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)

There are numerous similarities between the erythroid and megakaryocytic lineages which suggest that commitment to either lineage occurs relatively late in hematopoiesis. Commitment toward megakaryocyte development requires obligatory silencing of erythroid-specific genes. Therefore, we investigated the effects of interleukin-6, a known inducer of thrombocyte production, on globin gene expression during erythroid differentiation. Studies in K562 cells demonstrated inhibition of gamma globin gene mRNA production and chain biosynthesis in the presence of exogenous interleukin-6 which was abrogated by anti-interleukin-6 monoclonal antibody. Similar studies in primary erythroid progenitors showed inhibition of burst-forming unit-erythroid colony formation when interleukin-6 was added late in cultures with decreased gamma and beta globin gene mRNA production. Protein binding studies demonstrated an increase in activator protein-1 binding to its consensus sequence by 24 h of interleukin-6 treatment. Inhibition of activator protein-1 gene activity had no effect on gamma gene silencing by interleukin-6. A potential interleukin-6 response element was identified in the gamma globin gene. Interleukin-6 treatment led to a rapid increase in protein binding to the target DNA sequence. These results suggest that interleukin-6 may play an important role in globin gene silencing during megakaryocytic lineage commitment.
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PMID:Globin gene silencing in primary erythroid cultures. An inhibitory role for interleukin-6. 924 73

Agnogenic myeloid metaplasia (AMM) is a disease characterized by bone marrow megakaryocyte hyperplasia and clusters of megakaryocytes, in which many of the megakaryocytes are atypical. In order to elucidate the mechanisms of megakaryocytosis, ELISA assays of blood levels of thrombopoietin (TPO), interleukin-6 (IL-6) and interleukin-11 (IL-11) were done in 45 patients with AMM and compared with normal volunteer controls. Higher blood TPO levels were found in AMM than in controls (P < 0.0001), and blood TPO levels were correlated with the degree of marrow fibrosis (P = 0.0078). Blood levels of IL-6 were also significantly higher in AMM, when compared with controls (P < 0.0001). However, no correlation was found between blood IL-6 levels and degree of marrow fibrosis. No correlation was found between either TPO or IL-6 and the number of blood platelet counts, the number of marrow megakaryocytes, WBC counts, or the degree of splenomegaly. Blood IL-11 levels were undetectable in most patients and no significant difference was found in AMM as compared to controls. The present study demonstrated that, while in idiopathic thrombocytopenic purpura (ITP) or aplastic anemia, blood TPO levels are relatively correlated with the numbers of platelet and/or megakaryocyte mass, blood TPO levels do not correlate with blood platelet counts, or marrow megakaryocyte mass in AMM. Therefore, in AMM, other mechanisms such as the number of TPO receptors on platelets or megakaryocytes, c-MPL receptor abnormalities, abnormal production of TPO mRNA and so on, will have to be studied. Furthermore, TPO may play a significant role in the pathogenesis of marrow fibrosis; IL-6 may be a factor in the development of marrow megakaryocytosis but its elevated blood levels may represent a secondary immune phenomenon; and IL-11 probably does not play a significant role in causing marrow megakaryocytosis in this disease.
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PMID:Blood thrombopoietin, IL-6 and IL-11 levels in patients with agnogenic myeloid metaplasia. 936 14

Mice lacking thrombopoietin (TPO), or its receptor c-Mpl, display defective megakaryocyte and platelet development and deficiencies in progenitor cells of multiple hematopoietic lineages. The contribution of alternative cytokines to thrombopoiesis in the absence of TPO signalling was examined in mpl-/- mice. Analysis of serum and organ-conditioned media showed no evidence of a compensatory overproduction of megakaryocytopoietic cytokines. However, consistent with a potential role in vivo, when injected into mpl-/- mice, interleukin-6 (IL-6) and leukemia inhibitory factor (LIF) retained the capacity to elevate megakaryocytes and their progenitors in hematopoietic tissues and increase circulating platelet numbers. However, double mutant mice bred to carry genetic defects both in c-Mpl and IL-3 or the alpha chain of the IL-3 receptor, displayed no greater deficiencies in megakaryocytes or platelets than mpl-deficient animals, suggesting absence of a physiologic role for IL-3 in the residual megakaryocytopoiesis and platelet production in these mice.
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PMID:Cytokine production and function in c-mpl-deficient mice: no physiologic role for interleukin-3 in residual megakaryocyte and platelet production. 953 84

Murine fibroblast NIH3T3 cells engineered to secrete interleukin-6 (NIH3T3-IL-6) were implanted intraperitoneally into mice and observed for their hematopoietic effects with or without 5-fluorouracil (5-FU) administration. In normal mice, the platelet and neutrophil counts in peripheral blood increased significantly after implantation of NIH3T3-IL-6 cells, but the total white blood cell numbers showed no obvious elevation. The granulocyte-macrophage colony-forming unit (CFU-GM) and megakaryocyte colony-forming unit (CFU-MK) numbers formed by stem cells in bone marrow and spleen were also found to be significantly increased after implantation of NIH3T3-IL-6 cells when compared with those in mice after implantation of NIH3T3 cells transduced with neomycin gene (NIH3T3-Neo). To observe the protective effects of NIH3T3-IL-6 cells on hematopoietic depression in chemotherapy-treated mice, the mice were preinjected with 5-FU at a dosage of 150 mg/kg before implantation of NIH3T3-IL-6 cells. The platelet and neutrophil counts showed accelerated recovery after implantation of NIH3T3-IL-6 cells. The numbers of CFU-GM and CFU-MK in bone marrow and spleen were also found to be markedly increased in hematopoietic-depressed mice when compared with those in mice implanted with NIH3T3-Neo cells. These data suggest that fibroblast-mediated IL-6 gene therapy, which can augment hematopoiesis in mice with or without chemotherapy, will be of great help in the recovery from hematopoietic depression after chemotherapy.
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PMID:Augmentation of hematopoiesis by fibroblast-mediated interleukin-6 gene therapy in mice with chemotherapy. 956 24

Plasma concentrations of the most potent megakaryocytopoietic cytokines, thrombopoietin (TPO) and interleukin-6 (IL-6), and the platelet activation marker P-selectin were evaluated in 24 patients with autoimmune thrombocytopenic purpura (ATP) who responded to conventional steroid treatment, at diagnosis and after steroid-induced recovery. Baseline TPO concentration (median [interquartile range]=0 [17.52] pg/ml) was significantly decreased and IL-6 (38 [19.75] pg/ml) and P-selectin (485 [393.75] ng/ml) were significantly elevated compared with healthy subjects (100 [68] pg/ml, 8 [7] pg/ml and 166 [69] ng/ml, respectively). Following steroid treatment, all values approached normal, i.e., TPO (20 [18.75] pg/ml) was increased and IL-6 (19.5 [13] pg/ml) and P-selectin (248 [172.5] ng/ml) were decreased, significantly. The decrease of TPO in ATP is suggested to occur due to increased megakaryocyte mass and, consequently, TPO clearance. The non-lineage-specific cytokine IL-6 may be elevated to compensate for megakaryocytopoiesis/thrombopoiesis. The elevation of P-selectin may reflect compensatory platelet hyperactivation; however, this molecule also might be a marker of platelet destruction.
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PMID:Thrombopoietin, interleukin-6, and P-selectin at diagnosis and during post-steroid recovery period of patients with autoimmune thrombocytopenic purpura. 982 48

We investigated the in vitro and in vivo effects of KT6352, a derivative of indolocarbazole compound, on murine megakaryocytopoiesis. When serum-free megakaryocyte (Meg) colony assay was performed with 100 U/mL of recombinant mouse interleukin-3 (rmIL-3), the addition of 1x10(-11)M to 1x10(-9)M of KT6352 increased the number of Meg colonies. An additional increase of Meg colonies by KT6352 was observed in the serum-free culture containing rmIL-3 plus recombinant mouse interleukin-6 or rmIL-3 plus recombinant mouse stem cell factor. KT6352 did not stimulate Meg colony formation without rmIL-3. When KT6352 was administered intraperitoneally to normal BALB/c male mice at a dose of 10 mg/kg daily for 5 consecutive days, a 2.1-fold increase in the platelet count was observed on day 14, and the prolonged thrombocytopoiesis was detectable from 9 to 27 days after KT6352 administration. A marked increase in the white blood cell count was also observed from 5 to 14 days after KT6352 treatment. Before the gradual increase of platelet counts, 8 days after KT6352 administration, a marked increase in the number of colony-forming units of megakaryocytes (CFU-Megs) in bone marrow and spleen was observed, and a substantial increase in the number of splenic CFU-Megs was observed 14 and 23 days after KT6352 administration. Bone marrow Meg ploidy analysis by two-color flow cytometry showed a shift in the modal ploidy class from 16 to 32 and an increase in the frequency of 64 cells in KT6352-treated mice. These results suggest a possible therapeutic benefit of KT6352 in the management of thrombocytopenia.
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PMID:In vitro and in vivo effects of KT6352, a derivative of indolocarbazole compounds, on murine megakaryocytopoiesis. 984 74

Thrombopoietin (TPO) is the most important regulator of megakaryocyte development and platelet production. Platelet production is thought to be regulated by a negative regulatory feed back loop. In an attempt to evaluate the role of TPO in the pathobiology of essential thrombocythemia (ET), we have examined levels of TPO and other cytokines with thrombopoietic activity (interleukin-6 and interleukin-11) in sera obtained from 25 patients with ET (ten treated, 15 untreated) and 117 healthy control subjects. TPO serum levels were assessed using a sandwich-antibody ELISA that utilizes a polyclonal rabbit antiserum for both capture and signal. The mean serum TPO level in 25 ET patients was significantly elevated (545+/-853 pg/ml) as compared with that in healthy controls (95.3+/-54.0 pg/ml,p<0.001). The difference in TPO serum levels between ten treated (781+/-1229 pg/ ml) and 15 untreated ET patients (388+/-458 pg/ml) did not reach statistical significance (p = 0.09). We conclude that either consumption or production of TPO is altered in ET. Failure of appropriate feedback regulation and continued megakaryocyte stimulation by an elevated TPO may play an important role in the pathobiology of ET.
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PMID:High levels of thrombopoietin in sera of patients with essential thrombocythemia: cause or consequence of abnormal platelet production? 1123 80

Thrombopoietin (Mpl ligand), interleukin-6 (IL-6), and interleukin-11 (IL-11) differ in their effects on megakaryocyte maturation and development. In the present study, the impact of these thrombocytopoietic cytokines on biochemical and structural granule and membrane components was examined. Western blotting was performed on equivalent amounts of isolated megakaryocyte or platelet protein and the relative intensities of the enhanced chemiluminescent-visualized bands were quantitated by densitometry. Megakaryocyte growth and development factor (MGDF), a recombinant thrombopoietin-related molecule, significantly increased megakaryocyte fibronectin (72%), thrombospondin (55%), von Willebrand factor (28%) and p-selectin (CD62p) (37%) when compared to equivalent amounts of protein from saline-treated controls (p<0.01). Megakaryocyte fibrinogen was not increased. Ultrastructurally, there was a marked increase in ribosomes and rough endoplasmic reticulum even in mature-appearing megakaryocytes. Platelets from MGDF-treated mice showed small increases in fibronectin (8%), and CD62p (18%), but did not show increases in other measured alpha-granule proteins. Neither IL-6 nor IL-11 increased megakaryocyte or platelet alpha-granule proteins over levels observed in saline controls. IL-11 treated megakaryocytes, while also exhibiting an increase in ribosomes, were characterized by prominent cytoplasmic fragmentation. The study demonstrates the impact of Mpl ligand in increasing synthesized megakaryocyte alpha-granule proteins and of IL-11 in promoting megakaryocyte fragmentation.
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PMID:The effects of Mpl-ligand, interleukin-6 and interleukin-11 on megakaryocyte and platelet alpha-granule proteins. 986 69

The thrombocytopenia and absent radii (TAR) syndrome is a rare disease associating bilateral radial agenesis and congenital thrombocytopenia. Here, we investigated in vitro megakaryocyte (MK) differentiation and expression of c-mpl in 6 patients. Using blood or marrow CD34(+) cells, the colony-forming unit (CFU)-MK number was markedly reduced. CD34(+) cells were also cultured in liquid medium in the presence of a combination of 3 cytokines (stem cell factor, interleukin-3, and interleukin-6) or megakaryocyte growth and development factor (PEG-rHuMGDF) with or without SCF. In the presence of PEG-rHuMGDF, the majority of mature megakaryocytes (CD41 high, CD42 high) underwent apoptosis. This phenomenon was also observed in cultures stimulated by three cytokines. However, this last combination of cytokines allowed a more complete terminal MK differentiation. Surprisingly, a homogeneous population of CD34(-)CD41(+)CD42(-) cells accumulated during the cultures. This population was unable to differentiate along the myeloid pathways. This result suggests that a fraction of MK cells is unable to differentiate in the TAR syndrome. We subsequently investigated whether this could be related to an abnormality in c-mpl. No mutation or rearrangement in the c-mpl gene was found by Southern blots or by sequencing of the c-mpl coding region and its promoter in any of the patients. Using Western blot analysis, a decreased level of Mpl was found in patient platelets. A decreased level of c-mpl messenger RNA in TAR platelets was also detected with a lower c-mpl-P to c-mpl-K ratio in comparison to adult platelets. Altogether, these results demonstrate that the thrombocytopenia of the TAR syndrome is associated with a dysmegakaryocytopoiesis characterized by cells blocked at an early stage of differentiation. (Blood. 2000;95:1633-1641)
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PMID:Existence of a differentiation blockage at the stage of a megakaryocyte precursor in the thrombocytopenia and absent radii (TAR) syndrome. 1068 18

In order to evaluate the importance of different thrombopoietic stimulatory cytokines in accelerating platelet recovery after bone marrow transplantation (BMT), we assayed serial plasma concentrations of three cytokines, thrombopoietin (TPO), interleukin-6 (IL-6), and IL-11 through the course of platelet nadir and recovery after BMT. Both mean TPO and IL-6 levels showed a marked rise and later fall preceding or coincident with the platelet nadir and recovery, suggesting their potential role as circulating regulators or stimulators of thrombopoiesis. In contrast, IL-11 levels remained remarkably constant through the whole course suggesting that this cytokine, though capable of stimulating thrombopoiesis, does not serve as a circulating regulator of platelet production. Additionally, we assayed the levels of these three cytokines following initial platelet transfusion to assess the capacity of transfused platelets to adsorb these thrombopoietic cytokines from the plasma and reduce their circulating levels, thus potentially modifying their availability for stimulating megakaryocyte proliferation. No consistent falls in TPO, IL-6 or IL-11 levels were observed following the initial two platelet transfusions. These data support the importance of circulating TPO and IL-6 as hormones capable of stimulating platelet production. Their physiologic relevance as in vivo regulators of thrombopoiesis and clinical utility for therapy of thrombocytopenia need further investigation.
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PMID:Thrombopoietic cytokines in relation to platelet recovery after bone marrow transplantation. 1074 55

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