Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0026764 (multiple myeloma)
 36,148 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

This study was designed to investigate the immunomodulatory effect of low-dose IL-2 therapy (100 microg/day for 3 weeks) on interferon (IFN), tumor necrosis factor (TNF) production in vivo and in vitro and on the expression of IL-2Ralpha/beta and soluble form of IL-2Ralpha. Patients enrolled in the study suffered from multiple myeloma (MM), Hodgkin's disease (HD) and non-Hodgkin's lymphoma (NHL) All of them were in remission after chemotherapy or radiotherapy. Our results indicated that IL-2 given subcutaneously at a low dose of 100 microg/day for 3 weeks induced IFN-gamma and TNF-alpha in plasma (measured 24 hrs after the last dose of IL-2) and affected the ability of blood leukocytes to produce cytokines. Production of IFN-gamma induced in vitro with PHA was enhanced, but TNF-alpha production induced by lipopolysaccharide (LPS) and virus (Newcastle Disease Virus) was depressed. The expression of both: surface IL-2R, especially beta subunit on total population of lymphocytes and NK cells, and soluble form of IL-2R, of chain were significantly enhanced after low-dose IL-2 therapy. Low dose IL-2 therapy was well tolerated by all patients, and side effects not exceeding II grade of toxicity according to WHO scale were observed. Five patients with MM relapsed 3-10 month after cessation of IL-2 therapy, but all patients with Hodgkin's and non-Hodgkin's lymphomas are still in remission (20 months of observation).
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PMID:Influence of low dose rIL-2 treatment on endogenous cytokine production, expression of surface IL-2R and the level of soluble IL-2R in patients with minimal residual disease. 1070 60

Bisphosphonates are well-known inhibitors of osteoclastic bone resorption, but recent clinical reports support the possibility of direct or indirect antitumor effects by these compounds. Because bisphosphonates share structural homologies with recently identified gamma delta T-cell ligands, we examined the stimulatory capacity of bisphosphonates to gamma delta T cells and determined whether gamma delta T-cell stimulation by bisphosphonates could be exploited to generate antiplasma cell activity in multiple myeloma (MM). All tested aminobisphosphonates (alendronate, ibandronate, and pamidronate) induced significant expansion of gamma delta T cells (V gamma 9V delta 2++ subset) in peripheral blood mononuclear cell cultures of healthy donors at clinically relevant concentrations (half-maximal activity, 0.9-4 mcmol/L). The proliferative response of gamma delta T cells to aminobisphosphonates was IL-2 dependent, whereas activation of gamma delta T cells (up-regulation of CD25 and CD69) occurred in the absence of exogenous cytokines. Pamidronate-activated gamma delta T cells produced cytokines (ie, interferon [IFN]-gamma) and exhibited specific cytotoxicity against lymphoma (Daudi) and myeloma cell lines (RPMI 8226, U266). Pamidronate-treated bone marrow (BM) cultures of 24 patients with MM showed significantly reduced plasma cell survival compared with untreated cultures, especially in cultures in which activation of BM-gamma delta T cells was evident (14 of 24 patients with MM). gamma delta T-cell depletion from BM cultures completely abrogated the cytoreductive effect on myeloma cells in 2 of 3 tested patients with MM. These results show that aminobisphosphonates stimulating gamma delta T cells have pronounced effects on the immune system, which might contribute to the antitumor effects of these drugs. (Blood. 2000;96:384-392)
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PMID:Stimulation of gammadelta T cells by aminobisphosphonates and induction of antiplasma cell activity in multiple myeloma. 1134 90

Despite considerable progress in recent years in the understanding of the biology of multiple myeloma (MM), this disease remains incurable, although many new therapeutic approaches are under evaluation. The rapid development of recombinant technologies has permitted the production of large amounts of cytokines and growth factors, favoring the use of biotherapies also in this disease. Among these products, the interferons have been the most extensively used in clinical trials, giving the most promising results especially in the setting of minimal residual disease, as maintenance therapy after response to conventional therapies, or to high dose chemotherapies followed by bone marrow (BM) or peripheral blood stem cell (PBSC) transplantation. However, more recently, a large number of cytokines and growth factors have been introduced in the clinical practice. Data of the use of erythropoietin have consistently demonstrated the role of this growth factor in ameliorating the grade of anemia as well as the quality of life of those MM patients whose disease is complicated by the presence of a severe or moderate anemia. Using hematopoietic growth factor in the mobilization of PBSC, the quantity of progenitor cells in the peripheral blood increased and the hematological toxicity of chemotherapy could be reduced. Despite the large amount of experimental data indicating a role for interleukins, as IL-2 and IL-6, in controlling tumor growth, there are only few clinical studies dealing with their use in MM. Results show that they arrest tumor progression rather than aid tumor regression, for this reason it appears that IL-2 and anti IL-6 antibodies should be investigated as maintenance therapy, in MM patients responding to chemotherapy. In the future it will be necessary to clarify for MM patients the role of other cytokines such as IL-1 beta and TNF alpha. A possible strategy to improve the clinical outcome of MM patients is to prevent the regrowth of residual tumor cells by establishing adoptive immunity at the stages of minimal residual disease previous obtained using chemotherapy. To this end a possible strategy is to induce an immune response against residual tumor cells by passive (using monoclonal antibodies) or active (using the idiotype expressed by malignant cells) immunotherapy.
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PMID:[The role of biotherapy in multiple myeloma]. 1107 35

Monoclonal gammopathy of unknown significance (MGUS) is a monoclonal B cell expansion characterized by high levels of circulating monoclonal antibody that affects 3% of individuals over the age of 70. Although this is considered benign, a high percentage of MGUS patients develop a debilitating peripheral autoimmune neuropathy and have a significantly increased risk for progression to multiple myeloma. Here we show that the relative numbers of the CD30(+) T cell subset and levels of CD30 expression are elevated in activated lymphocytes from normal aged individuals (> or =60 years) and in MGUS patients, when compared to younger controls. PBL from MGUS patients and age-matched controls produced comparable levels of IL-6 when activated with anti-CD3 plus IL-2, and costimulation with a soluble form of CD30 ligand (sCD30L/CD8alpha) augmented anti-CD3 inducible IL-6 production similarly in both groups. However, MGUS PBL also produced measurable IL-6 when activated with sCD30L/CD8alpha alone. This capability was associated with the unique presence of CD30(+) T cells in the peripheral blood of MGUS patients. Furthermore, a higher percentage of activated MGUS T cells express CD30 when activated by incubation with idiotype-expressing autologous serum (68 +/- 13) than those activated by anti-CD3 plus IL-2 (43 +/- 7). These results indicate that quantitative alterations in CD30(+) T cells accompany aging and MGUS and that these cells may contribute to the chronic activation of B cells though the production of IL-6.
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PMID:Alterations in CD30(+) T cells in monoclonal gammopathy of undetermined significance. 1123 52

Idiopathic CD4+ T cell lymphocytopenia was unexpectedly detected in a 33-year-old, otherwise healthy young woman with no HIV or other viral infection, autoimmune, or neoplastic disease or increased susceptibility to infection. CD4+ T cell levels were 60-140/microl over a 3.5-year period. Following an uneventful pregnancy, the patient developed anemia and interstitial nephritis associated with a plasma cell dyscrasia with a monoclonal IgA gammopathy and a shifting immunoglobulin pattern that included IgG and IgA monoclonal proteins and increased urinary light chains. Osteolytic lesions were never detected and bone marrow aspirations revealed up to 10% atypical plasma cells. Various therapies often used in treating multiple myeloma only temporarily controlled the increasing renal damage. IL-2 therapy of 600,000 to 1 million units subcutaneously daily resulted in increased CD4+ T cells to normal levels, a decrease in the gammopathy, a return of renal function, energy, and weight gain, and apparently normal health status sustained for 2 years. The findings are compatible with a potentially fatal but nonmalignant immunoregulatory disorder that can be controlled by IL-2 administration.
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PMID:Idiopathic CD4+ T cell lymphocytopenia evolving to monoclonal immunoglobulins and progressive renal damage responsive to IL-2 therapy. 1131 2

Eight multiple myeloma patients participated in a phase I trial evaluating the feasibility and safety of subcutaneous vaccination with adenovirus engineered, autologous plasma cells after high-dose therapy. Plasma cells were concentrated from bone marrow harvests by negative selection and high gradient magnetic separation. The mean plasma cell yield was 2.61 x 10(8). Transgene expression measured 48 h after plasma cell infection with an IL-2 expressing adenovirus averaged 2.95 ng/ml/10(6) cells. Vaccine production was successful for 88% of patients. Two months after high-dose therapy, six patients received from one to five injections of 3.5-9.0 x 10(7) cells/vaccine. Vaccines were well tolerated with only minor systemic symptoms reported. Injection with tumor cells induced a local inflammatory response consisting predominantly of CD8+ and/or TIA-1+ T-lymphocytes. Myeloma specific anti-tumor responses, assessed by interferon-gamma (IFN-gamma) release and cytotoxic T cell killing of autologous tumor cells, were not enhanced after vaccination in one evaluable patient. Clinical response, manifested as a decrease in serum paraprotein, was not observed in the one patient who had measurable disease at the time of vaccination. These results demonstrate that the generation of adenovector modified plasma cell vaccines is technically feasible and can be safely administered post-transplant. Further studies of immunlogic and clinical efficacy are required.
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PMID:Adenovector engineered interleukin-2 expressing autologous plasma cell vaccination after high-dose chemotherapy for multiple myeloma--a phase 1 study. 1136 48

The antiangiogenic activity of thalidomide (Thal), coupled with an increase in bone marrow angiogenesis in multiple myeloma (MM), provided the rationale for the use of Thal in MM. Previously, the direct anti-MM activity of Thal and its analogues (immunomodulatory drugs, IMiDs) on MM cells was demonstrated, suggesting multiple mechanisms of action. In this study, the potential immunomodulatory effects of Thal/IMiDs in MM were examined. It was demonstrated that Thal/IMiDs do not induce T-cell proliferation alone but act as costimulators to trigger proliferation of anti-CD3-stimulated T cells from patients with MM, accompanied by an increase in interferon-gamma and IL-2 secretion. However, an increase in autologous T-cell killing of patient MM cells could not be demonstrated. A role for natural killer (NK)- and LAK-cell-mediated killing is suggested because IL-2-primed peripheral blood mononuclear cells (PBMCs) treated with Thal/IMiDs demonstrated significantly increased lysis of MM cell lines. Cold target inhibition assays suggested NK- rather than LAK-cell-mediated killing. Furthermore, this killing was not major histocompatibility complex-class restricted, and the depletion of CD56(+) cells blocked the drug-induced MM cell lysis. It was significant that increased killing of patient MM cells by autologous PBMCs treated with Thal/IMiDs was also observed. Although the in vivo relevance of NK-cell-mediated MM cell killing is unknown, phenotypic analysis performed in MM patients receiving Thal therapy demonstrated an increase in CD3(-)CD56(+) cells in patients responding to therapy. Thus in vitro and in vivo data support the hypothesis that Thal may mediate its anti-MM effect, at least in part, by modulating NK cell number and function.
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PMID:Thalidomide and immunomodulatory derivatives augment natural killer cell cytotoxicity in multiple myeloma. 1173 5

IL-2 responses are susceptible to suppression by TGFbeta, a cytokine widely implicated in suppression of inflammatory responses and secreted by many different tumor cell types. There have been conflicting reports regarding inhibition of IL-2-induced STAT3 and STAT5 phosphorylation by TGFbeta and subsequent suppression of immune responses. Using TGFbeta-producing multiple myeloma tumor cells we demonstrate that tumor-derived TGFbeta can block IL-2-induced proliferation and STAT3 and STAT5 phosphorylation in T cells. High affinity IL-2R expression was required for the suppression of IL-2 responses as a novel CD25(-) T cell line proliferated and phosphorylated STAT3 when cultured with tumor cells or rTGFbeta1. Activating T cells with IL-15, which does not use the high affinity IL-2R, completely restored the ability of T cells to phosphorylate STAT3 and STAT5 when cultured with tumor cells. IL-15-treated T cells proliferated normally when cocultured with tumor cells or rTGFbeta1, whereas IL-2 responses were consistently inhibited. Preincubation with IL-15 also restored the ability of T cells to respond to IL-2 by phosphorylating STAT3 and STAT5, and proliferating normally in the presence of tumor cells. IL-2 pretreatment did not restore T cell function. IL-15 also restored T cell responses by T cells from multiple myeloma patients, and against freshly isolated bone marrow tumor samples. Thus, activation of T cells by IL-15 renders T cells resistant to suppression by TGFbeta1-producing tumor cells and rTGFbeta1. This finding may be exploited in the design of new immunotherapy approaches that will rely on T cells avoiding tumor-induced suppression.
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PMID:Suppression of IL-2-induced T cell proliferation and phosphorylation of STAT3 and STAT5 by tumor-derived TGF beta is reversed by IL-15. 1141 94

The revival of thalidomide began shortly after the drug was withdrawn from the market because of its teratogenic properties. Therapeutic effects of thalidomide were found accidentally in leprosy patients with erythema nodosum leprosum (ENL). Subsequent research widened the understanding of the activity of thalidomide, and with improved methodology and the augmented background knowledge of immunology it was possible to interpret the properties of thalidomide more coherently. Effects on tumour necrosis factor-alpha (TNFalpha) release play an important role in the ability of thalidomide to affect the immune system. Alteration of synthesis and release of cytokines such as interleukin (IL)-1, IL-2, IL-4, IL-6, IL-8, IL-10, IL-12 and interferon-gamma is involved in the complex mechanisms of thalidomide. Thalidomide targets leucocytes, endothelial cells and keratinocytes, affecting them in a different manner and at different cellular levels. Changes in the density of adhesion molecules alter leucocyte extravasation and the inflammatory response in the tissue involved. Several mechanisms for the teratogenic action of thalidomide are currently under review, but this mode of action of the drug still remains unclear and we review evidence-based hypotheses for the teratogenicity of thalidomide. Thalidomide shows significant clinical impact in several diseases such as ENL in lepromatous leprosy, chronic graft-versus-host disease, systemic lupus erythematosus, sarcoidosis, aphthous lesions in HIV infection, wasting syndrome in chronic illness, inflammatory bowel disease, multiple myeloma and some solid tumours. In 1998 the US Food and Drug Administration approved thalidomide exclusively for the treatment of ENL, and strict conditions were stipulated for its use in order to prevent teratogenic adverse effects. However, despite the promising findings of thalidomide at the molecular level, namely its anti-TNFalpha properties and its intercalation with DNA, and activity in clinical trials, there is still a great need for more intensive research.
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PMID:Theoretical basis for the activity of thalidomide. 1160 49

High relapse rates during the first year after autologous stem cell transplantation (ASCT) for multiple myeloma or non-Hodgkin lymphoma are due to the failure of high-dose chemotherapy to eradicate minimal residual disease. Post-ASCT immunorecovery studies have shown that quantities of natural killer (NK) cells return to normal within 1 month post-ASCT in contrast to the recovery of T and B cell populations (up to 1 year). Preclinical studies have demonstrated that NK cells have potent antitumor activity. IL-2 and IFN-alpha enhance NK-cell activity. We investigated the efficacy of IL-2 and IFN-alpha to up-regulate NK-cell cytotoxicity at 14 days post ASCT. Twenty patients undergoing ASCT had PBMCs collected pretransplantation and at 14 days post transplantation. PBMCs (effector cells) from each blood sample were incubated in vitro with IFN-alpha and IL-2 at 10000 IU/ml. NK cell activity was determined by sodium chromate (51)Cr release assay for lysis of K562 target cells. IL-2 and IFN-alpha each increased lysis of K562 cells compared with placebo (effector-to-target ratio, 50:1, P < 0.001). Increased NK cell activity occurred in samples from all patients. IL-2 and IFN-alpha up-regulated NK cell activity at 14 days post ASCT. They may be useful as immunomodulators as early as 14 days post ASCT to eradicate or control minimal residual disease.
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PMID:Immunomodulation of early engrafted natural killer cells with interleukin-2 and interferon-alpha in autologous stem cell transplantation. 1170 90


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