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)

The myelosuppressive effects of human chemokines were evaluated in vitro on normal myeloid progenitors obtained from bone marrow and cord blood, on bone marrow progenitors from patients with acute or chronic leukemia, on proliferation of human factor-dependent cell line M07e, and in vivo on myelopoiesis in mice. Preincubation of human MIP-1 alpha, MIP-2 alpha, interleukin (IL)-8, platelet factor (PF) 4, monocyte chemotactic and activating factor (MCAF), and interferon-inducible protein-10 (IP-10) in an acetonitrile (ACN) solution significantly enhanced the specific activity of these chemokines for in vitro suppression of granulocyte-macrophage (CFU-GM), erythroid (BFU-E), and multipotential (CFU-GEMM) progenitor cells stimulated to proliferate with a colony stimulating factor plus steel factor (SLF). Combinations of any two of these ACN-treated chemokines synergized to suppress colony formation of CFU-GM, BFU-E, and CFU-GEMM at chemokine concentrations below that at which combinations of non-ACN treated chemokines are active. Cord blood progenitors, as previously reported, were in a slow or noncycling state and nonresponsive to inhibition by chemokines. However, after suspension culture with GM-CSF, IL-3, and SLF, they were placed into rapid cell cycle and were responsive to inhibition by ACN-treated chemokines. Low doses of these ACN-pretreated chemokines were active in vivo in suppressing absolute numbers and cycling status of femoral marrow CFU-GM, BFU-E, and CFU-GEMM in C3H/HeJ mice. Other chemokines, alone and in combination, including MIP-1 beta, MIP-2 beta, GRO-alpha NAP-2, and RANTES, were inactive in vitro and in vivo whether or not they were pretreated with ACN. While heterogeneity in responsiveness of CFU-GM from different patients with leukemia to suppression by ACN-treated chemokines was apparent, if the patients had CFU-GM responsive to one of the active chemokines these cells were responsive to the other active chemokines; if patient CFU-GM were not responsive to one of the chemokines, they were not responsive to the other active chemokines. M07e colony-forming cells were responsive to the growth-inhibiting effects of the active ACN-treated chemokines, alone and in combination, but these effects were rapidly reversible and sustained only by multiple daily additions of chemokines. These results should be of value in considering these chemokines for potential clinical use and for assessment of their mechanisms of action, alone and in combination.
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PMID:Human chemokines: enhancement of specific activity and effects in vitro on normal and leukemic progenitors and a factor-dependent cell line and in vivo in mice. 749 26

Chemoattractants, including chemokines such as interleukin 8 (IL-8) and related proteins, activate leucocytes via seven-transmembrane-domain G-protein-coupled receptors. A cDNA for a novel receptor of this kind consisting of 327 amino acids was isolated from a human blood monocyte cDNA library. The polypeptide, termed monocyte-derived receptor 15 (MDR15), is an alternative form of the Burkitt's lymphoma receptor 1 (BLR1) encoded by a human Burkitt's lymphoma cDNA [Dobner, Wolf, Emrich and Lipp (1992) Eur. J. Immunol. 22, 2795-2799]. MDR15 and BLR1 cDNAs differ in the 5' region, where the open reading frame of MDR15 is shorter by 45 codons. Southern-blot analysis indicates that the two transcripts for MDR15 and BLR1 are encoded by the same gene. Northern-blot analysis using a probe that hybridizes with both mRNAs demonstrated high-level expression in chronic B-lymphoid leukaemia and non-Hodgkin's lymphoma cells and, to a lesser extent, peripheral blood monocytes and lymphocytes. Reverse transcription-PCR studies with MDR15- and BLR1-specific primers showed similar levels of transcripts for both receptors in RNA that was positive in Northern-blot analysis. MDR15 and BLR1 have high structural similarity to receptors for human IL-8 (about 40% amino acid identity) and other chemokines. However, none of a series of radiolabelled chemokines (IL-8, NAP-2, GRO alpha, PF4, IP10, MCP-1, MCP-2, MCP-3, I-309, RANTES and MIP-1 alpha) and other ligands (C3a and leukotriene B4) bound to Jurkat transfectants that stably expressed either MDR15 or BLR1 mRNA. The fact that MDR15 and BLR1 are expressed on leucocytes and show marked sequence similarity to chemokine receptors suggests the existence of as yet unidentified chemokines. Alternative transcript formation affecting the 5'-terminal part of the coding region may be a way to modify ligand-binding selectivity.
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PMID:Sequence variation of a novel heptahelical leucocyte receptor through alternative transcript formation. 763 92

A human cDNA encoding a putative G protein-coupled receptor designated chemokine beta receptor-like 1 (CMKBRL1) was isolated from an eosinophilic leukemia library. Its deduced sequence is approximately 40% identical to previously cloned receptors for the beta chemokines macrophage inflammatory protein-1 alpha (MIP-1 alpha), RANTES, and monocyte chemoattractant protein-1 (MCP-1), which are chemoattractants for blood leukocytes, and is 83% identical to the product of the orphan rat cDNA RBS 11. Like the MIP-1 alpha/RANTES receptor, CMK-BRL1 is encoded by a small, single-copy gene that maps to chromosome 3p21 and is expressed in leukocytes. However, two screening assays with a broad panel of chemokines failed to identify its ligand. CMKBRL1 mRNA was detectable by Northern blot hybridization in neutrophils and monocytes, but not eosinophils, and was also found in eight solid organs that were tested with particularly high expression in brain. The RNA distribution of the known beta chemokine receptors was overlapping but distinct from that of CMKBRL1. MIP-1 alpha/RANTES receptor mRNA was detectable in neutrophils, monocytes, eosinophils, and in all eight solid organs tested, with particularly high expression in placenta, lung, and liver. MCP-1 receptor mRNA was found in monocytes, lung, liver, and pancreas. These results suggest that the ligand for the putative CMKBRL1 receptor is a beta chemokine that targets both neutrophils and monocytes. Moreover, the RNA distributions suggest that CMKBRL1, the MIP-1 alpha/RANTES receptor, and the MCP-1 receptor may have both overlapping and distinct biological roles.
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PMID:Cloning, chromosomal localization, and RNA expression of a human beta chemokine receptor-like gene. 764 14

The chemokines interleukin-8 (IL-8) and GRO alpha bind in neutrophils to the interleukin-8 receptor alpha and beta (IL-8R alpha and beta) triggering reorganization of the actin cytoskeleton and activation of phospholipase C (PLC). Reconstitution of chemokine-induced activation of PLC indicated coupling of IL-8R alpha and beta to pertussis toxin-insensitive G alpha 16-proteins as well as to pertussis toxin-sensitive G alpha i2- or G alpha i3-proteins. To identify the signal transduction mechanisms of chemokine-induced actin response, undifferentiated human leukemia cells (HL-60 cells) constitutively expressing G alpha 16-, G alpha i2- and G alpha i3-proteins were chosen for reconstitution studies. Expression of recombinant receptors after transfection of the cells with the cDNA of IL-8R alpha and beta was confirmed by binding studies with radiolabeled ligands. IL-8R alpha bound IL-8 with high affinity (Kd approximately 1 nM) and GRO alpha with low affinity (Kd approximately 1 microM), whereas IL-8R beta bound both IL-8 and GRO alpha with high affinity (Kd approximately 1nM). Flow cytometric actin measurements indicated that high affinity ligand-receptor interactions in both receptor transfectants displayed inducible responses. Pretreatment of transfectants with pertussis toxin caused ADP-ribosylation of G-proteins and blocked chemokine-induced polymerization, indicating involvement of G alpha i2- or G alpha i3-proteins, but not G alpha 16-proteins in this response.
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PMID:Reconstitution of chemokine-induced actin polymerization in undifferentiated human leukemia cells (HL-60) by heterologous expression of interleukin-8 receptors. 868 91

Peripheral blood stem cells (PBSCs) are gaining increasing acceptance as an alternative to bone-marrow (BM)-derived stem cells for allografting. Although scarce under steady-state conditions, CD34+ progenitor cells can be effectively mobilized into the peripheral blood (PB) in the vast majority of normal donors with a brief (3-4 days) course of recombinant human (rHu)G-CSF. Those cytokine-peripheralized progenitor cells and, among them, pluripotent stem cells, are collected by apheresis in sufficient amounts to achieve complete and permanent alloengraftment after myeloablative treatment in patients with primarily malignant hematologic disorders. The short-term tolerability profile of PBSC mobilization and apheresis in normal donors appears to be acceptable, although continued monitoring is necessary to ensure long-term safety. When compared with BM progenitor cells, mobilized PBSCs seem to exhibit a more primitive phenotype and a different clonogenic potential. The impact of factors affecting the efficiency of PBSC mobilization, such as rHuG-CSF dose, duration of cytokine treatment, and, to a lesser extent, donor age is now being recognized. Potential ways to optimize and possibly "engineer" PBSC collection, such as the use of cytokine/chemokine combinations (e.g., thrombopoietin, stem cell factor, etc.) and monoclonal antibodies directed against integrin receptors on CD34+ progenitor cells, are now being explored as well. In the clinical setting, engraftment after PBSC allografting is rapid and probably faster than after BM allografting. PBSC allografting seems to be associated with an incidence and severity of acute graft-versus-host disease (GVHD) comparable to the ones observed after BM allografting, although the incidence of chronic GVHD after allogeneic PBSC transplantation is still controversial. The infusion of a larger number of lymphoid cells appears to translate into a more rapid immunologic recovery and may lead to an enhanced graft-versus-leukemia effect. The collection of large numbers of mobilized PBSCs should provide ample opportunities for graft engineering and gene therapy. PBSCs may eventually replace, at least in part, BM as the preferred source of stem cells for both auto- and allotransplantation.
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PMID:The use of mobilized peripheral blood stem cells from normal donors for allografting. 900 18

Moloney murine leukemia virus (Mo-MuLV) is a thymotropic and leukemogenic retrovirus which causes T lymphomas. Recently, Mo-MuLV has been shown to trans-activate cellular genes. Monocyte chemoattractant protein-1 (MCP-1) is a chemokine which can promote the migration and diapedesis of monocytes and lymphocytes, as well as inducing metastasis of lymphomas. Here we demonstrate that introduction of Mo-MuLV or the MuLV LTR alone, transiently or stably, into Balb/c-3T3 cells or HeLa cells resulted in 9-11 fold increases in MCP-1 transcripts. This trans-activation of the MCP-1 gene by the Mo-MuLV LTR is independent of the physical location of the MCP-1 gene or of the LTR, occurring whether the LTR or the MCP-1 gene is integrated in the genome or transiently expressed. Immunoblot analysis using an anti-MCP-1 polyclonal antibody showed that the expression of the MuLV LTR in HeLa cells also induced the appearance of the MCP-1 protein. Boyden Chamber analysis demonstrated that the MCP-1 chemotactic activity produced by HeLa cells with an integrated MuLV LTR was elevated by 11 fold and that neutralizing antibody to human MCP-1 abrogated monocyte migration in response to MuLV LTR expression. Promoter deletional analysis showed the LTR responsive cis-acting element in the MCP-1 promoter is located between -141 and -88. Deletion of this region abolished the trans-activation of MCP-1 by the LTR. These LTR-mediated activations of a chemotactic and inflammatory cytokine may be relevant as mechanisms whereby retroviruses which do not contain oncogenes can induce neoplasia.
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PMID:Moloney murine leukemia virus long terminal repeat activates monocyte chemotactic protein-1 protein expression and chemotactic activity. 925 45

Monocyte chemoattractant protein-1 (MCP-1) is a C-C chemokine thought to play a major role in recruiting monocytes to the atherosclerotic plaque. Tissue factor (TF), the initiator of coagulation, is found in the atherosclerotic plaque, macrophages, and human aortic smooth muscle cells (SMC). The exposure of TF during plaque rupture likely induces acute thrombosis, leading to myocardial infarction and stroke. This report demonstrates that MCP-1 induces the accumulation of TF mRNA and protein in SMC and in THP-1 myelomonocytic leukemia cells. MCP-1 also induces TF activity on the surface of human SMC. The induction of TF by MCP-1 in SMC is inhibited by pertussis toxin, suggesting that the SMC MCP-1 receptor is coupled to a Gi-protein. Chelation of intracellular calcium and inhibition of protein kinase C block the induction of TF by MCP-1, suggesting that in SMC it is mediated by activation of phospholipase C. SMC bind MCP-1 with a Kd similar to that previously reported for macrophages. However, mRNA encoding the macrophage MCP-1 receptors, CCR2A and B, is not present in SMC, indicating that they possess a distinct MCP-1 receptor. These data suggest that in addition to being a chemoattractant, MCP-1 may have a procoagulant function and raise the possibility of an autocrine pathway in which MCP-1, secreted by SMC and macrophages, induces TF activity in these same cells.
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PMID:Tissue factor is induced by monocyte chemoattractant protein-1 in human aortic smooth muscle and THP-1 cells. 935 21

An opiate alkaloid-selective receptor, designated mu(3), mediates inhibition by morphine of activation of human peripheral blood monocytes and granulocytes. The mu(3) receptor is present on several macrophage cell types including microglia, on cultured astrocytes, and in brain and retina. Murine macrophage cell lines and human HL-60 leukemia cells contain high concentrations of these receptors. Binding of 3H-morphine to the receptor is displaced by morphine, etorphine, naloxone, diprenorphine and morphine 6-glucuronide, but not by morphine 3-glucuronide, fentanyl, benzomorphans, enkephalins, dynorphin, beta-endorphin, endomorphin-1, other opioid peptides or nociceptin (orphanin FQ). The mu(3) receptor appears to be much more sensitive to inactivation by reduced glutathione than are classical mu, delta and kappa receptors. Evidence is also presented for G protein-coupling of these receptors. These and other data raise the possibility that the mu(3) receptor is a member of a chemokine or of another related receptor family, rather than the opioid receptor family. The affinity for morphine of mu(3) receptors of granulocytic-differentiated HL-60 cells is markedly enhanced in the presence of levorphanol and certain benzomorphans. In contrast, receptors of monocytes, macrophage cell lines, microglia, macrophage-differentiated HL-60 cells and astrocytes are not affected by levorphanol or benzomorphans. It is concluded that mu(3) receptors of granulocytic and promyelocytic cells differ from those of macrophage and astrocyte cell types, possibly due to differences in receptor subtype or to the presence of an additional component in the granulocytic and promyelocytic cells.
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PMID:Properties of mu 3 opiate alkaloid receptors in macrophages, astrocytes, and HL-60 human promyelocytic leukemia cells. 966 65

Live attenuated simian immunodeficiency viruses (SIV), such as nef deletion mutants, are the most effective vaccines tested in the SIV-macaque model so far. To modulate the antiviral immune response induced by live attenuated SIV vaccines, we had previously infected rhesus monkeys with a nef deletion mutant of SIV expressing interleukin 2 (SIV-IL2) (B. R. Gundlach, H. Linhart, U. Dittmer, S. Sopper, S. Reiprich, D. Fuchs, B. Fleckenstein, G. Hunsmann, S. Stahl-Hennig, and K. Uberla, J. Virol. 71:2225-2232, 1997). In the present study, SIV-IL2-infected macaques and macaques infected with the nef deletion mutant SIVDeltaNU were challenged with pathogenic SIV 9 to 11 months postvaccination. In contrast to the results with naive control monkeys, no challenge virus could be isolated from the SIV-IL2- and SIVDeltaNU-infected macaques. However, challenge virus sequences could be detected by nested PCR in some of the vaccinated macaques. To determine the role of immune responses directed against Env of SIV, four vaccinated macaques were rechallenged with an SIV-murine leukemia virus (MLV) hybrid in which the env gene of SIV had been functionally replaced by the env gene of amphotropic MLV. All vaccinated macaques were protected from productive infection with the SIV-MLV hybrid in the absence of measurable neutralizing antibodies, while two naive control monkeys were readily infected. Since the SIV-MLV hybrid uses the MLV Env receptor Pit2 and not CD4 and a coreceptor for virus entry, chemokine inhibition and receptor interference phenomena were not involved in protection. These results indicate that the protective responses induced by live attenuated SIV vaccines can be independent of host immune reactions directed against Env.
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PMID:Env-independent protection induced by live, attenuated simian immunodeficiency virus vaccines. 973 21

We have studied the effects of CC-chemokines on human immunodeficiency virus type 1 (HIV-1) infection, focusing on the infectivity enhancement caused by RANTES. High RANTES concentrations increase the infectivity of HIV-1 isolates that use CXC-chemokine receptor 4 for entry. However, RANTES can have a similar enhancing effect on macrophagetropic viruses that enter via CC-chemokine receptor 5 (CCR5), despite binding to the same receptor as the virus. Furthermore, RANTES enhances the infectivity of HIV-1 pseudotyped with the envelope glycoprotein of murine leukemia virus or vesicular stomatitis virus, showing that the mechanism of enhancement is independent of the route of virus-cell fusion. The enhancing effects of RANTES are not mediated via CCR5 or other known chemokine receptors and are not mimicked by MIP-1alpha or MIP-1beta. The N-terminally modified derivative aminooxypentane RANTES (AOP-RANTES) efficiently inhibits HIV-1 infection via CCR5 but otherwise mimics RANTES by enhancing viral infectivity. There are two mechanisms of enhancement: one apparent when target cells are pretreated with RANTES (or AOP-RANTES) for several hours, and the other apparent when RANTES (or AOP-RANTES) is added during virus-cell absorption. We believe that the first mechanism is related to cellular activation by RANTES, whereas the second is an increase in virion attachment to target cells.
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PMID:Enhancement of human immunodeficiency virus type 1 infection by the CC-chemokine RANTES is independent of the mechanism of virus-cell fusion. 984 74


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