UMLS:C0026764 - FACTA Search

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Query: UMLS:C0026764 (multiple myeloma)
36,148 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Interleukin-6 (IL-6) plays a central role in the pathogenesis of multiple myeloma, acting as both a growth and a survival factor for myeloma cells. A series of IL-6 receptor antagonists that are IL-6 variants has been recently obtained, the affinity of which for the ligand-specific receptor chain IL-6R alpha has been maintained or even increased, but the signaling of which is impaired by not being able to bind and/or dimerize the signaling chain gp130. Although IL-6 antagonists have been shown to inhibit the growth of IL-6-dependent myeloma, no information has been gathered on their ability to induce myeloma cell death. We show here that IL-6 receptor antagonists are pro-apoptotic factors for the IL-6-dependent human myeloma cell line XG-1. Their capacity to induce cell death is in direct relation to their affinity for IL-6R alpha, degree of gp130 binding impairment, and efficiency to inhibit intracellular signaling events. Interestingly, the most potent pro-apoptotic molecule, Sant7, counteracts the protective autocrine effect exercised by the limited amounts of IL-6 produced by XG-1 cells and is thus able to induce cell death at higher rate than just IL-6 deprivation. These findings are particularly relevant for the therapy of multiple myeloma.
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PMID:Interleukin 6 receptor superantagonists are potent inducers of human multiple myeloma cell death. 879 94

Human multiple myeloma (MM) represents a highly aneuploid tumor as shown by cytogenetic studies. This may partly explain the heterogeneity with regard to growth factor requirements demonstrated among MM cells. We have previously reported the expression of insulin-like growth factor I (IGF-I) and IGF-I receptor (IGF-IR) mRNA in some MM cell lines. In this study we investigated the role of IGF-I as a growth and/or survival factor in three MM cell lines: LP-1, EJM, and Karpas 707. We report that all cell lines expressed IGF-I and IGF-IR mRNA and protein. LP-1 and Karpas 707, but not EJM, were stimulated to proliferation in a dose-dependent manner by exogenous IGF-I. An IGF-IR blocking antibody inhibited both the IGF-I-induced and spontaneous growth of LP-1, and Karpas 707, while the EJM cell line was unaffected by the addition of the antibody. In conclusion, our results show that IGF-I can act as a growth factor in human MM, and they suggest that an autocrine IGF-I loop may contribute to the growth and survival in some MM cell lines.
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PMID:Insulin-like growth factor I is a growth and survival factor in human multiple myeloma cell lines. 882 46

Since the discovery a decade ago that interleukin-6 is a growth factor for human multiple myeloma (MM) cells, great strides have been made in understanding the relationship of this cytokine to multiple myeloma. A plethora of studies on this topic has confirmed that interleukin-6 is a key growth and survival factor for myeloma cells, as well as a major morbidity factor for patients with MM. Their is strong evidence for both an autocrine (in MM cells) as well as a paracrine sources of interleukin-6 induction (from bone marrow stromal cells and osteoblast cells), with bone marrow stromal cells likely serving as the main center of production of interleukin-6 in patients with MM. Moreover, bone marrow stromal cells from patients with MM express viral interleukin-6, a functional homolog of human interleukin-6 that is produced by Kaposi's sarcoma-associated herpesvirus and may further enhance MM cell growth and survival. Soluble interleukin-6 receptor serum levels are elevated in patients with MM; soluble interleukin-6 receptor may amplify circulating interleukin-6 in patients with MM, and complex with interleukin-6, resulting in proliferation of MM cells that either express low or no detectable surface interleukin-6 receptor. Recent advances in our understanding of interleukin-6 signaling cascades mediating MM growth and survival, as well as its impact on cell cycle regulation in MM cells, may lead to therapeutics designed to interfere with these pathways. Finally, considerable progress has been made in identifying and developing agents including antibodies, biologic agents, hormones and drugs that interfere with the interleukin-6 signaling pathways and may therefore have a role in the treatment of MM.
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PMID:Interleukin-6 in multiple myeloma and related plasma cell dyscrasias. 951 2

Interleukin-6 (IL-6) is the major growth factor for the malignant plasma cell clone in patients with multiple myeloma (MM). Although interferon-alpha (IFN-alpha) has been widely used as maintenance therapy in MM, controversy exists as to its clinical utility. This review summarizes data showing that cell growth arrest brought about by type I (IFNs-alpha/beta) and type II (IFN-gamma) IFNs occurs in part through utilization/modification of various components of the otherwise stimulatory Jak-STAT and Ras signaling pathways triggered by IL-6. Recent experimental results indicating that IFN-alpha acts as a survival factor for certain myeloma cell lines and frequently induces endogenous IL-6 expression may help to explain the conflicting clinical findings obtained in this heterogeneous disease with this usually potent growth inhibitor. By comparison, consistent antiproliferative activity exhibited by IFN-gamma on IL-6-dependent myeloma cell lines and primary myeloma cells from patients suggests that further investigation of the possible value of this cytokine in the treatment of MM may be warranted.
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PMID:Growth control mechanisms in multiple myeloma. 964 60

IFN-alpha is used as a maintenance therapy in patients with multiple myeloma, but its benefit is a matter of controversy. In vitro studies show that IFN-alpha can both stimulate and inhibit myeloma cell proliferation. We have tested the effect of IFN-alpha on the survival of myeloma cell lines and primary plasma cells. IFN-alpha significantly reduced the apoptosis induced by removal of IL-6 in four IL-6-dependent myeloma cell lines. It also reduced the level of apoptosis induced by dexamethasone in these cell lines as well as in purified primary myeloma cells from seven patients. IFN-alpha promoted the survival of myeloma cells, which, following removal of IL-6, were blocked in G1 and died. However, unlike IL-6, IFN-alpha-treated cells remained mainly blocked in the G1 phase of the cycle. While the effects of IL-6 are mediated through stimulation of its gp130 receptor subunit, the IFN-alpha-induced survival of myeloma cells was independent of gp130 transducer activation (as demonstrated using a neutralizing anti-gp130 Ab). However, the signal transduction cascades activated by these two cytokines share at least some common elements, since stimulation with either IFN-alpha or IL-6 resulted in STAT3 phosphorylation. These results indicate that IFN-alpha promotes the survival, but not the proliferation, of myeloma cells, preventing the apoptosis induced by removal of IL-6 or addition of dexamethasone. This survival factor activity may explain the conflicting reports on the effects of IFN-alpha on myeloma cell proliferation.
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PMID:IFN-alpha is a survival factor for human myeloma cells and reduces dexamethasone-induced apoptosis. 974 25

Interleukin 6 (IL-6) is the major survival factor for myeloma tumor cells and induces signaling through the STAT proteins. We report that one STAT family member, Stat3, is constitutively activated in bone marrow mononuclear cells from patients with multiple myeloma and in the IL-6-dependent human myeloma cell line U266. Moreover, U266 cells are inherently resistant to Fas-mediated apoptosis and express high levels of the antiapoptotic protein Bcl-xL. Blocking IL-6 receptor signaling from Janus kinases to the Stat3 protein inhibits Bcl-xL expression and induces apoptosis, demonstrating that Stat3 signaling is essential for the survival of myeloma tumor cells. These findings provide evidence that constitutively activated Stat3 signaling contributes to the pathogenesis of multiple myeloma by preventing apoptosis.
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PMID:Constitutive activation of Stat3 signaling confers resistance to apoptosis in human U266 myeloma cells. 1002 75

Interleukin-6 (IL-6) is a major survival factor for malignant plasma cells. In patients with multiple myeloma (MM), cell lines whose survival and proliferation are dependent upon addition of exogenous IL-6 have been obtained. We show here that tumor necrosis factor-alpha (TNF-alpha) is also a survival factor for myeloma cell lines, although less potent than IL-6. The survival activity of TNF-alpha is not affected by anti-IL-6 or anti-gp130 monoclonal antibodies (mAbs). TNF-alpha also induces myeloma cells in the cell cycle and promotes the long-term growth of malignant plasma cell lines. As TNF-alpha is produced in patients with MM and associated with a poor prognosis, these results suggest that anti-TNF-alpha therapies could be useful in this disease.
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PMID:Tumor necrosis factor is a survival and proliferation factor for human myeloma cells. 1021 Jul 75

Circulating plasma cells in 10 cases of reactive plasmacytosis had a shared phenotype with early plasma cell (CD19(+) CD38(+) CD138(+) CD40(+) CD45(+) CD11a+ CD49e- CD56(-)). In most cases, a minor subpopulation of CD28(+) plasma cells was also detected. Reactive plasma cells were highly proliferative, suggesting the presence of circulating progenitors (plasmablasts). After CD138(+) plasma cell removal, highly proliferative CD138(-) plasmablasts differentiated into CD138(+) plasma cells within a few days. This differentiation, which was associated with increased CD38 and decreased HLA-DR expression, was further confirmed by a large increase in intracellular Ig content (associated with Ig secretion) and was concomitant with extensive secretion of interleukin-6 (IL-6). The addition of neutralizing anti-IL-6 and anti-CD126 (IL-6 receptor) monoclonal antibodies totally prevented Ig secretion and cell differentiation by inducing apoptosis of plasmablasts, which indicates that IL-6 is an essential survival factor for plasmablasts. This report provides the first characterization of normal plasmablasts and shows that their phenotype is not exactly that of multiple myeloma cells.
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PMID:Reactive plasmacytoses are expansions of plasmablasts retaining the capacity to differentiate into plasma cells. 1039 37

Recent advances in the biology of multiple myeloma cell growth and survival have suggested new avenues for treatment and potential cure of this disease. Adhesion molecules on the myeloma cell surface mediate their localization in the bone marrow via binding to extracellular matrix proteins and stromal cells. Stromal cell to tumor cell contact and the secretion of transforming growth factor by tumor cells triggers interleukin-6 secretion from stromal cells and paracrine tumor cell growth. CD40 activation of myeloma cells changes their cell surface phenotype, triggers autocrine interleukin-6 secretion, and can regulate myeloma cell cycle in a p53-dependent fashion. Interleukin-6 is both a growth and survival factor for myeloma cells, and delineation of the signaling cascades mediating its effects permits the development of novel therapies either to interrupt growth or trigger apoptosis. New immune therapies offer the opportunity to treat minimal residual disease after stem cell transplantation, thereby improving outcome. Selected donor lymphocyte infusions after allografting and infusion of activated autologous T cells following autografting are examples of adoptive immunotherapy. Myeloma cell to dendritic cell fusions have been used in a vaccination strategy both to prevent and treat myeloma in an animal model, providing the rationale for similar clinical trials in humans. For the first time, a variety of novel treatment strategies derived from advances in understanding the disease pathogenesis offer the potential to achieve long-term disease-free survival in patients with multiple myeloma.
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PMID:Advances in the biology of multiple myeloma: therapeutic applications. 1052 90

Related Adhesion Focal Tyrosine Kinase (RAFTK; also known as Pyk2), is a member of the Focal Adhesion Kinase (FAK) subfamily and is activated by TNF alpha, UV light and increases in intracellular calcium levels. However, the function of RAFTK remains largely unknown. Our previous studies demonstrated that treatment with dexamethasone (Dex), ionizing radiation (IR), and anti-Fas mAb induces apoptosis in multiple myeloma (MM) cells. In the present study, we examined the potential role of RAFTK during induction of apoptosis in human MM cells triggered by these three stimuli. Dex-induced apoptosis, in contrast to apoptosis triggered by anti-Fas mAb or IR, is associated with activation of RAFTK. Transient overexpression of RAFTK wild type (RAFTK WT) induces apoptosis, whereas transient overexpression of Kinase inactive RAFTK (RAFTK K-M) blocks Dex-induced apoptosis. In contrast, transient overexpression of RAFTK K-M has no effect on apoptosis triggered by IR or Fas. In Dex-resistant cells, Dex does not trigger either RAFTK activation or apoptosis. Finally, interleukin-6 (IL-6), a known survival factor for MM cells, inhibits both activation of RAFTK and apoptosis of MM.1S cells triggered by Dex. Our studies therefore demonstrate Dex-induced RAFTK-dependent, and IR or Fas induced RAFTK-independent apoptotic signaling cascades in MM cells.
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PMID:RAFTK/PYK2-dependent and -independent apoptosis in multiple myeloma cells. 1059 81

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