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)

Although circulating hematopoietic progenitor cells (HPCs) are frequently used in therapeutic approaches, many aspects of their cellular biochemistry are still unclear. In the present study, the effects of cyclic nucleotide-elevating agents on HPC proliferation and differentiation were investigated. HPCs from different sources, including healthy persons, patients with tumors (medulloblastoma, seminoma, or multiple myeloma), and patients with chronic myelocytic leukemia (CML), were compared. HPCs were isolated by standard leukapheresis procedures and analyzed for proliferation and differentiation into the megakaryocytic and granulocytic lineages. HPCs contained high concentrations of cyclic guanosine monophosphate (cGMP)-dependent and cyclic adenosine monophosphate (cAMP)-dependent protein kinases G and A (PKG and PKA, respectively). Whereas PKG was partly down-regulated during culture, the PKA level remained constant. Stimulation of PKG in HPCs isolated from healthy donors or tumor patients resulted in a biphasic reaction: low cGMP concentrations inhibited proliferation and stimulated differentiation into megakaryocytes, whereas high concentrations revealed the opposite effect. In contrast, differentiation into granulocytes was inhibited in a concentration-dependent manner. Stimulation of PKA inhibited HPC differentiation; however, HPC proliferation was inhibited in controls and stimulated in HPCs from tumor patients. HPCs isolated from CML patients showed a nonhomogeneous reaction pattern to both cyclic nucleotides with high variability between the individual donors. We demonstrated the importance of the source of HPCs for the investigation of proliferation and differentiation. Cyclic nucleotide-regulated pathways are clearly involved in HPC proliferation and differentiation. Pharmacological strategies using cyclic nucleotide-elevating substances to influence HPC growth and differentiation in the bone marrow might support current strategies in HPC recovery from the peripheral blood.
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PMID:Cyclic nucleotide-regulated proliferation and differentiation vary in human hematopoietic progenitor cells derived from healthy persons, tumor patients, and chronic myelocytic leukemia patients. 1820 72

Anti-apoptotic pathways play a central role in the survival of multiple myeloma cells. The contribution of PI3-kinase and Akt kinase in mediating myeloma cell survival is well established although the role of glycogen synthase kinase-3 (GSK3) is less defined. In this study we determined the contribution of GSK3 in growth regulation of myeloma cells. We treated six different multiple myeloma cell lines with a Thiadiazolidinone (TDZD), a non-competitive inhibitor of GSK3 and determined its effects on proliferation and apoptosis. In addition we determined the activation of forkhead transcription factors (FOXO) in response to TDZD. TDZD inhibited proliferation and induced apoptosis of all myeloma cell lines. TDZD was also effective in inducing apoptosis of primary myeloma cells whereas CD34 positive normal hematopoietic cells were protected from apoptosis. Furthermore, TDZD-mediated inhibition of GSK3 resulted in dephosphorylation and activation of FOXO3a. In primary myeloma cells FOXO transcription factors were highly phosphorylated where as the levels of GSK3 phosphorylation was quite low. The levels of the pro-apoptotic proteins Fas ligand (FasL) and IkappaBalpha increased after treatment with TDZD in myeloma cell lines. These studies provide the basis for further testing of GSK3 inhibitors in the clinical setting.
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PMID:Growth control of multiple myeloma cells through inhibition of glycogen synthase kinase-3. 1872 64

Abstract Mammalian target of rapamycin (mTOR) is a serine/threonine kinase that plays a critical role in the regulation of basic cellular functions, including cellular growth and proliferation. In this study we describe the generation and characterization of novel monoclonal antibodies directed against mTOR protein kinase. A GST-tagged fragment of mTOR expressed in bacteria was used as an antigen. Antibody-producing hybridoma cells were obtained by fusing SP2/0 myeloma cells with splenocytes from immunized mice. Anti-mTOR antibody-producing hybridoma cell lines were first identified by enzyme-linked immunosorbent assay and then subcloned by limiting dilution. Antibodies produced by selected clones were further tested for their reactivity towards the GST/mTOR 1334-1504 recombinant protein. Furthermore, antibody produced by F11 clone was shown to recognize specifically mTOR in different tissues and cell lines in Western blotting, immunoprecipitation, and immunohistochemistry. In addition, mTOR F11 antibody was suitable for immunoprecipitating and testing mTOR activity in in vitro kinase assay. In summary, generated antibodies will be useful for investigating mTOR signaling complexes in normal and pathological states.
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PMID:Generation and characterization of monoclonal antibodies to mTOR kinase. 1880 7

Protein kinase CK2 is a ubiquitous, essential, and highly pleiotropic protein kinase whose abnormally high constitutive activity is suspected to underlie its pathogenic potential in neoplasia and other diseases. A number of structurally unrelated CK2 inhibitors, tested on a variety of cells derived from tumours, including lymphomas, leukaemias, multiple myeloma and prostate carcinoma, display a pro-apoptotic effect which is roughly proportional to their in vitro inhibitory potency. In the present review we summarize the most recent discovery of potent and selective CK2 inhibitors and their prospective as future anticancer agents.
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PMID:Protein kinase CK2 inhibitors: emerging anticancer therapeutic agents? 1885 81

Multiple myeloma (MM) is an incurable plasma cell neoplasm. Pathogenesis involves upregulation of D-type cyclins and activation of oncogenes, but little is known about the role of tumor suppressor genes. Gene hypermethylation is an alternative mechanism of tumor suppressor gene inactivation. Various approaches have been used to elucidate the role of gene hypermethylation in MM, including a candidate gene approach, microarray approach for genes upregulated by hypomethylating agents, and a cancer pathway approach, which enables a comprehensive picture of the involvement of multiple tumor suppressor genes in MM. Based on the cancer pathway approach, the following data on the involvement of cell cycle control, intrinsic tumor suppressor, and cell signaling were derived. First, among the INK4 and CIP/KIP families of cyclin-dependent kinase inhibitors, only CDKN2B and CDKN2A are frequently hypermethylated. Second, methylation of SHP1 and soluble Wnt inhibitors is associated with constitutive activation of JAK/STAT and Wnt signaling. Importantly, downregulation of the signaling pathways can be restored by demethylation and re-expression of SHP1 and soluble Wnt inhibitors, which is potentially important therapeutically. Third, of the tumor suppressor genes involved in the DAPK/P14/HDM2/P53/Apaf-1 pathway, only DAPK is frequently methylated, which appeared to be an adverse prognostic factor to survival. Lastly, apart from being implicated in the progression from monoclonal gammopathy of unknown significance to MM, aberrant gene promoter methylation might also account for late disease progression in MM. Future studies are needed to delineate the biologic consequence of gene hypermethylation, the prognostic effect of gene methylation, and the possibility of hypomethylation therapy.
Clin Lymphoma Myeloma 2008 Dec
PMID:Gene hypermethylation in multiple myeloma: lessons from a cancer pathway approach. 1906 97

Resistance to growth suppression by TGF-beta1 is common in cancer; however, mutations in this pathway are rare in hematopoietic malignancies. In multiple myeloma, a fatal cancer of plasma cells, malignant cells accumulate in the TGF-beta-rich bone marrow due to loss of both cell cycle and apoptotic controls. Herein we show that TGF-beta activates Smad2 but fails to induce cell cycle arrest or apoptosis in primary bone marrow myeloma and human myeloma cell lines due to its inability to activate G(1) cyclin-dependent kinase (CDK) inhibitors (p15(INK4b), p21(CIP1/WAF1), p27(KIP1), p57(KIP2)) or to repress c-myc and Bcl-2 transcription. Correlating with aberrant activation of CDKs, CDK-dependent phosphorylation of Smad2 on Thr(8) (pT8), a modification linked to impaired Smad activity, is elevated in primary bone marrow myeloma cells, even in asymptomatic monoclonal gammopathy of undetermined significance. Moreover, CDK2 is the predominant CDK that phosphorylates Smad2 on T8 in myeloma cells, leading to inhibition of Smad2-Smad4 association that precludes transcriptional regulation by Smad2. Our findings provide the first direct evidence that pT8 Smad2 couples dysregulation of CDK2 to TGF-beta resistance in primary cancer cells, and they suggest that disruption of Smad2 function by CDK2 phosphorylation acts as a mechanism for TGF-beta resistance in multiple myeloma.
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PMID:CDK2 phosphorylation of Smad2 disrupts TGF-beta transcriptional regulation in resistant primary bone marrow myeloma cells. 1920 32

In recent years, protein kinases have become the pharmaceutical industry's most studied class of drug target, and some 10 protein kinase inhibitors have so far been approved for the treatment of cancer. However, whether safe drugs that modulate protein kinase activities can also be developed for the treatment of chronic diseases, where they may need to be taken for decades, is an issue that is still unresolved. A number of compounds that inhibit the p38alpha MAPK have entered clinical trials for the treatment of rheumatoid arthritis and psoriasis, but side effects have prevented their progression to Phase III clinical trials. Here I briefly review the potential problems in targeting p38 MAPK and discuss other protein kinases that regulate the innate immune system, such as Tpl2, MAPKAP-K2/3, MSK1/2 and IRAK4, which may be better targets for the treatment of chronic inflammatory diseases, and NIK, which is an attractive target for the treatment of multiple myeloma, a late stage B-cell malignancy.
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PMID:Targeting protein kinases for the development of anti-inflammatory drugs. 1921 67

Adhesive interactions between multiple myeloma (MM) cells and marrow stromal cells activate multiple signaling pathways including nuclear factor kappaB (NF-kappaB), p38 mitogen-activated protein kinase (MAPK), and Jun N-terminal kinase (JNK) in stromal cells, which promote tumor growth and bone destruction. Sequestosome-1 (p62), an adapter protein that has no intrinsic enzymatic activity, serves as a platform to facilitate formation of signaling complexes for these pathways. Therefore, we determined if targeting only p62 would inhibit multiple signaling pathways activated in the MM microenvironment and thereby decrease MM cell growth and osteoclast formation. Signaling through NF-kappaB and p38 MAPK was increased in primary stromal cells from MM patients. Increased interleukin-6 (IL-6) production by MM stromal cells was p38 MAPK-dependent while increased vascular cell adhesion molecule-1 (VCAM-1) expression was NF-kappaB-dependent. Knocking-down p62 in patient-derived stromal cells significantly decreased protein kinase Czeta (PKCzeta), VCAM-1, and IL-6 levels as well as decreased stromal cell support of MM cell growth. Similarly, marrow stromal cells from p62(-/-) mice produced much lower levels of IL-6, tumor necrosis factor-alpha (TNF-alpha), and receptor activator of NF-kappaB ligand (RANKL) and supported MM cell growth and osteoclast formation to a much lower extent than normal cells. Thus, p62 is an attractive therapeutic target for MM.
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PMID:Increased signaling through p62 in the marrow microenvironment increases myeloma cell growth and osteoclast formation. 1928 58

Dickkopf 1 (DKK1), an inhibitor of Wnt signaling, not only functions as a head inducer during development, but also regulates joint remodeling and bone formation, which suggests roles for DKK1 in the pathogenesis of rheumatoid arthritis and multiple myeloma. We recently demonstrated that levels of DKK1 in palmoplantar dermal fibroblasts are physiologically higher than those observed in non-palmoplantar dermal fibroblasts. Thus, the DKK1-rich mesenchyme in palmoplantar dermis affects the overlying epithelium and induces a palmoplantar phenotype in the epidermis. More specifically, DKK1 suppresses melanocyte function and growth through the regulation of microphthalmia-associated transcription factor (MITF) and beta-catenin. Furthermore, DKK1 induces the expression of keratin 9 and alpha-Kelch-like ECT2-interacting protein (alphaKLEIP) but downregulates the expression of beta-catenin, glycogen synthase kinase 3beta, protein kinase C, and proteinase-activated receptor-2 (PAR-2) in keratinocytes. Treatment of reconstructed skin with DKK1 reproduces the hypopigmentation and thickening of skin through Wnt/beta-catenin signaling. These studies elucidate why human palmoplantar skin is thicker and paler than non-palmoplantar skin through the secretion of DKK1 by fibroblasts that affect the overlying epidermis. Thus, DKK1 may be useful for reducing skin pigmentation and for thickening photo-aged skin and palmoplantar wounds caused by diabetes mellitus and rheumatic skin diseases.Journal of Investigative Dermatology Symposium Proceedings (2009) 14, 73-75; doi:10.1038/jidsymp.2009.4.
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PMID:Regulation of skin pigmentation and thickness by Dickkopf 1 (DKK1). 1967 59

A humanized IgG4 anti-HLA-DR monoclonal antibody (IMMU-114), engineered to avoid side effects associated with complement activation, was examined for binding and cytotoxicity on leukemia, lymphoma, and multiple myeloma cell lines and chronic lymphocytic leukemia (CLL) patient specimens, followed by evaluation of the effects of IMMU-114 on extracellular signal-regulated kinase (ERK) and c-Jun N-terminal kinase (JNK) signaling pathways. HLA-DR was expressed on the majority of these cells at markedly higher levels than CD20, CD22, and CD74. IMMU-114 was toxic to mantle cell lymphoma, CLL, acute lymphoblastic leukemia, hairy cell leukemia, non-Hodgkin lymphoma (including rituximab-resistant), and multiple myeloma cell lines, and also patient CLL cells. IMMU-114 induced disease-free survival in tumor-bearing SCID mice with early-stage disease and in models that are relatively resistant to anti-CD20 monoclonal antibodies. Despite positive staining, acute myelogenous leukemic cells were not killed by IMMU-114. The ability of IMMU-114 to induce activation of ERK and JNK signaling correlated with cytotoxicity and differentiates the mechanism of action of IMMU-114 from monoclonal antibodies against CD20 and CD74. Thus, antigen expression is not sufficient for cytotoxicity; antibody-induced hyperactivation of ERK and JNK mitogen activated protein kinase signaling pathways are also required.
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PMID:Therapy of B-cell malignancies by anti-HLA-DR humanized monoclonal antibody, IMMU-114, is mediated through hyperactivation of ERK and JNK MAP kinase signaling pathways. 2057 16


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