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)

Human multiple myeloma (MM) is a presently incurable hematological malignancy, and novel biologically based therapies are urgently needed. Proteasome inhibitors represent a novel potential anticancer therapy. In this study, we demonstrate that the proteasome inhibitor PS-341 directly inhibits proliferation and induces apoptosis of human MM cell lines and freshly isolated patient MM cells; inhibits mitogen-activated protein kinase growth signaling in MM cells; induces apoptosis despite induction of p21 and p27 in both p53 wild-type and p53 mutant MM cells; overcomes drug resistance; adds to the anti-MM activity of dexamethasone; and overcomes the resistance to apoptosis in MM cells conferred by interleukin-6. PS-341 also inhibits the paracrine growth of human MM cells by decreasing their adherence to bone marrow stromal cells (BMSCs) and related nuclear factor kappaB-dependent induction of interleukin-6 secretion in BMSCs, as well as inhibiting proliferation and growth signaling of residual adherent MM cells. These data, therefore, demonstrate that PS-341 both acts directly on MM cells and alters cellular interactions and cytokine secretion in the BM millieu to inhibit tumor cell growth, induce apoptosis, and overcome drug resistance. Given the acceptable animal and human toxicity profile of PS-341, these studies provide the framework for clinical evaluation of PS-341 to improve outcome for patients with this universally fatal hematological malignancy.
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PMID:The proteasome inhibitor PS-341 inhibits growth, induces apoptosis, and overcomes drug resistance in human multiple myeloma cells. 1130 89

Novel therapies in multiple myeloma (MM) target not only the tumor cell but also the bone marrow (BM) microenvironment. Thalidomide (Thal), as well as derivative immunomodulatory drugs (IMiDs), directly induce apoptosis or G1 growth arrest in MM cell lines and patient's MM cells which are resistant to melphalan (Mel), doxorubicin (Dox), and dexamethasone (Dex). Although Thal and IMiDs do not alter adhesion of MM cells to bone marrow stromal cells (BMSCs), they inhibit the upregulation of interleukin-6 (IL-6) and vascular endothelial growth factor (VEGF) secretion triggered by the binding of MM cells to BMSCs. Proteasome inhibitors represent another potential anticancer therapy targeting the MM cell and the BM microenvironment. The proteasome inhibitor PS-341 directly inhibits proliferation and induces apoptosis in both human MM cell lines and freshly isolated patient's MM cells which are resistant to Mel, Dox, and Dex. PS-341 inhibits p44/42 mitogen-activated protein kinase (MAPK) growth signaling triggered by IL-6 and induces apoptosis, despite induction of p21 and p27, in p53 wild-type and p53 mutant MM cells. PS-341 adds to the anti-MM activity of dexamethasone and overcomes IL-6-mediated protection against dexamethasone-induced apoptosis. PS-341 blocks the paracrine growth of human MM cells by decreasing their adherence to BMSCs and related NF-kappaB-dependent induction of IL-6 secretion in BMSCs. Moreover, proliferation and MAPK growth signaling of those residual adherent MM cells is also inhibited. Tumor necrosis factor-alpha (TNF-alpha), which is produced by some MM cells, induces only low-level MM proliferation and MAPK activation in MM cells, but markedly upregulates IL-6 secretion from BMSCs and upregulates expression of adhesion molecules (VLA-4 and LFA-1) on MM cells and their receptors (VCAM-1 and ICAM-1) on BMSCs, with resultant increased binding of MM cells to BMSCs. Inhibition of TNF-alpha-induced NF-kappaB activation with PS-341 inhibits both the upregulation of these molecules on MM cells and BMSCs and the resultant increased adhesion. Therefore, inhibiting TNF-alpha and its sequelae may be useful treatment strategies in MM. Our data show that VEGF causes proliferation and enhances migration of MM as well as plasma cell leukemia (PCL) cells. VEGF induced twofold activation of cell migration in MM cells and more than 100-fold activation of cell migration in PCL cells, suggesting an important role of VEGF in the progression of MM to PCL. These data indicate that VEGF plays a pivotal role not only in neoangiogenesis in MM BM but also in proliferation and migration of tumor cells.
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PMID:Novel therapies targeting the myeloma cell and its bone marrow microenvironment. 1174 Aug 18

Proteasome inhibitors such as PS-341 are novel agents with great potential as anticancer drugs. In early clinical studies, PS-341 was tolerated well with promising evidence of antitumor activity in diseases such as multiple myeloma. Studies also are ongoing in solid tumors, as single agent therapy and in combination with standard agents such as carboplatin. Although more research is needed to clarify the precise spectrum of antitumor activity of proteasome inhibitors, this novel approach to targeting human malignancies is highly promising.
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PMID:Heat shock protein and proteasome targeting agents. 1251 92

Novel agents that target the proteasome, a proteolytic complex responsible for the degradation of ubiquitinated proteins, have demonstrated remarkable therapeutic efficacy in multiple myeloma, a plasma cell malignancy. However, the mechanism by which these compounds act remains unknown. A signaling pathway called the unfolded protein response (UPR) allows cells to handle the proper folding of proteins. The transcription factor XBP-1, a regulator of the UPR, is also required for plasma cell differentiation, suggesting a link between the UPR and plasma cell differentiation. Here we show that proteasome inhibitors target XBP-1 and the UPR in myeloma cells. Proteasome inhibitors suppress the activity of the translumenal endoplasmic reticulum endoribonuclease/kinase, IRE1 alpha, to impair the generation of the active, spliced XBP-1 species and simultaneously stabilize the unspliced species that acts as a dominant negative. Myeloma cells rendered functionally deficient in XBP-1 undergo increased apoptosis in response to endoplasmic reticulum stress. Identification of compounds that target the activity of IRE1 alpha/XBP-1 may yield novel therapies for the treatment of multiple myeloma and other malignancies that rely on an intact UPR.
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PMID:Proteasome inhibitors disrupt the unfolded protein response in myeloma cells. 1290 39

Proteasome inhibitor PS-341 is one of the most promising novel agents against multiple myeloma (MM). We have previously shown that PS-341 inhibits IL-6 triggered phosphorylation of extracellular signal-regulated kinases (ERK) 1/2 (also known as p42/44 mitogen-activated protein kinases) in MM cells. In this study, we further examined whether clinically achievable concentrations of PS-341 could inhibit IL-6 triggered signaling cascades in MM. We found that PS-341 inhibited not only ERK, but also signal transducers and activators of transcription (STAT) 3 as well as Akt phosphorylation. Since gp130 (CD130) dimerizes and is phosphorylated after IL-6 binding to gp80 (IL-6 receptor), we hypothesized that gp130 could be involved in PS-341-induced blockade of signaling cascades mediating MM cell growth, survival, and drug resistance in the bone marrow (BM) microenvironment. In this study, we first demonstrate that PS-341 induces downregulation of gp130 in a time- and dose-dependent manner in vitro, prior to MM cell death. Conversely, downregulation of gp130 is completely abrogated by the pan-caspase inhibitor Z-VAD-FMK, suggesting that downregulation of gp130 is mediated via caspase activation. Z-VAD-FMK also abrogates the inhibitory effect of PS-341 on IL-6-triggered signaling cascades. Importantly, we demonstrate that phosphorylation of ERK, STAT3, and Akt in MM.1S cells induced by either exogenous IL-6 or by binding of MM cells to BM stromal cells is abrogated by PS-341. These studies, therefore, define another novel mechanism whereby PS-341 can overcome the growth and survival advantage in MM cells conferred by the BM milieu. Importantly, this effect on cytokine-induced gp130 signaling cascades may account, at least in part, for the remarkable preclinical sensitivity and clinical responses achieved in MM with PS-341 treatment.
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PMID:Proteasome inhibitor PS-341 abrogates IL-6 triggered signaling cascades via caspase-dependent downregulation of gp130 in multiple myeloma. 1462 79

Targeting the ubiquitin-proteasome pathway has emerged as a promising approach for treating cancer. Bortezomib (VELCADE, formerly known as PS-341), a potent and reversible proteasome inhibitor, is being evaluated in clinical trials for treating multiple myeloma, and various other types of hematologic and solid tumors. Proteasome inhibitors are known to induce apoptosis in human cancer cells. Nevertheless, the mechanisms of apoptosis induced by proteasome inhibitors remain unclear. In this study, we investigated the role of p53 and its downstream targets in bortezomib-induced apoptosis in HCT116 human colon cancer cells. We demonstrated that bortezomib induced p53, and activated its downstream genes p21, PUMA and Bax in a p53-dependent fashion. However, apoptotic response to bortezomib was not affected by the deletion of p53. Surprisingly, we found that bortezomib-induced apoptosis was markedly enhanced in the p21-knockout cells, while significantly decreased in the BAX-knockout cells. Furthermore, in the cells deficient for both Bax and p21, apoptosis was restored to the level in the parental or the p53-deficient cells. The opposite effects of Bax and p21 were unrelated to the extent of proteasome inhibition, and were also observed in cells treated with different proteasome inhibitors. These results indicate that p53 downstream targets can collectively modulate apoptotic response to bortezomib and other proteasome inhibitors.
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PMID:Differential apoptotic response to the proteasome inhibitor Bortezomib [VELCADE, PS-341] in Bax-deficient and p21-deficient colon cancer cells. 1468 80

Proteasome inhibitors represent potential novel anti-cancer therapy. These agents inhibit the degradation of multi-ubiquitinated target proteins mediating cell cycle progression, apoptosis, NF-kappa B activation, inflammation, cell cycle regulatory proteins such as cyclins and cyclin dependent kinase inhibitors, as well as immune surveillance; and regulate anti-apoptosis and cell cycle progression. Proteasome inhibitors also directly induce caspase-dependent apoptosis of tumor cells, despite the accumulation of p21 and p27 and irrespective of the p53 wild type or mutant status. Recent studies demonstrate that PS-341, peptide boronate, has remarkable anti-tumor activity in preclinical and clinical studies, not only in multiple myeloma but also in other malignancies.
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PMID:Targeting proteasome inhibition in hematologic malignancies. 1476 62

Proteasome inhibitor PS-341 induces growth arrest and apoptosis of multiple myeloma (MM) cells via inactivation of NF-kappaB in vitro and has afforded some objective responses in individuals with relapsed, refractory MM. However, the activity of PS-341 against non-hematological malignancies remains to be fully elucidated. In this study, we found that PS-341 induced growth arrest and apoptosis of NCI-H520 and -H460 non-small cell lung cancer (NSCLC) cells in conjunction with markedly up-regulated levels of p21(waf1) and p53, and down-regulation of bcl-2 protein in these cells. Also, PS-341 caused phosphorylation of c-Jun NH(2)-terminal kinase (JNK) and c-Jun, and enhanced AP-1/DNA binding activities in these cells as measured by western blotting and enzyme-linked immunosorbent assay (ELISA), respectively. Interestingly, when the JNK/c-Jun/AP-1 signal pathway was disrupted by the JNK inhibitor SP600125, the ability of PS-341 to inhibit the growth of NSCLC cells and to up-regulate the levels of p21(waf1) in these cells was blunted, but the expression of p53 was sustained at a high level, suggesting that the JNK/c-Jun/AP-1 signal pathway might mediate the anti-lung cancer effects of PS-341, with p21(waf1) playing the central role. Thus, PS-341 might be useful for the treatment of individuals with NSCLC.
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PMID:Proteasome inhibitor PS-341 induces growth arrest and apoptosis of non-small cell lung cancer cells via the JNK/c-Jun/AP-1 signaling. 1496 69

Multiple myeloma is the second most common hematologic malignancy with currently no definitive treatment available. Although, therapy may include allogenic bone marrow transplantation, high-dose ablative chemotherapy followed by bone marrow or peripheral stem cell transplantation, melphalan/corticosteroid therapy, alpha-interferon treatment, and combined cytostatic chemotherapy, currently none of these alternatives offer cure for the disease. Introduction of thalidomide into the therapeutic arsenal provided a breakthrough in the treatment of refractory and/or relapsing disease, however, clinical experience indicated need for alternative treatments for thalidomide resistant disease as well as for intolerant patients. Proteasome inhibitors, hallmarked by bortezomib may represent one of the much needed therapeutic options. The results of the SUMMIT investigation that involved 202 heavily pretreated patients were convincing enough to prompt the FDA to register this drug for the treatment of multiple myeloma. Its European registration is also underway. In this review, the proteasome and its inhibition as a pharmacotherapeutic avenue are introduced. The most important clinical studies employing bortezomib and its combinations are also detailed. It is the hope of the authors that bortezomib and its derivatives will soon belong to the clinical armory against multiple myeloma.
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PMID:[Proteasome inhibition: a new therapeutic approach for the treatment of multiple myeloma]. 1497 77

Multiple myeloma (MM) remains fatal despite all available therapies. Initial treatment with conventional drugs such as, Dexamethasone (Dex) effectively induces MM cell death; however, prolonged drug exposures results in the development of chemoresistance. Our prior study demonstrated that 2-Methoxyestradiol (2ME2) induces apoptosis in multiple myeloma (MM) cells resistant to Dexamethasone (Dex). Here, we show the mechanism whereby 2ME2 overcomes Dex-resistance. The oligonucleotide array analysis demonstrates that Heat Shock Protein-27 (Hsp27) is upregulated in Dex-resistant, but not in Dex-sensitive MM cells. Proteomics analysis of Hsp27-immunocomplexes revealed the presence of actin in Dex-resistant, but not in Dex-sensitive cells. Biochemical interaction between Hsp27 and actin was examined by co-immunoprecipitation with anti-Hsp27 or actin Abs. Far western blot analysis using GST-Hsp27 fusion protein showed a direct association with actin both in vitro and in vivo. Importantly, 2ME2- or Bortezomib/Proteasome inhibitor (PS-341)-induced apoptosis in Dex-resistant MM cell lines and MM patient cells is associated with disruption of the Hsp27-actin complexes. Finally, blockade of Hsp27 by anti-sense strategy enhanced anti-MM activity of both 2ME2 and PS-341. These findings provide the clinical application of novel therapeutics targeting Hsp27 to improve patient outcome in MM.
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PMID:2-Methoxyestardiol and bortezomib/proteasome-inhibitor overcome dexamethasone-resistance in multiple myeloma cells by modulating Heat Shock Protein-27. 1500 12

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