UNIPROT:P05231 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P05231 (interleukin-6)
23,907 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have previously reported that the platelet count and an increase in platelet number reflect individual erythropoietic capacity in pre-operative autologous blood donation (PABD). We have examined the correlation between erythropoiesis and thrombopoiesis by quantitative in vitro determination of thrombopoietin (TPO), erythropoietin (EPO), and interleukin-6 (IL-6) in patients with PABD. A sequential increase in platelet count with donation could not be explained by an increase in TPO. TPO showed a tendency to be inversely related to the pre-donation platelet count, and to be related to the pre-donation hemoglobin level. There was an inverse relationship between the TPO and EPO levels. As seen with these results, a high erythropoietic state induces restraint of thrombopoiesis, and a low erythropoietic state induces an increase in thrombopoiesis. These effects modulate EPO and TPO via negative feedback. These results provide some practical important information for performing autologous blood donation. Further studies are needed to elucidate the details of these correlations.
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PMID:The correlation between erythropoiesis and thrombopoiesis as an index for pre-operative autologous blood donation. 1084 42

Iron deficiency anemia is a cause of reactive thrombocytosis. A moderate increase in platelet numbers is common but sometimes counts may exceed 1,000 x 10(9)/l. The mechanisms causing reactive thrombocytosis are unclear. In this study, we evaluated 15 women with iron deficiency anemia and thrombocytosis (platelets >450 x 10(9)/l) and 16 women with iron deficiency anemia with normal platelet counts. Serum samples were taken before oral iron replacement therapy, after 1 and 3 months and at the end of replacement therapy. Thrombopoietin, erythropoietin (EPO), leukemia inhibitory factor, interleukin-6 and interleukin-11 levels were assayed. There was no change in the levels of thrombopoietic cytokines except for EPO. The correlation between high EPO levels and high platelet counts may suggest that EPO increases platelet counts, but the same EPO level changes can also be demonstrated in women with iron deficiency anemia but normal initial platelet counts. The fact that the levels of other cytokines remained unchanged during treatment suggests that either these cytokines have no effect on reactive thrombocytosis or the change in platelet counts in our patients is in a narrow range and is thus not affected by the cytokine levels.
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PMID:Thrombopoietic cytokines in patients with iron deficiency anemia with or without thrombocytosis. 1094 Jun 53

We investigated the effects of recombinant human thrombopoietin (TPO) in combination with various cytokines including erythropoietin (EPO), interleukin-3 (IL-3), interleukin-6 (IL-6), and stem cell factor (SCF) on megakaryopoiesis, and the expansion of CD34+CD41a+ cells from human cord blood CD34+ cells with these cytokines under serum-free conditions. Human cord blood CD34+ cells were cultured in Megacult (Stem Cell Technologies Inc. Vancouver, Canada) in the presence of recombinant growth factors. Colony-forming unit-megakaryocyte (CFU-M) colonies were counted on day 14. CD34+CD41a+ and CD34-CD41a+ cell expansion was analyzed using a serum-free liquid culture system for 7 days with recombinant growth factors. TPO alone had a concentration-dependent effect on megakaryocyte colony growth. At concentrations above 1 ng/ml, TPO supported significant CFU-Meg colony formation in a concentration-dependent manner. The combination of TPO plus other cytokines, including EPO, IL-3, and SCF, resulted in a synergistic enhancement of the number of CFU-Meg colonies, but IL-6 failed to enhance the effect of TPO. The number of CD41a+ cells increased after 7 days in liquid culture of human cord blood CD34+ cells with various cytokines (EPO, IL-3, IL-6, SCF) combined with TPO, but SCF plus TPO only resulted in a significant synergistic increment of CD34+CD41a+ cells compared with TPO alone. The results of the present study indicate that EPO, IL-3, and SCF can be synergistic with TPO to stimulate proliferation of CFU-Meg and suggest that SCF plus TPO can expand CD34+CD41a+ cells to effect the rapid recovery of platelets in patients following stem cell transplantation.
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PMID:Thrombopoietin is synergistic with other cytokines for expansion of cord blood progenitor cells. 1098 44

Platelet count is regularly low in patients after multiple trauma, mainly due to blood loss and dilution. Thrombopoietin (TPO) is the main regulator of the circulating platelet mass. Under several clinical conditions an inverse correlation between TPO and the circulating platelet mass was reported. Since platelets bind and internalize TPO, a platelet-dependent regulation of TPO was suggested. Thus, acute blood loss should be accompanied by elevated TPO. We measured serum TPO, platelets, interleukin-6 (IL-6) and vascular endothelial growth factor (VEGF) in 17 multiple traumatized victims. Blood was collected within 12 h after trauma as well as in the morning of days 2, 4, 6 and 9 after admission at the intensive care unit. Platelet count was low at admission and remained low until day 4. Thereafter platelets increased until day 9. TPO nearly doubled within the first 2 d, reaching its maximum on day 6. IL-6 was initially very high and steadily decreased until day 9. VEGF increased 3-fold during the 9 d. Statistically significant correlations of TPO were found with platelets and IL-6, but not with VEGF. In multiple traumatized patients low platelet count is followed by a rapid increase in serum TPO. This fits into the concept of a feedback regulation between circulating TPO and platelet mass.
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PMID:Low platelet count and elevated serum thrombopoietin after severe trauma. 1099 81

Paclitaxel and carboplatin chemotherapy is reported to be a platelet-sparing drug combination. This study investigated potential mechanisms for this observation by studying the effects of paclitaxel and carboplatin on (1) normal donor and chemotherapy patient-derived erythroid (burst-forming units-erythroid [BFU-E]), myeloid (colony-forming units-granulocyte/macrophage [CFU-GM]), and megakaryocyte (CFU-Meg) progenitor cell growth; (2) P-glycoprotein (P-gp) protein and glutathione S-transferase (GST) messenger RNA (mRNA) expression; (3) serum thrombopoietin (Tpo), stem cell factor (SCF), interleukin-6 (IL-6), IL-11, IL-1beta, IL-8, and tumor necrosis factor-alpha levels in patients treated with paclitaxel and carboplatin; and (4) stromal cell production of Tpo and SCF after paclitaxel and carboplatin exposure. CFU-Meg were more resistant to paclitaxel alone, or in combination with carboplatin, than CFU-GM and BFU-E. Although all progenitors expressed P-gp protein and GST mRNA, verapamil treatment significantly, and selectively, increased the toxicity of paclitaxel and carboplatin to CFU-Meg, suggesting an important role for P-gp in megakaryocyte drug resistance. Compared to normal controls, serum Tpo levels in patients receiving paclitaxel and carboplatin were significantly elevated 5 hours after infusion and remained elevated at day 7 (287% +/- 63% increase, P <.001). Marrow stroma was shown to be the likely source of this Tpo. It is concluded here that P-gp-mediated efflux of paclitaxel, and perhaps GST-mediated detoxification of carboplatin, results in relative sparing of CFU-Meg, which may then respond to locally high levels of stromal cell-derived Tpo. The confluence of these events might lead to the platelet-sparing phenomenon observed in patients treated with paclitaxel and carboplatin chemotherapy.
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PMID:Investigating the platelet-sparing mechanism of paclitaxel/carboplatin combination chemotherapy. 1115 79

Baseline platelet production is dependent on thrombopoietin (TPO). TPO is constitutively produced and primarily regulated by receptor-mediated uptake by platelets. Inflammatory thrombocytosis is thought to be related to increased interleukin-6 (IL-6) levels. To address whether IL-6 might act through TPO to increase platelet counts, TPO was neutralized in vivo in C57BL/10 mice treated with IL-6, and hepatic TPO mRNA expression and TPO plasma levels were studied. Transcriptional regulation of TPO mRNA was studied in the hepatoblastoma cell line HepG2. Furthermore, TPO plasma levels were determined in IL-6-treated cancer patients. It is shown that IL-6-induced thrombocytosis in C57BL/10 mice is accompanied by enhanced hepatic TPO mRNA expression and elevated TPO plasma levels. Administration of IL-6 to cancer patients results in a corresponding increase in TPO plasma levels. IL-6 enhances TPO mRNA transcription in HepG2 cells. IL-6-induced thrombocytosis can be abrogated by neutralization of TPO, suggesting that IL-6 induces thrombocytosis through TPO. A novel pathway of TPO regulation by the inflammatory mediator IL-6 is proposed, indicating that the number of platelets by themselves might not be the sole determinant of circulating TPO levels and thus of thrombopoiesis. This regulatory pathway might be of relevance for the understanding of reactive thrombocytosis.
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PMID:Interleukin-6 stimulates thrombopoiesis through thrombopoietin: role in inflammatory thrombocytosis. 1167 43

Expansion of haemopoietic stem cells from placental blood has been obtained with a combination of flt3 ligand (FL), thrombopoietin (TPO), kit-ligand (KL) with or without interleukin-6 (IL6) in serum-replete medium. For clinical use, cell expansion in the absence of serum is a clear advantage. Therefore, stem cell expansion in serum-free (SF) medium with a combination of three (FL, TPO, KL) or four (FL, TPO, KL, IL6) growth factors was compared with the results obtained using fetal calf serum (FCS) or human serum (HS). Human CD34(+) placental blood cells were cultured in the presence of FL, TPO, KL +/- IL6 with SF medium, HS and FCS for up to 8 weeks. CD34(+), CFC, LTC-IC content was measured at intervals. To determine the in vivo repopulating capacity of expanded cells, CD34(+) expanded cells were transplanted in sublethally irradiated NOD/SCID mice. With the three growth factor combination the CD34(+) cell number increased steadily up to the 8 weeks of culture. CD34(+) cells were expanded 67.5-fold with SF, 11.7 with HS and 49.2 with FCS. However, when CFCs and LTC-ICs were considered, a continuous expansion was observed only with HS and FCS, whereas in SF medium after 6 weeks their number started to decline. The addition of IL-6 did not change the expansion significantly. Cells grown ex vivo for 14 days were transplanted into NOD/SCID mice. The engraftment of human cells in mice was higher for serum-replete than for SF expanded cells. Nevertheless, SF cultured cells were also able to engraft both marrow and spleen in all animals. In addition, engrafted human cells still maintained clonogenic ability. With KL, FL, TPO +/- IL6 it is possible to expand haemopoietic progenitor cells in a SF medium. Compared with serum-replete cultures, the absolute number of clonogenic cells and in vivo repopulating cells is lower. Although the degree of expansion remains significant, a clinical trial still needs to be carried out to address the question of whether this expansion might be useful in reducing post-transplant aplasia.
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PMID:Role of different medium and growth factors on placental blood stem cell expansion: an in vitro and in vivo study. 1191 35

Stable gene transfer to the liver by viral vectors is inefficient. In an attempt to stimulate expansion of retrovirally transduced hepatocytes, we employed a synthetic drug (AP20187) that can reversibly dimerize and activate fusion proteins that contain a growth factor receptor signaling domain. Signaling domains derived from receptors for interleukin-6 (gp130), hepatocyte growth factor (c-met), epithelial growth factor (EGF-R), and thrombopoietin (mpl) triggered monkey hepatocytes to enter the cell cycle. However, mitosis occurred only upon activation of the gp130 and c-met signaling domains. Primary mouse hepatocytes expressing the gp130 fusion proliferated transiently in response to AP20187. AP20187-triggered activation of gp130 also stimulated the selective (>2-fold) expansion of retrovirally transduced hepatocytes in vivo, as shown by immunohistochemical staining and quantitative proviral DNA analysis. Drug-inducible in vivo expansion of genetically modified hepatocytes may have potential applications in hepatic gene transfer or in liver repopulation by transplanted hepatocytes or their progenitors. (c)2002 Elsevier Science (USA).
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PMID:Dimerizer-induced proliferation of genetically modified hepatocytes. 1194 69

Ex vivo proliferation of hematopoietic stem cells (HSCs) is important for cellular and gene therapy but is limited by the observation that HSCs do not engraft as they transit S/G(2)/M. Recently identified candidate inhibitors of human HSC cycling are transforming growth factor-beta(1) (TGF-beta(1)) and stroma-derived factor-1 (SDF-1). To determine the ability of these factors to alter the transplantability of human HSCs proliferating in vitro, lin(-) cord blood cells were first cultured for 96 hours in serum-free medium containing Flt3 ligand, Steel factor, interleukin-3, interleukin-6, and granulocyte colony-stimulating factor. These cells were then transferred to medium containing Steel factor and thrombopoietin with or without SDF-1 and/or TGF-beta(1) for 48 hours. Exposure to SDF-1 but not TGF-beta(1) significantly increased (> 2-fold) the recovery of HSCs able to repopulate nonobese diabetic/severe combined immunodeficiency mice. These results suggest new strategies for improving the engraftment activity of HSCs stimulated to proliferate ex vivo.
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PMID:Ex vivo treatment of proliferating human cord blood stem cells with stroma-derived factor-1 enhances their ability to engraft NOD/SCID mice. 1196 17

The ability of advanced-generation lentiviral vectors to transfer the green fluorescent protein (GFP) gene into human hematopoietic stem cells (HSCs) was studied in culture conditions that allowed expansion of transplantable human HSCs. Following 96 hours' exposure to flt3/flk2 ligand (FL), thrombopoietin (TPO), stem cell factor (SCF), and interleukin-6 (IL-6) and overnight incubation with vector particles, cord blood (CB) CD34(+) cells were further cultured for up to 4 weeks. CD34(+) cell expansion was similar for both transduced and control cells. Transduction efficiency of nonobese diabetic/severe combined immunodeficient (NOD/SCID) repopulating cells (SRCs) was assessed by transplants into NOD/SCID mice. Mice that received transplants of transduced week 1 and week 4 expanded cells showed higher levels of human engraftment than mice receiving transplants of transduced nonexpanded cells (with transplants of 1 x 10(5) CD34(+) cells, the percentages of CD45(+) cells were 20.5 +/- 4.5 [week 1, expanded] and 27.2 +/- 8.2 [week 4, expanded] vs 11.7 +/- 2.5 [nonexpanded]; n = 5). The GFP(+)/CD45(+) cell fraction was similar in all cases (12.5% +/- 2.9% and 12.2% +/- 2.7% vs 12.7% +/- 2.1%). Engraftment was multilineage, with GFP(+)/lineage(+) cells. Clonality analysis performed on the bone marrow of mice receiving transduced and week 4 expanded cells suggested that more than one integrant likely contributed to the engraftment of GFP-expressing cells. Serial transplantations were performed with transduced week 4 expanded CB cells. Secondary engraftment levels were 10.7% +/- 4.3% (n = 12); 19.7% +/- 6.2% of human cells were GFP(+). In tertiary transplants the percentage of CD45(+) cells was lower (4.3% +/- 1.7%; n = 10); 14.8% +/- 5.9% of human cells were GFP(+), and human engraftment was multilineage. These results show that lentiviral vectors efficiently transduce HSCs, which can undergo expansion and maintain proliferation and self-renewal ability.
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PMID:Lentiviral gene transfer and ex vivo expansion of human primitive stem cells capable of primary, secondary, and tertiary multilineage repopulation in NOD/SCID mice. Nonobese diabetic/severe combined immunodeficient. 1245 76

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