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)

Ciliary neurotrophic factor (CNTF) promotes survival in vitro and in vivo of several neuronal cell types including sensory and motor neurons. The primary structure of CNTF suggests it to be a cytosolic protein with strong similarity to the alpha-helical cytokine family which is characterized by a bundle of four anti-parallel helices. CNTF exerts its activity via complexation with CNTF receptor (CNTF-R). This complex consists of a CNTF-binding protein (CNTF-R) and two proteins important for signal transduction [gp130 and leukaemia inhibitory factor receptor (LIF-R)]. We have shortened the cDNA coding for CNTF at both the 5' and the 3' end and expressed the truncated proteins in bacteria. Biological activities of the protein preparations were determined by their ability to induce proliferation of BAF/3 cells that were stably transfected with CNTF-R, gp130 and LIF-R cDNAs. CNTF proteins with 14 amino acid residues removed from the N-terminus were biologically active whereas the removal of 23 amino acids resulted in an inactive protein. In addition, 18 amino acid residues could be removed from the C-terminus of the CNTF protein without apparent loss of bioactivity, but further truncation at the C-terminus yielded biologically inactive proteins. The introduction of two point mutations into the CNTF protein at a site that presumably interacts with one of the two signal-transducing proteins resulted in a CNTF mutant with no measurable bioactivity. In addition, a model of the three-dimensional structure of human CNTF was constructed using the recently established structural co-ordinates of the related cytokine, granulocyte colony-stimulating factor. CD spectra of CNTF together with our mutational analysis and our three-dimensional model fully support the view that CNTF belongs to the family of alpha-helical cytokines. It is expected that our results will facilitate the rational design of CNTF mutants with agonistic or antagonistic properties.
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PMID:Human ciliary neurotrophic factor: a structure-function analysis. 761 59

Ciliary neurotrophic factor, oncostatin M, leukemia-inhibitory factor, and interleukin 6 are related cytokines that initiate signaling by homodimerizing the signal-transducing receptor component gp130 or by heterodimerizing gp130 with a gp130-related receptor component. Receptor dimerization in turn activates receptor-associated kinases of the Jak/Tyk family, resulting in the rapid tyrosine phosphorylation of several intracellular proteins, including those of two members of the signal transducers and activators of transcription (STAT) family--STAT1 and STAT3. Here we show that all cytokines that utilize gp130 sequentially induce two distinct forms of STAT3 in all responding cells examined, with the two forms apparently differing because of a time-dependent secondary serine/threonine phosphorylation involving an H7-sensitive kinase. While both STAT3 forms bind DNA and translocate to the nucleus, the striking time-dependent progression from one form to the other implies other important functional differences between the two forms. Granulocyte colony-stimulating factor, which utilizes a receptor highly related to gp130, also induces these two forms of STAT3. In contrast to a number of other cytokines and growth factors, all cytokines using gp130 and related signal transducers consistently and preferentially induce the two forms of STAT3 as compared with STAT1; this characteristic STAT activation pattern is seen regardless of which Jak/Tyk kinases are used in a particular response, consistent with the notion that the receptor components themselves are the primary determinants of which STATs are activated.
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PMID:STAT3 activation by cytokines utilizing gp130 and related transducers involves a secondary modification requiring an H7-sensitive kinase. 762 43

The development of motoneurons in the spinal cord is strongly dependent on their interactions with their target tissue, skeletal muscle, and with other cells of the central nervous system. The molecular nature of these interactions has remained obscure for many years. However, over the last few years, known growth factors have been shown to have biological activity on the survival of motoneurons, at least in culture. The factors that have been studied are members of the FGF family (fibroblast growth factors), the TGF-beta family (transforming growth factor-beta), CNTF (ciliary neurotrophic factor) and CDF-LIF (cholinergic development factor-leukaemia inhibitory factor). There are also strong reasons to suppose that at least one member of the neurotrophin family (the family that contains Nerve Growth Factor) is involved in motoneuron development. A more detailed analysis of the biological role of each of these factors should not only enlighten us as to the importance of cell-cell interactions in development of the motoneuron, but also open the way to attempts to slow motoneuron death in pathological situations, either in animals or in man.
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PMID:[Growth and survival factors of spinal motoneurons]. 824 22

Leukemia-inhibitory factor (LIF) and oncostatin M (OSM) are members of a family of structurally similar growth factors presenting overlapping and specific functions. Although the genes coding for IL-6, CSF3 and CNTF are scattered in the human and mouse genome, human LIF and OSM genes have conserved synteny in the course of evolution. Through isolation of a YAC and a cosmid clone containing both LIF and OSM we demonstrate that the two genes are linked in tandem on human chromosome 22q12, separated by 16 kilobases of intervening genomic DNA and transcribed in the same head-to-tail orientation. The close physical linkage between LIF and OSM genes brings new evidence of their evolutionary relationship.
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PMID:Tandem linkage of genes coding for leukemia inhibitory factor (LIF) and oncostatin M (OSM) on human chromosome 22. 840 48

Ciliary neurotrophic factor (CNTF), leukaemia inhibitory factor (LIF), oncostatin M (OSM), interleukin-6 (IL-6), and interleukin-11 (IL-11) are structurally and functionally related cytokines. We compared their survival-promoting activities on embryonic chick and newborn rat dorsal root ganglion (DRG) neurones. Human CNTF showed the well known trophic effect on both chick and rat DRG neurones. Human and murine LIF and, at unphysiologically high doses, human OSM were trophic for rat neurones, but failed to promote chick DRG cell survival. Human IL-11, murine IL-6 and human IL-6 did not improve chick or rat DRG neurone survival; soluble human IL-6 receptor alpha did not increase sensitivity to human IL-6. Thus, human CNTF as well as murine and human LIF had special neurotrophic properties compared with other related cytokines.
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PMID:Human CNTF and related cytokines: effects on DRG neurone survival. 874 40

Hematopoiesis is a complex process of regulated cellular proliferation and differentiation from the primitive stem cells to the final fully differentiated cell. The long and extensive search for a factor specifically regulating megakaryocytopoiesis led to the cloning of a hormone, here called thrombopoietin (TPO), that specifically promotes proliferation and differentiation of the megakaryocytic lineage. The availability of recombinant TPO and its imminent clinical use has made a more detailed understanding of its effects on hematopoietic cells more urgent. Normal megakaryocyto- and thrombopoiesis occurs predominantly in the bone marrow, a difficult organ to study in situ, particularly in humans, due to the low numbers of megakaryocytic progenitors and the consequent difficult isolation as pure populations. Thus, we developed an in vitro system which may allow us to address questions regarding the biology of TPO. The acute myeloid leukemia (AML)-derived cell lines HU-3, M-07e, M-MOK and TF-1 have absolute dependence on granulocyte-macrophage colony-stimulating factor (GM-CSF). We cultured these cells long term (> 6 months) in the continuous presence of TPO (omitting GM-CSF). TPO alone supported the maintenance and expansion of these sister cell lines, HU-3/TPO, M-07e/TPO, M-MOK/TPO and TF-1/TPO, that displayed somewhat longer doubling times, a larger cell size, and a higher percentage of polynucleated giant cells and slightly adherent cells than the corresponding countercultures grown with GM-CSF. In the absence of TPO the cells died quickly, within a few days; thus, the TPO-grown cell lines have an absolute dependence on this factor, but could all be switched back to growth with GM-CSF. In comparison with the GM-CSF-treated cells, the receptors for GM-CSF and interleukin-3 (IL-3) were down-regulated and the receptors for stem cell factor (SCF) and TPO were up-regulated in the TPO-exposed cells. A short-term proliferation assay showed a stronger response of the TPO-cell lines to erythropoietin, GM-CSF, IL-3, PIXY-321, SCF and TPO than the GM-CSF-cell lines. Flow cytometric analysis of the GM-CSF-and TPO-cultured lines displayed an up-regulation of the megakaryocytic surface markers CD41, CD42 and CD61, and a down-regulation of the erythroid marker glycophorin A in the latter cell lines, suggesting some differentiation along the megakaryocytic lineage. Thus, in long-term exposure, TPO appears to have both a proliferative and a differentiative effect on responsive cells. Under serum-deprived culture conditions, TPO acted as a survival factor on the TPO-cell lines. Taken together, these findings indicate that the TPO-dependent cell lines represent important biological reagents for further characterization of the biology of TPO and should also provide a great aid for future in vitro experiments aimed at elucidating megakaryocyto- and thrombopoiesis.
Leukemia 1997 Apr
PMID:Thrombopoietin supports the continuous growth of cytokine-dependent human leukemia cell lines. 909 95

A number of different cytokines, each initially characterized on the basis of very different biological activities, all have very similar signalling pathways and share a similar tertiary structure. These cytokines include leukaemia inhibitory factor, ciliary neuronotrophic factor, oncostatin M, growth-promoting activity and cardiotrophin 1. They all have been found to regulate a number of properties of cells of the developing and mature nervous system in vitro and thus are neuroregulatory cytokines. The actions of these cytokines include regulation of neurotransmitter phenotype, differentiation of neuronal precursor cells both in the peripheral nervous system and in the spinal cord, survival of differentiated neurons, and regulation of development of both astrocytes and oligodendrocytes. In addition, studies in animal models show that these factors can rescue sensory and motor neurons from axotomy-induced cell death, which suggests that they can act as trauma factors for injured neurons. Analysis of the expression patterns of the different neuroregulatory cytokines and their receptors reveals that the receptors are expressed throughout nervous system development and following trauma, whereas the cytokines show temporal and spatial specific expression patterns. This is consistent with the idea that specific cytokines have specific roles in neural development and repair, but that their signalling pathways are shared. The phenotypes of the receptor knockouts show clear deficits in nervous system development, indicating a crucial role for LIF receptor signalling. Knockouts of individual cytokines are less dramatic, but LIF and CNTF knockouts do reveal deficits in maintenance of motor neurons or following trauma. Thus, whereas LIF and CNTF have clear roles in maintenance and following trauma, it is unclear which of the cytokines is involved in nervous system development. In clinical terms, these findings add further support to the use of these cytokines in nervous system trauma and disease.
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PMID:Cytokines which signal through the LIF receptor and their actions in the nervous system. 930 97

Interferon-gamma (IFN-gamma) is a pleiotropic cytokine involved in the regulation of various phases of immune and inflammatory responses; it also has anti-viral and anti-proliferative activity. Using continuous human leukaemia cell lines as model systems, we found that IFN-gamma stimulated the proliferation of leukaemic myeloid cells; this effect was specifically neutralized by an anti-IFN-gamma monoclonal antibody (McAb). No proliferative response was seen in autonomously growing cell lines; however, 11/19 constitutively growth factor-dependent cell lines showed a significant response in short-term proliferation assays upon incubation with IFN-gamma. The stimulation indices ranged from 2 to 37 compared with the untreated control cells; the EC50 values for these cell lines were in the range of 0.1-0.6 ng/ml IFN-gamma. Flow cytometric analysis demonstrated heterogeneity in the expression of the IFN-gamma receptor, as it was found on 37-97% of the cells per cell line. The effects of IFN-gamma on proliferation triggered by a spectrum of 10 other cytokines were variable, and both stimulation and attenuation of the proliferative responses were seen in different cell lines. Under serum-free culture conditions, IFN-gamma acted as a survival factor suppressing apoptosis. As has been described for other functional processes triggered by IFN-gamma, the proliferation-inducing activity of IFN-gamma also led to activation of the signal transducing element STAT 1. Thus, IFN-gamma can induce myeloid leukaemia cells to proliferate and can modulate their proliferative response to other cytokines. Therefore IFN-gamma may be a pathologically relevant ligand for leukaemic cell proliferation in vivo. In physiological settings, IFN-gamma might be a bifunctional regulator of haemopoietic cell proliferation, depending on other differential co-signals from the micro-environment.
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PMID:Interferon-gamma induced proliferation of human myeloid leukaemia cell lines. 933 28

Selective death of magnocellular vasopressinergic neurons in the hypothalamus has been reported in cases of hereditary and idiopathic diabetes insipidus and after experimental lesions of the hypothalamo-neurohypophyseal pathway. To identify trophic factors that promote survival of these neurons, an in vitro model system was established in which organotypic cultures of the rat hypothalamic paraventricular nucleus were maintained in chemically-defined medium. We observe that the majority of magnocellular vasopressinergic neurons die in these cultures, while other cell populations such as corticotrophin-releasing factor producing parvicellular and oxytocin producing magnocellular cells retain a well preserved cytoarchitectonic organization. Degenerating vasopressinergic cells exhibit morphological signs of apoptosis and stained positively when analysed by the terminal deoxynucleotidyl transferase biotinylated dUTP nick end-labelling assay. Partial survival of vasopressinergic neurons occurred after co-culturing the paraventricular nucleus with neurohypophyseal explants, indicating that target-derived factors may be required for the survival of these neurons. Cell survival is dramatically increased by the administration of ciliary neurotrophic factor and leukemia inhibiting factor, but not by interleukin 6 or the members of the neurotrophin family. Reverse transcription-polymerase chain reaction followed by Southern analysis shows the presence of ciliary neurotrophic factor messenger RNA in the neurohypophysis. Thus, endogenous ciliary neurotrophic factor and leukemia inhibiting factor, produced by neurohypophyseal cells may function as a physiological survival factor for neurosecretory vasopressinergic neurons.
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PMID:Magnocellular vasopressinergic neurons in explant cultures are rescued from cell death by ciliary neurotrophic factor and leukemia inhibiting factor. 975 24

Growth factors are theoretically promising agents for ALS therapy, but have been disappointing in subcutaneous delivery due to either toxicity or lack of major efficacy. Leukaemia inhibitory factor (LIF), was named after its effect on haemopoietic cells, and belongs to a group of cytokines which includes CNTF, IL-6, CT-1, OM and IL-11. All group members use the gp130 signal transducing subunit for intracellular signalling, but show differences in biological effect. In vitro and in vivo studies on axotomy and nerve crush models demonstrate a powerful effect of LIF in the survival of both motor and sensory neurones, while reducing denervation induced muscle atrophy. Its effects in muscle also include stimulating myoblast proliferation in vitro, and up-regulation after muscle injury. LIF will also stimulate muscle regeneration in vivo when applied exogenously after injury. In published studies of both axotomy induced neuronal death and in the Wobbler mouse models LIF is active at doses of 10 microg/kg delivered systemically, well below the expected maximum tolerated dose suggested by primate safety studies. LIF is expressed in low levels by spinal cord neurones with significant up-regulation when the neurones are damaged by BOAA toxin, an excitatory amino acid associated with a form of ALS. This augments other evidence suggesting LIF is a trauma factor playing a role in the injury response of adult neuronal tissue, and may be more effective than related growth factors. Taken together, the data suggests LIF is a physiologically relevant trophic factor with implications in clinical medicine as a therapy for ALS, and a human recombinant form (AM424), entered human clinical trials during 1998.
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PMID:LIF (AM424), a promising growth factor for the treatment of ALS. 985 59


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