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)

Angiogenesis, the formation of new blood vessels, is induced by various growth factors and cytokines that act either directly or indirectly. Vascular endothelial growth factor (VEGF) is a specific mitogen for vascular endothelial cells and therefore has a central role in physiological events of angiogenesis. Interleukin-6 (IL-6) expression on the other hand is elevated in tissues that undergo active angiogenesis but does not induce proliferation of endothelial cells. We demonstrate using Northern analysis that treatment of various cell lines with IL-6 for 6-48 h results in a significant induction of VEGF mRNA. The level of induction is comparable to the documented induction of VEGF mRNA by hypoxia or cobalt chloride, an activator of hypoxia-induced genes. In addition, it is demonstrated by transient transfection assays that the effect of IL-6 is mediated not only by DNA elements at the promoter region but also through specific motif(s) located in the 5'-untranslated region (5'-UTR) of VEGF mRNA. Our results imply that IL-6 may induce angiogenesis indirectly by inducing VEGF expression. It is also shown that the 5'-UTR is important for the expression of VEGF. The 5'-UTR of VEGF is exceptionally long (1038 base pairs) and very rich in G + C. This suggests that secondary structures in the 5'-UTR might be essential for VEGF expression through transcriptional and post-transcriptional control mechanisms.
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PMID:Interleukin 6 induces the expression of vascular endothelial growth factor. 855 80

Kaposi's sarcoma-associated herpesvirus (KSHV; also known as human herpesvirus 8 [HHV-8]) is a herpesvirus linked to the development of Kaposi's sarcoma (KS), primary effusion lymphoma, and a proportion of Castleman's disease. KSHV encodes viral interleukin-6 (vIL-6), which is structurally homologous to human and murine IL-6. The biological activities of vIL-6 are largely unknown. To gain insight into the biology of vIL-6, we expressed vIL-6 in murine fibroblasts NIH3T3 cells and inoculated stable vIL-6-producing clones into athymic mice. vIL-6 was detected selectively in the blood of mice injected with vIL-6-expressing clones. Compared with controls, vIL-6-positive mice displayed increased hematopoiesis in the myeloid, erythroid, and megakaryocytic lineages; plasmacytosis in spleen and lymph nodes; hepatosplenomegaly; and polyclonal hypergammaglobulinemia. vIL-6-expressing NIH3T3 cells gave rise to tumors more rapidly than did control cells, and vIL-6-positive tumors were more vascularized than controls. Vascular endothelial growth factor (VEGF) was detected at higher levels in the culture supernatant of vIL-6-expressing cells compared with controls, and immunohistochemical staining detected VEGF in spleen, lymph nodes, and tumor tissues from mice bearing vIL-6-producing tumors but not control tumors. Thus, vIL-6 is a multifunctional cytokine that promotes hematopoiesis, plasmacytosis, and angiogenesis. Through these functions, vIL-6 may play an important role in the pathogenesis of certain KSHV-associated disorders.
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PMID:Angiogenesis and hematopoiesis induced by Kaposi's sarcoma-associated herpesvirus-encoded interleukin-6. 1036 Oct 99

Vascular endothelial growth factor (VEGF), a multifunctional cytokine, potently stimulates angiogenesis including tumor neovascularization. Although well established in solid tumors, the role of VEGF in bone marrow neoangiogenesis and paracrine tumor-stromal cell interactions in lymphohematopoietic malignancies has not been fully elucidated. In multiple myeloma (MM), marrow neovascularization parallels disease progression. This parallel prompted us to investigate the expression and secretion of VEGF by myeloma cells and its potential effects in myeloma-marrow stroma interactions. The biologically active splice variants VEGF165 and VEGF121 were expressed and secreted by myeloma cell lines and plasma cells isolated from the marrow of patients with MM. As shown by immunocytochemistry or RT-PCR, myeloma cells did not express or weakly expressed the VEGF receptors FLT-1 and FLK-1/KDR, indicating that autocrine stimulation is unlikely. In contrast, FLK-1/KDR was abundantly expressed by marrow stromal cells. Therefore, we studied the effects of VEGF on marrow stroma, focusing on the secretion of interleukin-6 (IL-6), a potent growth factor for myeloma cells and an inhibitor of plasma cell apoptosis. Exposure of stromal and microvascular endothelial cells to recombinant human (rh) VEGF165 or VEGF121 induced a time- and dose-dependent increase in IL-6 secretion (14- to 27-fold at 50 ng/mL after 24 hours, P <.001). Conversely, rhIL-6 stimulated VEGF expression and secretion in myeloma cell lines (40%-60%; P <.05) and to a variable degree (up to 5.3-fold; P <.005) in plasma cells purified from the marrow of patients with MM. This mutual stimulation suggests paracrine interactions between myeloma and marrow stromal cells triggered by VEGF and IL-6. (Blood. 2000;95:2630-2636)
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PMID:Vascular endothelial growth factor and interleukin-6 in paracrine tumor-stromal cell interactions in multiple myeloma. 1075 44

The survival and proliferation of multiple myeloma cells are largely dependent on a supportive microenvironment. Interleukin-6 (IL-6) is known for its ability to support cell growth and prevent apoptosis, and clinical trials using monoclonal antibodies to block IL-6 or its receptors are underway. Apoptosis of myeloma cells triggered by corticosteroids is mediated by related focal adhesion tyrosine kinase (RAFTK); blocking RAFTK inhibits this apoptosis-inducing effect IL-6 activates SHP2, which inhibits RAFTK activation, thereby protecting multiple myeloma cells from the apoptotic effects of corticosteroids. Therefore, SHP2 and RAFTK might be appropriate targets for therapeutic interventions in multiple myeloma. Angiogenesis is also prominent in the pathogenesis of multiple myeloma. Vascular endothelial growth factor (VEGF) is one of the important endogenous factors that promote angiogenesis. An understanding of the process of angiogenesis in myeloma is necessary, because its inhibition offers promising prognostic and therapeutic implications. Thalidomide has recently been found to have both antiangiogenic and immunostimulating effects, and may be an important new antimyeloma agent. Immune-based therapies will likely play an increasing role in the treatment of multiple myeloma, and novel approaches are directed to generating immune responses to specific multiple myeloma antigens.
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PMID:Multiple Myeloma. Advances in disease biology: therapeutic implications. 1130 2

Recent advances in our understanding of the molecular regulation of myeloma cells suggest novel strategies for treating multiple myeloma. Some myeloma cells express a 69 kD variant of Ku86, a heterodimer subunit that is essential for double-stranded DNA break repair. Presence of the variant impairs DNA repair; therefore normal Ku86 in myeloma cells confers resistance to therapy and may represent a therapeutic target. The upregulation of NF-kappaB-dependent interleukin-6 (IL-6) transcription and secretion that occurs following adhesion of myeloma cells to bone marrow stromal cells (BMSCs) may serve as a potential therapeutic target, as IL-6 is a growth and survival factor for myeloma cells. Accordingly, proteasome inhibitors inhibit activation of NF-kappaB and induce apoptosis of myeloma cells; they also inhibit the NF-kappaB-dependent up-regulation of IL-6 in BMSCs and related paracrine growth of adherent tumor cells. Therapeutic strategies may also target the mitogen-activated protein kinase (MAPK) pathway that is thought to mediate the IL-6-induced proliferation of myeloma cells. Vascular endothelial growth factor (VEGF) is also upregulated by adhesion of myeloma cells to BMSCs and may serve as a growth and/or survival factor for myeloma cells; preliminary studies suggest that VEGF receptor inhibitors may block proliferation of tumor cells. Thalidomide was recently used successfully to treat myeloma in patients whose disease was refractory to conventional treatment. An enhanced understanding of the mechanisms of action of thalidomide may result in the development of analogues with enhanced potency and fewer side effects. The potential mechanisms of action of thalidomide are reviewed, including antiangiogenic effects; direct effects of thalidomide on the growth and survival of myeloma cells and BMSCs; modulation of adhesive interactions; and regulation of secretion and bioactivity of cytokines. Immune-based strategies for treating multiple myeloma are also reviewed. Therapeutic obstacles include excessive toxicity after allografting, contaminating tumor cells in autografts, and the persistence of minimal residual disease (MRD) after high-dose therapy followed by allogenic or autologous stem cell transplantation. Allografting can be performed safely in myeloma, donor lymphocyte infusions (DLI) may effectively treat relapsed myeloma post allografting; and use of CD4+ T cell-enriched DLI may reduce the risk of graft-versus-host disease. Treatment with autografting is frequently compromised by MRD in the autograft and in the patient post myeloablative therapy. Adenoviral purging prior to autotransplantation and in vivo and ex vivo stimulation of autoimmune cells are discussed as potential approaches to address these problems.
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PMID:Novel biologically based therapies for myeloma. 1150 80

Vascular endothelial growth factor (VEGF) is a potent angiogenic peptide with biologic effects that include regulation of hematopoietic stem cell development, extracellular matrix remodeling, and inflammatory cytokine generation. The importance of angiogenic factors such as VEGF, while clearly established in solid tumors, has not been fully elucidated in human hematopoietic neoplasms. Human hematopoietic tumor cell lines, representing multiple lineages and diseases, produce and secrete VEGF and express at least one of its two receptors. Exposure of human vascular endothelial cells to VEGF increased the expression of several hematopoietic growth factors known to be involved in myeloma including interleukin-6 (IL-6). Bone marrow samples from patients diagnosed with multiple myeloma were examined for expression of VEGF and its receptors. VEGF protein production was detected in malignant plasma cells from 78% of the myeloma patients studied. While expression of the Flt-1 and KDR receptors was not observed in the malignant plasma cells, both were markedly elevated in the normal marrow myeloid and monocytic cells surrounding the tumor. In bone marrow clot sections from normal allogeneic donors, low-intensity cytoplasmic VEGF expression was detected infrequently in isolated myelocytes, macrophages, and megakaryocytes. In vitro colony-forming assays using patient-derived material revealed that antibody neutralization of VEGF resulted in an inhibition of colony growth, whereas the addition of recombinant human VEGF stimulated colony formation. Neutralization of VEGF activity also suppressed the generation of tumor necrosis factor-alpha (TNF-alpha) and interleukin-1beta (IL-1beta) from bone marrow mononuclear cells. These data raise the possibility that VEGF may play a role in the growth of hematopoietic neoplasms such as multiple myeloma through paracrine and perhaps autocrine mechanisms.
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PMID:Expression of vascular endothelial growth factor and its receptors in multiple myeloma and other hematopoietic malignancies. 1174 Aug 8

We hypothesized that brief exercise of a small muscle group would lead to local rather than systemic alterations in cytokines, peripheral blood mononuclear cells, and mediators of angiogenesis. Fifteen men and eight women (age range 22-36 yr old) performed 10 min of unilateral wrist flexion exercise. Blood was sampled from venous catheters in the resting and exercising arm at baseline, at the end of exercise, and at 10, 30, 60, and 120 min after exercise. Lactate was significantly elevated in the exercising arm (+276 +/- 35%; P < 0.0005) with no change in the resting arm. In contrast, increases in both arms were observed for interleukin-6 (+139 +/- 51%; P < 0.0005), growth hormone (+1,104 +/- 284%; P < 0.003), natural killer cells (+81 +/- 9%; P < 0.0005), and lymphocytes expressing CD62L, CD11a, and CD54. There were no significant differences in these increases between the resting and exercising arm. Catecholamines increased in both arms [epinephrine peak increase, +226 +/- 36% (P < 0.001); norepinephrine peak increase, +90 +/- 15% (P < 0.01)]. Fibroblast growth factor-2 initially decreased with exercise in both arms, and this was followed by a rebound increase. Vascular endothelial growth factor demonstrated a small but significant increase in both arms (+124 +/- 31%; P < 0.05). Brief, low-intensity exercise leads to a systemic rather than local response of mediators that could be involved in inflammation, repair, or angiogenic adaptation to physical activity.
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PMID:Systemic vs. local cytokine and leukocyte responses to unilateral wrist flexion exercise. 1213 63

Vascular endothelial growth factor (VEGF) is a potent regulator of angiogenesis and vascular protection. Synthesis of VEGF is induced by hypoxia and different cytokines including interleukin-6 (IL-6) and interleukin-1beta (IL-1beta). However, post-ischaemic alterations of this growth factor in the kidney are incompletely known. To determine VEGF synthesis in renal ischaemia/reperfusion (I/R) injury unilateral warm ischaemia was induced by cross-clamping the left renal pedicle for 55 min followed by 2 and 24 h of reperfusion (T2 and T24 kidneys; n= 6 in each group). Sham-operated, non-clamped animals served as controls (n= 6). Renal VEGF, IL-6 and IL-1beta mRNA expression were determined by reverse transcription-polymerase chain reaction (RT-PCR). VEGF protein level and distribution were determined by Western blot and immunohistochemical analysis. Immunohistochemistry revealed prominent VEGF staining in the outer medulla of control, T2 and T24 kidneys. VEGF immunoreactivity accumulated at the basolateral area of tubular epithelial cells in T2 kidneys, while it was diffuse in control and T24 kidneys. VEGF protein levels were increased 2- to 3-fold in T2 and T24 kidneys (both P < 0.01 versus controls), while VEGF mRNA expression remained unchanged. IL-6 mRNA expression was increased (P < 0.01 versus controls) in T2 kidneys, while IL-1beta mRNA expression remained unchanged. Increased VEGF protein levels but not mRNA expression suggests that during renal I/R injury VEGF synthesis in kidneys--unlike in other organs--is primarily regulated at a post-transcriptional level. As IL-6 mRNA expression increased simultaneously with VEGF protein levels, the post-ischaemic regulation of IL-6 and VEGF synthesis might be interrelated in rat kidney.
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PMID:Divergence of renal vascular endothelial growth factor mRNA expression and protein level in post-ischaemic rat kidneys. 1513 Oct 73

Interleukin-6 (IL-6) is a proinflammatory cytokine associated with the disease status of gastric carcinoma (GC). Vascular endothelial growth factor (VEGF) is a potent tumor angiogenic factor in GC. In this study, we attempted to clarify whether IL-6 can regulate VEGF and angiogenesis in GC. GC samples from 54 surgical specimens were subjected to immunohistochemical examination of IL-6, VEGF, and tumor microvessels, and results showed that IL-6 was positively correlated with VEGF expression and tumor vasculature. We determined VEGF expression in four GC cell lines by ELISA, revealing that GC cells can produce significant amount of VEGF with increasing dose and duration of IL-6 stimulation. Next, a luciferase reporter gene assay was employed to determine the signaling pathway driving the VEGF promoter by IL-6, which showed that the JAK/STAT pathway is involved in the stimulation of VEGF gene expression. The effects of IL-6 on angiogenesis in vitro and in vivo were evaluated by HUVEC studies and the Matrigel plug assay, respectively. Results showed that IL-6 effectively promoted HUVEC proliferation and tube formation in vitro and Matrigel plug vascularization in vivo, primarily by inducing VEGF in GC. This study provides evidence that the multifunctional cytokine, IL-6, may induce VEGF expression which increases angiogenesis in gastric carcinogenesis.
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PMID:Interleukin-6 increases vascular endothelial growth factor and angiogenesis in gastric carcinoma. 1515 87

Interleukin-6 (IL-6) triggers multiple myeloma (MM) cell proliferation and protects against apoptosis by up-regulating myeloid cell leukemia 1 (Mcl-1). Vascular endothelial growth factor (VEGF) induces modest proliferation of MM cells and induces IL-6 secretion in a paracrine loop involving MM cells and bone marrow stromal cells. Using murine embryonic fibroblast cell lines as a model (Mcl-1(wt/wt) and Mcl-1(Delta/null) MEFs), we here demonstrate that deletion of Mcl-1 reduces fetal bovine serum (FBS)-, VEGF-, and IL-6-induced proliferation. We also show that VEGF up-regulates Mcl-1 expression in a time- and dose-dependent manner in 3 human MM cell lines and MM patient cells. Importantly, we demonstrate that the pan-VEGF inhibitor, GW654652, inhibits VEGF-induced up-regulation of Mcl-1 and, as with Mcl-1 siRNA, is associated with decreased proliferation and induction of apoptosis. Finally, we show that VEGF protects MM patient cells against FBS starvation-induced apoptosis. Our studies therefore demonstrate that VEGF-induced MM cell proliferation and survival are mediated via Mcl-1, providing the preclinical framework for novel therapeutics targeting Mcl-1 and/or VEGF to improve patient outcome in MM.
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PMID:VEGF induces Mcl-1 up-regulation and protects multiple myeloma cells against apoptosis. 1521 29

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