Optimizing immunotherapy in multiple myeloma: restoring the function of patients' monocyte-derived dendritic cells by inhibiting p38 or activating MEK/ERK MAPK and neutralizing interleukin-6 in progenitor cells

Wang, Siqing; Hong, Sang Hyun; Yang, Jing; Qian, Jianfei; Zhang, Xiang; Shpall, Elizabeth J.; Kwak, Larry W.; Yi, Qing

doi:10.1182/blood-2006-04-016980

Cited by 86 publications

(74 citation statements)

References 38 publications

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“…Similar observations were made in the murine 5TGM1 MM model in which an inhibition of DC differentiation and function by MM cells via IL-6, IL-10, and TGF-β and activation of p38 mitogen-activated protein kinase (MAPK) signaling have been reported [54]. This inhibitory mechanism was confirmed in monocyte-derived DCs from myeloma patients and p38 inhibition resulted in a restoration of DC function [55]. Restoring or ensuring normal DC function might be of great interest for several cellular immunotherapy approaches that depend on it.…”

Section: Dendritic Cellssupporting

confidence: 67%

Cellular immunotherapy in multiple myeloma: Lessons from preclinical models

Binsfeld

Fostier

Muller

et al. 2014

Biochimica et Biophysica Acta (BBA) - Reviews on Cancer

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The majority of multiple myeloma patients relapse with the current treatment strategies, raising the need for alternative therapeutic approaches. Cellular immunotherapy is a rapidly evolving field and currently being translated into clinical trials with encouraging results in several cancer types, including multiple myeloma. Murine multiple myeloma models are of critical importance for the development and refinement of cellular immunotherapy. In this review, we summarize the immune cell changes that occur in multiple myeloma patients and we discuss the cell-based immunotherapies that have been tested in multiple myeloma, with a focus on murine models.

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Section: Dendritic Cellssupporting

confidence: 67%

Cellular immunotherapy in multiple myeloma: Lessons from preclinical models

Binsfeld

Fostier

Muller

et al. 2014

Biochimica et Biophysica Acta (BBA) - Reviews on Cancer

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“…[68][69][70] In MM, the monocyte-derived DCs generated by the patients are functionally defective; this was found to be due to cytokines released by MM cells. 71 TLR ligands may amplify these effects and inhibit DC maturation. Although recent reports show that Treg-cell function can be inhibited by directly targeting TLR8, 72 studies using other TLR ligands have observed enhanced Treg-cell induction and improved Treg-cell function.…”

Section: Tlr Activation Of Both Immune and Neoplastic Cells: How To Smentioning

confidence: 99%

Toll-like receptors: lessons to learn from normal and malignant human B cells

Chiron

Bekeredjian‐Ding

Pellat‐Deceunynck

et al. 2008

Blood

103

104

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IntroductionThe human immune system is continuously challenged by commensal microflora as well as invasive infectious agents. The decision to mount a rapid and protective immune response to a pathogen is a consequence of the activation of the innate immune system via pattern recognition receptors, such as Toll-like receptors (TLRs), that sense microbial products. 1 TLR polymorphisms have been implicated in increased severity and predisposition to infection and septic shock 2 in both mice and humans. TLRs recognize highly conserved structures of viral (TLR3,7,8,and 9) and bacterial (TLR1,2,4,5,6,7,8,and 9) origin, known as pathogen-associated molecular patterns (PAMPs; Figure 1). TLR2 heterodimerization with TLR1 or TLR6 is triggered by bacterial lipopeptides, whereas TLR3 is activated by double-stranded RNA, TLR4 is activated by lipopolysaccharide (LPS), TLR5 is activated by flagellin, TLR7 and TLR8 are activated by single-stranded RNA (ssRNA), and TLR9 is activated by unmethylated CpG DNA motifs. Moreover, endogenous ligands released during cellular stress or matrix degradation (eg, heat-shock proteins, fibronectin, heparan sulfates) are thought to activate TLRs. 3 Numerous reports have described how TLRs orchestrate the immune response to pathogens in dendritic cells (DCs) and macrophages. 4 Much less is known about the effects of TLR-mediated B-cell activation, although the design of vaccines could benefit from a more detailed understanding of this process.Leukemic B cells often retain the expression of markers specific for their cellular origin (eg, CD5, CD10, CD138). Furthermore, several reports have demonstrated TLR expression and function in neoplastic B cells. Because DCs can be activated and matured upon triggering of TLRs, immunotherapeutic protocols in leukemia have recently included TLR agonists to improve tumor antigen presentation and subsequent T-cell activation. 5 However, recent reports have indicated that leukemic cells could hijack the TLR machinery to their own benefit. A better understanding of the effects of TLR ligands on normal B cells and their leukemic counterparts could therefore help avoid adverse vaccination effects. In this review, we will discuss the role of TLRs in generating the humoral immune response and their dual effects on different leukemic cell types. TLR expression in normal and neoplastic B cells Normal B-cell subsets and modulation of expressionThe TLR expression pattern is specific for each cell type and is summarized in Figure 2 for human B cells. TLRs expression in human B cells is characterized by high expression of TLR1, 6, 7, 9, and 10. 6-8 Low expression of TLR2 allows for the formation of the functional heterodimers TLR1/2 and TLR2/6, which are required to respond to diacylated and triacylated lipoproteins. The inability to be activated by LPS is a hallmark of human B cells because they lack TLR4, in contrast to mouse B cells. However, human B cells are well equipped to recognize nucleic acids given their expression of TLR7 and TLR9. This profile allows them to ...

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“…Detailed protocol was described previously. 19 Primer sets used for these analyses were as follows: RAR␣1 forward, 5Ј-CCA TCT AGG AGT GGC ATC TTT T, reverse, 5Ј-ACT AAC TGG AAG CTG GTG CTG; RAR␣2 forward, 5Ј-GAG GAG GAA GTG CTC GTT GAC, reverse, 5Ј-GCC CGG TTC TGG TTA TAA AAA T; and GAPDH forward, 5Ј-GAC ACC CAC TCC TCC ACC T, reverse, 5Ј-ATG AGG TCC ACC ACC CTG T. GAPDH transcript levels were used to normalize the amount of cDNA in each sample. …”

mentioning

confidence: 99%

RARα2 expression is associated with disease progression and plays a crucial role in efficacy of ATRA treatment in myeloma

Wang

Tricot

Shi

et al. 2009

Blood

Self Cite

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IntroductionMultiple myeloma (MM) is a plasma cell malignancy. 1,2 Although high-dose therapy and tandem bone marrow autotransplantation can produce higher response rates and longer survival than standard chemotherapy, MM remains largely incurable by current therapeutic strategies. 3,4 Furthermore, clinical outcomes of patients with MM are extremely heterogeneous, with survival ranging from only a few months to more than 15 years. [4][5][6] Increasing evidence suggests that genetic heterogeneity in MM cells largely accounts for the divergent clinical outcomes. 6 We have been pursuing the genetic characteristics of MM for nearly 10 years, which has contributed to the classification of MM diseases. [7][8][9][10][11] However, it remains unknown how to transform MM into a curable disease. Therefore, identification of new targets and genetic alterations, especially those for which there are available drugs, is important.All-trans retinoic acid (ATRA)-based regimens have been used in the therapy of acute promyelocytic leukemia (APL) for more than 20 years and have dramatically raised the 5-year disease-free survival to more than 70%. Furthermore, the toxicity of ATRA has been limited compared with conventional cytotoxic chemotherapy. 12 The high efficacy of retinoic acid (RA)-based therapy in APL and its well-documented safety profile have stimulated considerable interests in the treatment of other malignancies, [13][14][15] including myeloma. 16,17 Despite many efforts, however, clinical benefits of ATRA treatment in other tumors have been minor. RAR␣ has 2 major isoforms, RAR␣1 and RAR␣2, which differ in their expression patterns and N-terminal AF-1 functional domains. 18 Both RAR␣1 and RAR␣2 are considered specific receptors for RA-based reagents. However, the specific cellular roles of RAR␣1 and RAR␣2 are still unclear. In this study, we found that RAR␣2 plays a crucial role in myeloma progression, and more importantly, in mediating RA-based therapy of RAR␣2 ϩ MM diseases. Methods Study subjectsCD138 ϩ myeloma cell samples were obtained from patients who were enrolled on the National Institutes of Health (NIH)-sponsored clinical trials UARK 98-026 (Total Therapy 2 [TT2]) and UARK 03-033 (TT3). The Institutional Review Board of the University of Arkansas for Medical Sciences approved the research studies, and all subjects provided written informed consent in accordance with the Declaration of Helsinki.We have an inventory of more than 30 myeloma cell lines in our laboratory. Cells from these cell lines were cultured in RPMI 1640 containing 10% heat-inactivated fetal calf serum (FCS), 2 mM L-glutamine (Gibco), penicillin (100 U/mL), and streptomycin (100 g/mL) in a humidified incubator at 37°C in 5% CO 2 . Gene expression profilingPlasma cell purifications and gene expression profiling, using the Affymetrix U133Plus2.0 microarray, were performed as previously described. 9,11 Signal intensities were preprocessed and normalized by GCOS1.1 software (Affymetrix). 9,11 Myeloma cell samples from 80 newly diagnosed patien...

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Optimizing immunotherapy in multiple myeloma: restoring the function of patients' monocyte-derived dendritic cells by inhibiting p38 or activating MEK/ERK MAPK and neutralizing interleukin-6 in progenitor cells

Cited by 86 publications

References 38 publications

Cellular immunotherapy in multiple myeloma: Lessons from preclinical models

Cellular immunotherapy in multiple myeloma: Lessons from preclinical models

Toll-like receptors: lessons to learn from normal and malignant human B cells

RARα2 expression is associated with disease progression and plays a crucial role in efficacy of ATRA treatment in myeloma

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