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)

Recent evidence has established an important role for leukemia inhibitory factor (LIF) as hematopoietically active cytokine. The present study utilized two different murine bone marrow stromal cell lines, +/+-1.LDA11 and MBA-13, to define regulatory mechanisms of LIF messenger RNA (mRNA) induction. LIF mRNA was not detected in uninduced stromal cells under serum-free conditions. Incubation with interleukin-1 (IL-1), tumor necrosis factor-alpha (TNF-alpha) or the cAMP analogue 8-bromoadenosine 3':5'-monophosphate (8BrcAMP) resulted in weakly induced LIF mRNA. Coincubation of combinations of the stimuli increased LIF mRNA expression additively. LIF mRNA stability, even after stimulation, was low with a half-life of about 30 min, suggesting a functional role for known AU-rich motifs in the 3' untranslated LIF mRNA region in mediating this instability. This possibility was further supported by the ability of cycloheximide to increase mRNA levels without affecting transcription. Transcriptional activation was found to be the main mechanism leading to LIF mRNA expression by IL-1, by TNF-alpha, and by 8BrcAMP. These stimuli appeared to act additively in this regard, suggesting involvement of distinct transcription factors. Induction of transcription was detected 45 min post-stimulation and showed peak levels at 90 min. Kinetics of LIF transcriptional activation showed similarity with the kinetics of the transcription factors, jun-B and c-fos, suggesting a possible role for these proteins or other early response genes in events leading to LIF expression.
Leukemia 1993 Apr
PMID:LIF mRNA expression is transcriptionally regulated in murine bone marrow stromal cells. 846 40

We have shown previously that (i) retinoic acid (RA), an anti-neoplastic agent, activates the midkine (MK) gene in mammalian embryonic carcinoma cells, and that (ii) the MK of 118 amino acids, purified from L cells, induces neurite outgrowth of mammalian embryonic brain cells. In this paper, we describe an unconventional strategy for the purification of a fully active MK from E. coli with a high yield. The MK was overproduced in E. coli as a glutathione S-transferase (GST) fusion protein. The MK fusion protein extracted from the bacterial inclusion bodies with guanidine-HCl was renatured, refolded slowly and cleaved by thrombin at the site where the GST links to the MK. The purified free MK, like RA, induced neurite outgrowth from central neurons of the mouse spinal cord, and suppressed the growth of human HL60 leukemia cells in vitro. Unlike RA, however, the MK did not induce granulocytic differentiation of HL60 cells. Furthermore, the MK supported the survival of an NGF-insensitive sensory neuron subpopulation(s) from chicken embryo dorsal root ganglion. Thus, the actions of the MK and leukemia inhibitory factor (LIF) are surprisingly similar. There is no sequence similarity between MK and LIF, however, and unlike MK, LIF production does not appear to be RA-inducible.
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PMID:Midkine (MK), a retinoic acid (RA)-inducible gene product, produced in E. coli acts on neuronal and HL60 leukemia cells. 846 54

Human interleukin for DA cells/leukaemia inhibitory factor (HILDA/LIF) is a cytokine with pleiotropic effects involved in successful murine implantation. We evaluated human uterine HILDA/LIF production by monitoring its in-vitro secretion by endometrial explant cultures obtained from individuals in either normal or pathological conditions. The cytokine secretion was standardized using the day 5:day 1 ratio of HILDA/LIF concentration in supernatants of such cultures, hereby termed HILDA/LIF production index (HLPI). Our results confirmed that HILDA/LIF is secreted by the human endometrium as assessed by secretion at every phase of the cycle in either normal fertile women, or women bearing intrauterine devices. This was also the case for samples obtained from infertile women presenting repeated failures of embryonic implantation or unexplained primary sterility. However, the HLPI were significantly lower in those latter two groups when compared to fertile women. These results suggest an abnormal regulation of HILDA/LIF secretion in such circumstances, and the clinical implication of those data is discussed.
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PMID:In-vitro endometrial secretion of human interleukin for DA cells/leukaemia inhibitory factor by explant cultures from fertile and infertile women. 853 Jun 95

Stromal cell lines were established by irradiating adherent layers of bone marrow and spleen cells in Dexter-type long-term culture with X-rays. Some of these cell lines support myelopoiesis and/or B lymphopoiesis in vitro. Furthermore, the characteristics of these stromal cell lines were studied. Cytokine activity was detected in the conditioned media from all hematopoietic-supportive and non-supportive stromal cells. Quantitative reverse transcriptase-polymerase chain reaction analysis revealed that the mRNAs of macrophage colony-stimulating factor and stem cell factor, but not that of Interleukin-3, were detectable in all the hematopoietic-supportive and non-supportive stromal cell lines. The transcripts of granulocyte colony-stimulating factor, interleukin-6, interleukin-7, and leukemia inhibitory factor were expressed in a wide variety of cell lines. Most stromal cell lines synthesized mRNA of c-mpl, the ligand of which stimulates megakaryopoiesis and thrombopoiesis. These observations indicate that the pattern of mRNA expression of cytokines is not correlated with the hematopoietic-supportive ability of stromal cell lines. There was a significant difference in the efficiency of adhesion of lineage marker-negative bone marrow cells to fibroblasts and stromal cell lines. This appears to be correlated with the hematopoietic-supportive ability of the stromal cell lines.
Leukemia 1996 May
PMID:Characterization of murine stromal cell clones established from bone marrow and spleen. 865 75

A consensus regarding myeloma cell growth factor responsiveness and ability to produce autocrine interleukin (IL)-6 has not yet been obtained. In this study, we have established three new human myeloma cell lines (DP-6, KAS-6/1 and KP-6) from patients with aggressive disease. Extensive characterization of these cell lines revealed considerable heterogeneity at several levels. Growth factor responsiveness was initially addressed. Although the potent myeloma cell growth factor, IL-6, induced the proliferation and allowed for the expansion of all three cell lines, a panel of other cytokines elicited heterogeneous responses in each cell line. IL-3, IL-10, IL-11, insulin-like growth factor-I and tumor necrosis factor-alpha also stimulated DNA synthesis in all three cell lines; however, the magnitude of the response was generally lower than that observed in cultures containing IL-6. Transforming growth factor-beta, by contrast, uniformly inhibited the growth of all three cell lines. IL-1alpha and IL-1beta induced the proliferation of the DP-6 cells, but had minimal effects on the KAS-6/1 and KP-6 cells. Interferon (IFN)-alpha stimulated DNA synthesis in the KAS-6/1 cells, but inhibited the proliferation of the DP-6 and KP-6 cells. By comparison, IFN-gamma induced the growth of the KAS-6/1 and DP-6 cells, but inhibited the KP-6 cells. The gp130-associated cytokines, IL-11, leukemia inhibitory factor and oncostatin M, stimulated the growth of the KAS-6/1 cells, but had minimal effects on the DP-6 and KP-6 cells. The cell lines were also analyzed for IL-6 expression. RT-PCR analysis demonstrated that all three cell lines expressed IL-6 mRNA. However, when culture supernatants were tested using a sensitive IL-6 ELISA or IL-6 bioassay only the DP-6 and KP-6 cells were shown to be secreting biologically active IL-6. In summary, although all three of these cell lines were established from myeloma patients, the heterogeneity observed between these cell lines was considerable and may reflect, as well as provide tools to study, the heterogeneity observed in clinical disease.
Leukemia 1996 May
PMID:Establishment and characterization of three myeloma cell lines that demonstrate variable cytokine responses and abilities to produce autocrine interleukin-6. 865 85

It has been reported that stroma-dependent cultures support proliferation of hematopoietic stem cells (HSC). In order to investigate the effect of soluble stromal factors, we developed short-term serum-low liquid cultures in which the effect of stroma-conditioned media (SCM) from the murine FBMD-1, and human L87/4 and L88/5 cell lines was studied on the maintenance and expansion of various human HSC subsets in CD34-positive selected mobilized peripheral blood stem cells (PBSC) from autologous transplants of lymphoma and multiple myeloma patients. The human cobblestone area forming cell (CAFC) assay was employed to determine the frequencies of both the CAFC weeks 2 to 4 as tentative indicators of progenitor and transiently repopulating HSC, and the more primitive CAFC weeks 6 to 8 as indicators of long-term repopulating HSC. In 7-day liquid cultures containing interleukin-3 (IL-3), stem cell factor (SCF) and IL-6, we recovered 3.0-fold more colony-forming cells (CFC) and 1.7- to 1.9-fold more CAFC weeks 2 and 4. The absolute number of primitive CAFC weeks 6 and 8 were only maintained (1.1- to 1.4-fold) in these liquid cultures. This modest expansion was significantly improved by the addition of SCM from the FBMD-1, L87/4 or L88/5 cell lines. Output CFC numbers were 6.8-, 5.8- and 9.9-fold higher, respectively, than the input values, while absolute CAFC week 2 to 4 numbers were 4.5-, 10.2- and 10.2-fold expanded, respectively. The addition of SCM also improved expansion of the more primitive CAFC week 6 to 8 stem cell subsets by 2.2-, 4.5- and 4.9-fold, respectively. The addition of granulocyte colony-stimulating factor (G-CSF), granulocyte-macrophage-CSF (GM-CSF), IL-1beta, IL-11 or macrophage inflammatory protein-1alpha to cultures containing IL-3, SCF and IL-6 could not explain the SCM effect and in all these combinations SCM addition further increased the recovery of HSC subsets. Similarly, addition of anti-cytokine antibodies (ie alpha-G-CSF, alpha-GM-CSF, alpha-IL-11, alpha-leukemia inhibitory factor) to liquid cultures containing IL-3, SCF, IL-6 and SCM could not neutralize the SCM effect. These data indicate that SCM significantly enhances expansion of primitive HSC and progenitor cells from CD34-selected PBSC in 7-day cultures and in synergistic combination with multiple cytokines at optimal concentrations. As a result, SCM is a useful component of short-term liquid culture procedures for clinical expansion or manipulation of primitive HSC.
Leukemia 1997 Jan
PMID:Stroma-conditioned media improve expansion of human primitive hematopoietic stem cells and progenitor cells. 900 30

The authors report on the development of a new sandwich enzyme-linked immunoabsorbent assay (ELISA) for the quantitation of the human cytokine leukaemia inhibitory factor/human interleukin for DA cells (LIF/HILDA) with high accuracy and sensitivity (23 pg/ml), in less than 5 h and in various biological fluids. The antibodies used in this assay were raised against recombinant glycosylated LIF expressed in vivo following inoculation of recombinant vaccinia viruses, and screened with the biologically active cytokine in a flow cytometry assay using cells expressing a membrane-bound form of LIF. Furthermore, this home-made assay was compared with two commercially available ELISA kits. The results led to the conclusion that these three assays are far from being equivalent between each other, in terms of sensitivity towards non-glycosylated vs glycosylated LIF. Two major parameters must be incriminated: the glycosylation status of the LIF molecule used as the calibrator, and the binding characteristics of the monoclonal antibodies used to set up these assays toward LIF derived from Escherichia coli or from eukaryotic cells. This points out the importance of these parameters for the design of ELISAs meant for the quantitation of glycosylated cytokines in biological fluids.
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PMID:A monoclonal antibody based elisa for quantitation of human leukaemia inhibitory factor. 907 62

Oncostatin M (OSM) is a member of the interleukin-6/leukemia inhibitory factor (LIF) family cytokines. While human OSM (hOSM) has been characterized, the murine counterpart had not been isolated. We cloned a murine OSM (mOSM) cDNA as a gene that is induced in hematopoietic cells by a subset of cytokines including IL-3, GM-CSF and Epo. Identity of mOSM was based on overall homology to hOSM and chromosomal gene localization. Human OSM is known to exhibit biological activities similar to LIF, because they share the same functional receptor composed of the LIF receptor and gp130. As compared to hOSM, however, a 1000-fold higher concentrations of mOSM was required to stimulate proliferation of LIF-dependent murine DA1a cells, differentiation of M1 macrophage cells, and inhibition of ES cell differentiation. On the other hand, mOSM inhibited growth of NIH3T3 cells at a 1000-fold lower concentration than that of hOSM. These results indicate that mOSM functions through a receptor which is distinct from that of the LIF receptor. Studies on the physiological role of OSM is underway.
Leukemia 1997 Apr
PMID:Cloning and biological activity of murine oncostatin M. 920 21

We have reported two JAK-signaling modulators, CIS (cytokine-inducible SH2 protein) and JAB (JAK2 binding protein), which are structurally related. Here we cloned three additional CIS family genes (CIS2, CIS3, and CIS4) on the basis of an expression sequence tag (EST) database search. We also found at least two additional candidates of this gene family in the database. These genes were induced by erythropoietin and granulocyte-macrophage colony stimulating factor in certain hematopoietic cell lines. The SH2 domain and a C-terminal 40 amino acid region, designated the CIS homology domain (CH domain), are highly conserved in this family, while the N-terminal regions of these proteins share little similarity. A yeast two-hybrid assay and in vitro and in vivo binding assays revealed that in addition to JAB, CIS3 bound to the JAK2 tyrosine kinase domain (JH1), although the interaction of CIS3 with the JAK2-JH1 domain was much weaker than that of JAB. Transient expression of JAB and CIS3, but not other CISs, strongly inhibited leukemia inhibitory factor (LIF)-induced STAT3-reporter gene activation in 293 cells. Furthermore, constitutive overexpression of JAB and CIS3 in M1 leukemia cells prevented LIF-induced differentiation and growth arrest. Although the physiological function remains to be investigated, CIS family genes could play a role in the negative regulation of cytokine signaling by interacting with specific targets.
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PMID:Cloning and characterization of novel CIS family genes. 934 48

The Wilms' tumor gene, WT1, encodes a transcription factor of the Cys2-His2 zinc finger type. The functional significance of WT1 expression in leukemias, in addition to tissues and cell lines of hematopoietic origin, has not been determined. Using the murine myeloblastic leukemia cell line M1 as a model for macrophage differentiation, expression of WT1 is shown to be activated in M1 cells 24 hours after differentiation induction by leukemia inhibitory factor (LIF). Upregulation of WT1 in these cells is associated with cellular differentiation, coinciding with expression of the monocyte/macrophage marker c-fms, and the appearance of mature cells. WT1 isoforms lacking the KTS insert are unable to be ectopically expressed in M1 cells. Stable expression of the WT1 isoforms containing the KTS insert leads to spontaneous differentiation of the M1 myeloblasts through the monocytic differentiation pathway. These cells express c-fms, in addition to the myeloid-specific cell surface marker Mac-1. Exposure of these cells to LIF results in the rapid onset of terminal macrophage differentiation, accompanied by apoptotic cell death. These results show that the WT1 gene is an important regulator of M1 cell monocytic differentiation in vitro, and suggests a potential role for this gene in the molecular control of hematopoiesis.
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PMID:Expression of the Wilms' tumor suppressor gene, WT1, is upregulated by leukemia inhibitory factor and induces monocytic differentiation in M1 leukemic cells. 944 34


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