UNIPROT:P05231 - FACTA Search

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Query: UNIPROT:P05231 (interleukin-6)
23,907 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1. The authors developed a primary culture technique for neuronal cells from postnatal rat brains and studied the effects of neurotrophic factors on the naturally developed neurons. 2. We demonstrated changes in the neurotrophic role of nerve growth factor (NGF) during the developmental stages of the rat: NGF was shown to act as a differentiation factor in the early stages and as a survival factor later. 3. It appeared that interleukin-6 (IL-6) supported the survival of septal cholinergic neurons obtained from 10-day-old rats. IL-6, however, did not induce the differentiation of embryonic rat septal cholinergic neurons. IL-6 improved the survival of mesencephalic catecholaminergic neurons from postnatal and embryonic rat brains, which have known not to be response to NGF.
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PMID:Culture of neuronal cells from postnatal rat brain: application to the study of neurotrophic factors. 135 95

Ciliary neurotrophic factor (CNTF) has a variety of actions within the nervous system. While some of the actions of leukemia inhibitory factor (LIF) on neurons resemble those of CNTF, LIF also has broad actions outside of the nervous system that in many cases mimic those of interleukin-6 (IL-6). Comparison of the tyrosine phosphorylations and gene activations induced by CNTF and LIF in neuron cell lines reveals that they are indistinguishable and also very similar to signaling events that characterize LIF and IL-6 responses in hematopoietic cells. We provide a basis for the overlapping actions of these three factors by demonstrating that the shared CNTF and LIF signaling pathways involve the IL-6 signal transducing receptor component gp130. Thus, the receptor system for CNTF is surprisingly unlike those used by the nerve growth factor family of neurotrophic factors, but is instead related to those used by a subclass of hematopoietic cytokines.
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PMID:CNTF and LIF act on neuronal cells via shared signaling pathways that involve the IL-6 signal transducing receptor component gp130. 161 25

Among the molecules that determine the developmental fate of sympathetic neurons from noradrenergic to cholinergic function are two apparently unrelated proteins, cholinergic differentiation factor and ciliary neurotrophic factor (CDF and CNTF, respectively). The present work suggests a structural basis for their functional overlap: sequence pattern-matching and predictive structure analysis contends that CDF and CNTF are homologous and share a common helical framework. An integrated CDF/CNTF profile also reveals similar sequence/structure motifs in a group of hematopoietic cytokines composed of granulocyte colony-stimulating factor, interleukin-6, and a novel factor called oncostatin M; a more distant relationship is indicated with interleukin-3 and interferons-alpha/beta. Evolutionary ties between neuropoietic and hematopoietic cytokines predict a distinctive tertiary architecture for the uncharacterized CDF and CNTF receptors. The intertwined cytokine/receptor networks signal a closer relationship between the molecular mechanisms underlying neuro- and hematopoiesis.
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PMID:Neuropoietic cytokines in the hematopoietic fold. 171 45

Ciliary neurotrophic factor (CNTF) is a cytokine sharing structural and functional similarities with interleukin-6 (IL-6) and other helical cytokines that utilize the common signalling chain gp130. While IL-6 induces gp130 dimerization, CNTF, after the initial interaction with the specific, non-signalling receptor subunit, CNTFR, induces the formation of gp130/LIF-receptor heterodimers. Through immunoprecipitation experiments with tagged soluble receptor molecules, we recently demonstrated that IL-6 drives the formation of a hexameric receptor complex with a defined topology and composed of two IL-6, two IL-6R alpha and two gp130 molecules. Here, we apply the same strategy to study the assembly in vitro of the CNTF receptor complex. We present evidence that both the cytokine and the specific binding chain undergo dimerization in the presence of gp130. Furthermore, although gp130 and LIFR are able to bind independently to the CNTF/CNTFR sub-complex, they never form homodimers but only heterodimers. We propose that CNTF assembles a hexameric receptor complex composed of two CNTF, two CNTFR, one gp130 and one LIFR molecule, and present a model of the reciprocal interaction of these molecules based on similarities with the IL-6 hexameric complex.
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PMID:In vitro binding of ciliary neurotrophic factor to its receptors: evidence for the formation of an IL-6-type hexameric complex. 750 Mar 50

Ciliary neurotrophic factor (CNTF), leukemia inhibitory factor (LIF), oncostatin M (OSM), and interleukin-6 (IL6) compose a family of distantly related cytokines that initiate signaling by inducing either homodimerization of the "beta" signal transducing receptor component gp130 (in the case of IL6) or heterodimerization between gp130 and the gp130-related LIFR beta (in the case of CNTF, LIF, and OSM); dimerization of beta receptor components in turn activates members of the Jak/Tyk family of receptor-associated tyrosine kinases. Here we report that CNTF, LIF, OSM, and IL6 induce most of the same protein tyrosine phosphorylations, regardless of the cell type assayed or whether they initiate signaling by inducing homo- or heterodimerization of beta components. Although several of the protein tyrosine phosphorylations induced by the CNTF/LIF/OSM/IL6 family of factors may correspond to novel tyrosine kinase targets, we have been able to demonstrate the involvement of known signaling molecules, such as phospholipase C gamma, phosphoinositol 3-kinase, phosphotyrosine phosphatase (PTP1D), pp120, SHC, GRB2, STAT91, Raf-1, and the mitogen-activated protein kinases ERK1 and ERK2, revealing substantial convergence not only between the pathways activated by this cytokine family and other cytokines, but with pathways previously known to be activated only by factors that utilize receptor tyrosine kinases. Our data suggest the beta receptor components can form complexes with some of the signaling proteins identified and may play some role in their recruitment.
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PMID:Ciliary neurotrophic factor/leukemia inhibitory factor/interleukin 6/oncostatin M family of cytokines induces tyrosine phosphorylation of a common set of proteins overlapping those induced by other cytokines and growth factors. 751 71

Ciliary neurotrophic factor (CNTF), interleukin-6 (IL-6), leukemia inhibitory factor (LIF), and oncostatin M (OSM) share functional properties, a predicted common helical framework, and partially identical receptor components. CNTF is a survival promoting factor for various types of neurons in vitro and in vivo. In the present study, structural features essential for the biological function of human CNTF were investigated. Several recombinant CNTF variants were constructed by PCR and expressed in E. coli. Their survival promoting activities were determined using cultures of embryonic chick and newborn rat dorsal root ganglion cells. Deletion of 14 N-terminal and 18 C-terminal amino acids significantly increased bioactivity compared to wild-type (wt) CNTF. Further truncation of the CNTF molecule at the N- or C-terminus resulted in a significant reduction or complete loss of activity. Substitution of two amino acids (Lys154Glu and Trp157Pro) abolished the survival promoting effect. Recently described analogous substitutions in IL-6 had resulted in a partial IL-6 receptor antagonist. However, the double substitution variant had no significant inhibitory effect on wtCNTF activity in assays with both wt and mutant factor. The CNTF variants constructed had almost identical effects on both chick and rat neurons indicating a close similarity of the avian and the mammalian CNTF receptor complex. The present results also demonstrate that a core segment of the CNTF molecule is indispensable for biological function. Analogous segments important for activity have already been identified in the related molecules IL-6, LIF, and OSM. Thus, our data confirm the close structural relationship of CNTF to these "neuropoietic" cytokines. In addition, they demonstrate that site-directed mutagenesis of recombinant human CNTF can yield molecules which show increased survival promoting activity on mammalian neurons.
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PMID:Site-directed mutagenesis of human CNTF: functional analysis of recombinant variants. 762 95

In this study, we investigated the effect of recombinant human interleukin-6 (IL-6) on colony-forming cells for granulocytes and macrophages (CFU-GM) cultured in suspension. IL-6 when used alone did not induce proliferation of highly purified CD34+ human hematopoietic progenitors. Moreover, no influence of IL-6 was observed on the proliferation induced by granulocyte-macrophage colony-stimulating factor (GM-CSF) or granulocyte (G)-CSF. However, a marked survival enhancement (GM-CSF 228 +/- 42%, p < 0.01, and G-CSF 137 +/- 9%, p < 0.05) was observed when CD34+ cells were preincubated with IL-6 for 6 days. This survival effect became even more pronounced under serum-poor conditions (GM-CSF 380 +/- 80%, p < 0.01, and G-CSF 180 +/- 20%, p < 0.01) and could also be demonstrated at the single cell level in a colony-forming assay. By analysis of subpopulations of CD34+ bone marrow (BM) cells selected on the basis of CD45RO expression, the observed IL-6-mediated survival effect was found to be restricted to the CFU-GM containing CD45RO- subset. Our data show that IL-6 is a survival factor for CFU-GM.
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PMID:Interleukin-6 is a survival factor for committed myeloid progenitor cells. 769 39

Ciliary neurotrophic factor (CNTF) has recently been found to share receptor components with, and to be structurally related to, a family of broadly acting cytokines, including interleukin-6, leukemia inhibitory factor, and oncostatin M. However, the CNTF receptor complex also includes a CNTF-specific component known as CNTF receptor alpha (CNTFR alpha). Here we describe the molecular cloning of the human and mouse genes encoding CNTFR. We report that the human and mouse genes have an identical intron-exon structure that correlates well with the domain structure of CNTFR alpha. That is, the signal peptide and the immunoglobulin-like domain are each encoded by single exons, the cytokine receptor-like domain is distributed among 4 exons, and the C-terminal glycosyl phosphatidylinositol recognition domain is encoded by the final coding exon. The position of the introns within the cytokine receptor-like domain corresponds to those found in other members of the cytokine receptor superfamily. Confirming a recent study using radiation hybrids, we have also mapped the human CNTFR gene to chromosome band 9p13 and the mouse gene to a syntenic region of chromosome 4.
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PMID:Genomic organization and chromosomal localization of the human and mouse genes encoding the alpha receptor component for ciliary neurotrophic factor. 777 13

Ciliary neurotrophic factor (CNTF) is a 22-kDa protein predicted to share with leukemia inhibitory factor (LIF) and interleukin-6 a common amphipathic helical domain. Consistent with this prediction, the CNTF receptor complex is composed of the CNTF alpha receptor, the LIF beta receptor and gp130 a signalling molecule for LIF and interleukin-6. The major sources of synthesis of CNTF are Schwann cells and astrocytes, but it remains unclear how much CNTF is released from these glial cells and by what mechanism. In vitro, CNTF supports the survival of all classes of peripheral nervous system neurons plus many CNS neurons, induces neurite outgrowth, promotes a cholinergic phenotype in sympathetic neurons and arrests division of neuronal precursor cells. Several cell lines also respond to CNTF. In vivo, CNTF rescues several types of neurons from axotomy-induced death. The functions of CNTF in the development and maintenance of the nervous system remain enigmatic.
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PMID:Ciliary neurotrophic factor: a review. 780 79

Recent efforts to understand the mechanism of action of CNTF have led to the identification of a three-component receptor complex for CNTF. The distributions of these receptor components explain the known target cell specificity of CNTF, and have also helped identify new and unexpected targets of CNTF action. In addition to including a CNTF-specific component, known as CNTFR alpha, the CNTF receptor complex utilizes two receptor components, gp130 and LIFR beta, that are shared with members of a family of broadly acting cytokines, including leukemia inhibitory factor (LIF) and interleukin-6 (IL6). The finding that the CNTF receptor complex shares components with this family of cytokines has led to the realization that CNTF should also be considered a cytokine--but one that differs from its relatives in that its actions are largely limited to cells of the nervous system due to the restricted expression of one of its receptor components, CNTFR alpha. CNTFR alpha does not play a direct role in signaling, but instead forms a complex with CNTF that promotes its binding to the signal transducing "beta" receptor components, gp130 and LIFR beta. Thus CNTF utilizes identical signal transducing receptor components in neurons that its relatives use on nonneuronal cells to elicit strikingly dissimilar responses, indicating that different cells interpret the same cell surface signal in dramatically different ways. The three CNTF receptor components are initially unassociated on the cell surface, and are brought together in step-wise fashion upon CNTF binding. CNTF first binds to CNTFR alpha, then recruits gp130, and finally complexes with LIFR beta. It is this last step in complex formation, involving heterodimerization between "beta" components, that activates intracellular signaling. Signal initiation is due to activation of members of a family of cytoplasmic tyrosine kinase, known as the Jak/Tyk kinases, which are preassociated with the beta components in an inactive state and then become activated upon beta component dimerization; the Jak/Tyk kinases, in turn, activate a variety of intracellular signaling molecules, such as members of the STAT family of DNA binding transcriptional activators. A detailed understanding of the mechanism of activation of the CNTF receptor complex has led to the realization that all members of the CNTF family of cytokines activate signaling in much the same way, by inducing either homo- or heterodimerization of beta receptor components and thus activation of the preassociated Jak/Tyk kinases; this mode of receptor activation may prove to be more generally applicable to all cytokine receptors.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:The tripartite CNTF receptor complex: activation and signaling involves components shared with other cytokines. 785 97

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