Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Arsenic trioxide (As2O3) has recently been shown to induce complete remission in acute promyelocytic leukemia (APL). As2O3 reportedly has dose-dependent dual effects on APL cells, triggering apoptosis at relatively high concentrations and inducing differentiation at lower concentrations. However, its effect is still controversial for other AML cells and hematological neoplasms. We studied the in vitro effect of As2O3 on lymphoid lineage cells: lymphoma cell lines, NOL-3, Raji and Daudi, a myeloma cell line, NOP-1, normal peripheral blood lymphocytes (PBL), non-Hodgkin's lymphoma (NHL) cells and chronic lymphocytic leukemia (CLL) cells, and compared it with the effect on APL cell line, NB4, as well as other myeloid cell lines, HL-60 and NKM-1. As2O3 at a concentration of 1 micromol/l markedly inhibited both proliferation and viability of NB4, NOP-1, NOL-3 and NKM-1 cells, but it reduced only viability in normal PBL, CLL cells and NHL cells. As2O3 induced apoptosis and down-regulated bcl-2 expression in NB4, NOP-1 and NKM-1 cells. On the other hand, in HL-60, Raji and Daudi cells, 1 micromol/l As2O3 inhibited only the proliferation weakly, and neither induced apoptosis nor down-regulated bcl-2 expression, but arrested only cell cycle at G1 phase. As2O3 at a low concentration of 0.1 micromol/l had no effect on proliferation and viability of these cells except for NB4. These results showed that As2O3 exerted variable and definite effects on lymphoid cells and indicated that As2O3 might be clinically useful in lymphoid neoplasms such as malignant lymphoma and CLL.
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PMID:The induction of apoptosis and cell cycle arrest by arsenic trioxide in lymphoid neoplasms. 973 86

Arsenic trioxide (AT) has been the object of renewed interest as a therapeutic since studies in China in the late 1980s confirmed its efficacy in the treatment of acute promyelocytic leukemia (APL). These studies have been replicated in the West, with complete remissions achieved in 80% to 90% of patients with refractory or relapsed APL. The drug has been relatively well tolerated. The dose used for treatment of APL (0.15 mg/kg/d) is approximately 50% of the maximum-tolerated dose (MTD). Common side effects have included fatigue, rash, fluid retention, and QTc-interval prolongation on electrocardiogram. A "retinoic acid syndrome," similar in its manifestations to that noted after administration of all-trans retinoic acid (RA), has been observed in APL patients. Recent studies have included dose-ranging trials to determine pharmacokinetics and the optimum schedule of administration, and studies of possible mechanisms of action. Promising future trials include combining AT with RA in the treatment of newly diagnosed APL, and broadening the range of AT therapy to other leukemias, lymphomas, multiple myeloma and some solid tumors.
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PMID:Arsenicals in hematologic cancers. 1104 17

Arsenic trioxide can inhibit proliferation and induce apoptosis in multiple myeloma (MM) cells in vitro and in vivo. In addition to affecting tumor growth, arsenic trioxide has been shown to inhibit angiogenesis, suggesting that it may have significant potency in the treatment of MM. Based on these observations, the clinical efficacy of arsenic trioxide was evaluated in patients with advanced refractory MM using a fixed-dose intravenous infusion given daily for a maximum of 60 days. Nine patients were evaluable. All nine had extensive prior therapy; seven had two or more high-dose chemotherapy cycles with autologous stem cell support. All nine patients had cytogenetic abnormalities, and six had chromosome 13 deletions. Of the four patients who completed more than 30 days of arsenic trioxide infusion, two had >50% reduction in myeloma paraprotein, one had stable disease, and one progressed. Of the five patients with <30 days infusion, two had stable disease and three progressed. Thus, on an intent-to-treat basis, two of nine (23%) patients responded (>50% paraprotein reduction). The regimen was well tolerated except for development of cytopenia, which responded to G-CSF, and a grade III pulmonary complication in one patient. In summary, arsenic trioxide has activity in end-stage, high-risk myeloma and deserves further evaluation in earlier-stage disease.
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PMID:Arsenic trioxide: an emerging therapy for multiple myeloma. 1133 36

Arsenic trioxide inhibits growth and promotes apoptosis in many different cancer cell lines. The National Cancer Institute is working cooperatively with research centers across the U.S. to evaluate its clinical activity in hematologic malignancies, such as acute promyelocytic leukemia, acute myeloid leukemia, acute lymphocytic leukemia, chronic myelogenous leukemia, non-Hodgkin's lymphoma, Hodgkin's disease, chronic lymphocytic leukemia, myelodysplastic syndrome, and multiple myeloma. It is also supporting research in solid tumors, such as advanced hormone-refractory prostate cancer and renal cell cancer and in cervical cancer and refractory transitional cell carcinoma of the bladder. The safety and pharmacokinetics of arsenic trioxide are also being evaluated in pediatric patients with refractory leukemia and lymphoma. The results of these ongoing studies should provide important insights into the clinical utility of arsenic trioxide in these diseases.
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PMID:Clinical trials of arsenic trioxide in hematologic and solid tumors: overview of the National Cancer Institute Cooperative Research and Development Studies. 1133 37

Multiple myeloma remains an incurable disease, with median survival rates of 4-6 years even with aggressive, high-dose chemotherapy, bone marrow transplantation, and intensive supportive care. Additionally, multiple myeloma is primarily a disease of the elderly, many of whom cannot tolerate aggressive chemotherapy. Thus, newer treatments with good safety profiles are needed to improve the quality of responses and, hopefully, to translate into prolonged progression and overall survival. The pathophysiology of multiple myeloma is complex, involving many pathways and interactions among cytokines, adhesion molecules, angiogenesis, and mechanisms of resistance, which, taken together, provide multiple targets for novel therapeutic modalities. Agents currently under investigation for treating multiple myeloma include thalidomide and its successors, PS-341, and arsenic trioxide. Thalidomide and immunomodulatory drugs both exhibit activity against multiple myeloma by affecting different levels of the immune system. PS-341 is a proteasome inhibitor that halts the cell cycle, resulting in apoptosis; it also inhibits a key transcription factor and may have antiangiogenic activity. Arsenic trioxide activates multicellular mechanisms to induce apoptosis, inhibit angiogenesis, and stimulate immune responses. Preclinical and early clinical data suggest that combination regimens should be pursued, given the different mechanisms of action of these compounds on the immune system and their non-overlapping toxicities at low dosages.
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PMID:Nontraditional cytotoxic therapies for relapsed/refractory multiple myeloma. 1196 Dec 6

Previously, we showed that arsenic trioxide potently inhibited the growth of myeloma cells and head and neck cancer cells. Here, we demonstrate that arsenic trioxide inhibited the proliferation of all the renal cell carcinoma cell lines (ACHN, A498, Caki-2, Cos-7, and Renca) except only one cell line (Caki-1) with IC(50) of about 2.5-10 microM. Arsenic trioxide induced a G(1) or a G(2)-M phase arrest in these cells. When we examined the effects of this drug on A498 cells, arsenic trioxide (2.5 microM) decreased the levels of CDK2, CDK6, cyclin D1, cyclin E, and cyclin A proteins. Although p21 protein was not increased by arsenic trioxide, this drug markedly enhanced the binding of p21 with CDK2. In addition, the activities of CDK2- and CDK6-associated kinase were reduced in association with hypophosphorylation of Rb protein. Arsenic trioxide (10 microM) also induced apoptosis in A498 cells. Apoptotic process of A498 cells was associated with the changes of Bcl-(XL), caspase-9, caspase-3, and caspase-7 proteins as well as mitochondria transmembrane potential (Deltapsi(m)) loss. Taken together, these results demonstrate that arsenic trioxide inhibits the growth of renal cell carcinoma cells via cell cycle arrest or apoptosis.
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PMID:Arsenic trioxide inhibits the growth of A498 renal cell carcinoma cells via cell cycle arrest or apoptosis. 1248 May 48

Arsenic trioxide (ATO) has been shown to induce differentiation and apoptosis in acute promyelocytic leukemia (APL) cells concomitant with down-regulation of the PML-RARalpha fusion protein, a product of the t(15:17) translocation characteristic of APL leukemic cells. However, ATO is also a potent inducer of apoptosis in a number of other cancer cells lacking the t(15:17) translocation. The exact mechanism of ATO-induced apoptosis in these cells is not yet clear. We tested the effect of ATO on 7 myeloma cell lines with varying p53 status and report that in cells with mutated p53, ATO induced rapid and extensive (more than 90%) apoptosis in a time- and dose-dependent manner concomitant with arrest of cells in G(2)/M phase of the cell cycle. Myeloma cells with wild-type (wt) p53 were relatively resistant to ATO with maximal apoptosis of about 40% concomitant with partial arrest of cells in G(1) and up-regulation of p21. The use of caspase blocking peptides, fluorescence-tagged caspase-specific substrate peptides, and Western immunoblotting confirmed the involvement of primarily caspase-8 and -3 in ATO-induced apoptosis in myeloma cells with mutated p53 and primarily caspase-9 and -3 in cells expressing wt p53. We also observed up-regulation by ATO of R1 and R2 APO2/TRAIL (tumor necrosis factor-related apoptosis-inducing ligand) receptors. Most important, however, we observed a synergy between ATO and APO2/TRAIL in the induction of apoptosis in the partially resistant myeloma cell lines and in myeloma cells freshly isolated from myeloma patients. Our results justify the use of the combination of these 2 drugs in clinical setting in myeloma patients.
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PMID:Arsenic trioxide-induced apoptosis in myeloma cells: p53-dependent G1 or G2/M cell cycle arrest, activation of caspase-8 or caspase-9, and synergy with APO2/TRAIL. 1253 93

Arsenic trioxide (ATO) is effective in the treatment of acute promyelocytic leukemia (APL) and induces apoptosis in APL cells and in a great variety of other cancer cells. We have previously shown that ATO induces apoptosis in myeloma cells in two different modes depending on p53 status in the cells. In cells expressing mutated p53, ATO induced, G2/M arrest and activation caspase 8 and 3 and rapid and extensive apoptosis. Myeloma cells expressing w.t. p53, ATO induced G1 arrest and delayed apoptosis with activation of caspase 9 and 3. APO2/TRAIL receptor expression was induced in both cell types and APO2/TRAIL synergized with ATO in the induction of apoptosis. Here we tested the effect of ATO on mitochondrial membrane potential (MMP) in myeloma cells expressing mutated or w.t. p53. In myeloma cells expressing mutated p53, depolarization of MMP occurred early, concomitant with induction of APO2/TRAIL, activation of BID and release of AIF, preceding apoptosis. However, in cells expressing w.t. p53, APO2/TRAIL is not induced, BID is not cleaved and depolarization of MMP occurs concurrently with cytochrome c release and apoptosis. These results explain the greater sensitivity to ATO of cells with mutated p53 and suggest perhaps a general mechanism for ATO-induced apoptosis.
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PMID:Arsenic trioxide selectively induces early and extensive apoptosis via the APO2/caspase-8 pathway engaging the mitochondrial pathway in myeloma cells with mutant p53. 1285 90

Arsenic trioxide (ATO) is emerging as a standard therapy for refractory acute promyelocytic leukemia. Consequently, ATO-based therapies are being investigated in other cancers. We have reported that the combination of ATO and ascorbic acid is an effective strategy in chemoresistant myeloma cell lines and in plasma cells from patients. ATO action is multimodal and appears to involve thiol depletion, increased reactive oxygen species production, loss of mitochondrial membrane potential (DeltaPsi(m)), and activation of caspases. To better define the ATO death pathway, we asked whether caspase activity is required for ATO-mediated cell death. Here we report that ATO exerts cytotoxic effects in myeloma cell lines via both caspase-dependent and caspase-independent pathways. We monitored ATO-induced changes in cell viability, caspase activity, superoxide production, and DeltaPsi(m) in the presence or absence of the caspase inhibitors t-butoxy carbonyl-Asp.fluoromethylketone (BocD.fmk) and Z-Val-Ala-Asp.fluoromethylketone (zVAD.fmk) and the anti-oxidant N-acetylcysteine. Consistent with glutathione levels dictating ATO action, N-acetylcysteine abrogated ATO-induced changes in cell death, caspase activation, free radical production, and loss of DeltaPsi(m) in all the cell lines we tested. Experiments with caspase inhibitors suggested at least two models for ATO death signaling. In 8226/S cells, blockade of caspases had no effect on loss of cell viability, increase in reactive oxygen species production, and minimal effects on the loss of DeltaPsi(m). In contrast, BocD.fmk or zVAD.fmk conferred significant protection from the effects of ATO in U266 cells and MM1.S cells. Chemoresistant variants of 8226/S and MM1.S displayed similar ATO-induced death pathways as their respective parental lines. Studies with myeloma cells from bone marrow biopsies indicated that ATO initiates a caspase-independent pathway in the majority of samples.
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PMID:Arsenic trioxide uses caspase-dependent and caspase-independent death pathways in myeloma cells. 1461 89

Arsenic trioxide (ATO) and paclitaxel (TAXOL) are effective in the treatment of various types of cancers. Both drugs induce G2/M arrest. We have previously shown that ATO is a potent inducer of apoptosis in myeloma cells expressing mutant p53 engaging both the intrinsic and extrinsic apoptotic pathways. Here we compared the effect of ATO and TAXOL on myeloma cells expressing mutant p53 and varying levels of Bcl-2. ATO rapidly induced Apo2/TRAIL, activation of caspase 8, cleavage of BID, depolarization of mitochondrial membrane (MM) and release of AIF from mitochondria in a Bcl-2 independent fashion. Apoptosis was associated with early formation of ring-like perinuclear condensed chromatin colocalized with AIF. In contrast, paclitaxel-induced apoptosis MM depolarization, cytochrome C release and activation of caspase 9 were all blocked by Bcl-2. Apoptosis was associated with a random chromatin condensation and nuclear fragmentation with no early involvement of AIF.
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PMID:Arsenic trioxide and paclitaxel induce apoptosis by different mechanisms. 1472 46


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