematopoietic cells that store in their cytoplasmic granules negatively charged proteoglycans bound ionically to numerous positively charged proteins. With deletion analysis, a negative transcription regulatory element was located between residues -250 and -190 of the 5'-flanking region of the mouse SG-PG gene, and a positive regulatory element was located between residues -118 and -81. The negative regulatory element was dominantly active in fibroblasts that do not express the SG-PG gene whereas the positive regulatory element was dominantly active in hematopoietic cells that do express the SG-PG gene. Site-directed mutagenesis was used to demonstrate that the proximal element within the gene's atypical promoter resided between residues -40 and -20. As assessed by gel mobility shift analyses, the nuclei of rat basophilic leukemia-1 cells and rat-1 fibroblasts contain a number of trans-acting factors that interact with the positive and negative cis-acting regulatory elements of the SG-PG gene. Furthermore, some of these trans-acting factors appear to be different for the two cell types. These studies on cell types that do and do not express the SG-PG gene indicate that transcription of this proteoglycan peptide core gene is regulated constitutively by both positive and negative cis-acting elements located 5' of an atypical promoter.
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PMID:Negative and positive cis-acting elements in the promoter of the mouse gene that encodes the serine/glycine-rich peptide core of secretory granule proteoglycans. 173 Jun 21

We report the purification from a rat natural killer (RNK) large granular lymphocyte leukemia of a 32-kD granule protein that induces rapid DNA fragmentation and apoptosis. The protein, which we have called "fragmentin," was capable of causing DNA from intact YAC-1 cells to be cleaved into oligonucleosomal-sized fragments and producing severe chromatin condensation within 1 h. Amino acid sequence of tryptic peptides indicated that fragmentin was highly homologous to the NK and T cell granule serine proteases RNK protease 1 and mouse cytotoxic T cell protease I (CCPI)/granzyme B. Preincubation with the serine esterase inhibitor 3,4-dichloroisocoumarin blocked fragmentin-induced DNA damage, but had no effect on cytolysin. Fragmentin activity against four lymphoma target cells was completely dependent on the presence of cytolysin. Fragmentin produced rapid membrane damage as well as DNA fragmentation at nonlytic cytolysin doses, suggesting that fragmentin activity was not limited to its effects on the nucleus. Fragmentin and cytolysin activity were completely inhibited by EGTA, indicating the process was Ca2+ dependent. A role for cytolysin in endocytosis of fragmentin was suggested by the observation that treatment of YAC-1 with cytochalasin B or sodium azide and 2-deoxyglucose blocked DNA fragmentation but not cytolysin activity. A 30-kD N alpha-CBZ-L-lysine thiobenzyl esterase, which copurified with fragmentin, was inactive on its own but was able to synergistically amplify the DNA damage induced by fragmentin in the presence of cytolysin. Fragmentin activity was not dependent on protein synthesis, as cycloheximide treatment of YAC-1 cells did not prevent DNA damage. We postulate that fragmentin is the molecular mediator of NK cell-mediated DNA fragmentation and apoptosis.
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PMID:A natural killer cell granule protein that induces DNA fragmentation and apoptosis. 173 16

A group of 27 patients with acute myeloid leukaemia (AML), 15 with active disease and 12 in complete remission, were investigated for evidence of T cell activation. The parameters of T cell activation measured were the serum levels of soluble interleukin-2 receptor (sIL-2R), soluble CD4 (sCD4) and soluble CD8 (sCD8) molecules and the proportions of T cells expressing the cytotoxicity-linked cytoplasmic serine esterase. All patients studied with active disease had elevated sIL-2R and sCD8 molecules and an elevated proportion of T cells expressing serine esterase. Patients studied in complete remission also had elevated sIL-2R. sCD8 and serine-esterase-positive T cells, but values were lower than those studied in active disease. These patients were all studied in the absence of any ongoing or recent infection or exposure to homologous blood products, either of which could potentially affect these parameters. In the absence of any obvious alternative cause, we suggest these data indicate that AML leukaemia blast cells may be immunogenic and lead to the activation of cytotoxic T cells.
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PMID:Lymphocyte activation in patients with acute myeloid leukaemia. Evidence for the presence of myeloblast antigen? 187 95

The Rex proteins of human T-cell leukemia virus types I and II (HTLV-I and HTLV-II) induce cytoplasmic expression of unspliced gag-pol mRNA and singly spliced env mRNA and are critical for virus replication. Two rex gene products, p27rex and p21rex of HTLV-I and p26rex and p24rex of HTLV-II, have been detected in HTLV-infected cells; however, the structural and biological relationship of the proteins has not been clearly elucidated. Endoproteinase digestion and phosphoamino acid analysis of HTLV-II Rex indicated that p24rex has the same amino acid backbone as p26rex and that the larger apparent molecular size of p26rex is attributable to serine phosphorylation.
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PMID:The Rex proteins of human T-cell leukemia virus type II differ by serine phosphorylation. 189 67

Heterogeneity of p53 protein expression is seen in blast cells of patients with acute myelogenous leukemia (AML). p53 protein is detected in the blasts of certain AML patients but not in others. We have identified p53 protein variants with abnormal mobility on gel electrophoresis and/or prolonged half-life (t 1/2). We have sequenced the p53 coding sequence from primary blast cells of five AML patients and from the AML cell line (OCIM2). In OCIM2, a point mutation in codon 274 was identified that changes a valine residue to aspartic acid. A wild type p53 allele was not detected in these cells. Two point mutations (codon 135, cysteine to serine; codon 246, methionine to valine) were identified in cDNA from blasts of one AML patient. Both mutations were present in blast colonies grown from single blast progenitor cells, indicating that individual leukemia cells had sustained mutation of both p53 alleles. The cDNAs sequenced from blast samples of four other patients, including one with prolonged p53 protein t 1/2 and one with no detectable p53 protein, were fully wild type. Thus, the heterogeneity of p53 expression cannot be explained in all cases by genetic change in the p53 coding sequence. The prolonged t 1/2 of p53 protein seen in some AML blasts may therefore reflect changes not inherent to p53. A model is proposed in which mutational inactivation of p53, although not required for the evolution of neoplasia, would confer a selective advantage, favoring clonal outgrowth during disease progression.
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PMID:Mutation of the p53 gene in human acute myelogenous leukemia. 200 69

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

In addition to the 85-95 kD CD44 species found on most hemopoietic cell types, the human myelomonocytic cell line KG1a expresses proteins of approximately 115 kD and 130 kD that react with monoclonal antibodies belonging to CD44. The possibility that these higher molecular weight species may represent novel CD44 isoforms containing additional protein sequence was investigated. CD44 cDNA clones were isolated from a plasmid-based expression library prepared from KG1a mRNA. One of the three clones obtained (clone 2.3) was found to encode a CD44 molecule of approximately 130 kD in transfected COS cells. Sequences analysis indicated that the molecule encoded by this cDNA clone, designated CD44R1, was essentially identical to CD44 except for the presence of an additional 132 amino acids inserted into the extracellular domain. This inserted region is rich in serine and threonine residues that may serve as sites of O-linked glycosylation, and contains a potential site of N-linked glycosylation and a potential site of chondroitin sulphate attachment. PCR analysis using primers that flank the inserted region present within CD44R1 identified an additional CD44 isoform, designated CD44R2, that contains only the last 69 amino acids present within the unique region of CD44R1. Peripheral blood mononuclear cells and granulocytes from normal individuals and patients with chronic myelogenous leukemia, polycythemia vera, or acute myelomonocytic leukemia, express both CD44R1 and CD44R2. In contrast, CD44R1 and CD44R2 appear to be differentially expressed in various CD44-positive cell lines. Thus KG1a, and the Epstein-Barr Virus-transformed B cell lines WalkDR4 and Way-1 express both CD44 and the CD44 isoforms CD44R1 and CD44R2, while the myeloid cell lines HL60 and U937 express high levels of CD44, but only very low levels of CD44R1 and CD44R2. The CD44-negative cell lines DHL-4, DHL-10, Jurkat, and K562 are also negative for CD44R1 and CD44R2.
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PMID:Molecular cloning of CD44R1 and CD44R2, two novel isoforms of the human CD44 lymphocyte "homing" receptor expressed by hemopoietic cells. 205 74


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