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Abstract
Lymphoid malignancies frequently harbor genetic mutations leading to aberrant activation of nuclear factor-κB (NF-κB) signaling; in normal cells, this pathway has important roles in the control of cell growth, survival, stress responses, and inflammation. Malignancies with mutations in NF-κB pathway components can derive from all cell stages of mature B-cell development; however, aberrant NF-κB activity is particularly prevalent in aggressive subtypes of non-Hodgkin lymphoma and myeloma. NF-κB activation is mediated by two separate pathways, the canonical and alternative pathway, and five downstream transcription factor subunits. Recent findings implicate a predominant role for distinct NF-κB pathways and subunits in certain lymphoma subtypes and myeloma; findings which are complemented by the realization that individual NF-κB subunits can have unique, non-redundant biological roles in the putative tumor precursor cells, including activated B cells, germinal center B cells and plasma cells. The knowledge gained from these studies may be exploited for the development of therapeutic strategies to inhibit aberrant NF-κB activity at the level of the transcription-factor subunits and their target genes, as global inhibition of the pathway is toxic. Here, we provide an overview on the role of aberrant NF-κB activation in aggressive lymphoid malignancies and discuss the potential importance of individual NF-κB subunits in the pathogenesis of tumor subtypes.
Highlights
Cancers of the B-cell lineage arise from malignant transformation of B cells and plasma cells (PCs) at various stages of differentiation
The majority of B-cell lymphomas and PC malignancies originate from B cells that have undergone the germinal center (GC) B-cell reaction of the T cell-dependent immune response that is essential for our immunity against foreign antigens [1,2]
May lead to enhanced c-REL activity in B cells, which might contribute to the increased formation of spontaneous GCs that has been observed in aging NF-κB1-deficient mice [40]
Summary
Cancers of the B-cell lineage arise from malignant transformation of B cells and plasma cells (PCs) at various stages of differentiation. During the GC reaction, B cells recognizing the invading pathogen undergo somatic hypermutation in their rearranged immunoglobulin variable (IgV) genes in order to generate high-affinity PCs and memory B cells [3,4] Another process occurring during the GC reaction is Ig class switch recombination, in which the B cell switches from the expression of IgM to other Ig classes with different effector functions. Cells 2018, 7, 189 of several B-lineage malignancies, especially in aggressive subtypes of B-cell non-Hodgkin lymphoma (B-NHL) and in multiple myeloma (MM), an incurable tumor of PCs. The NF-κB signaling pathway plays a crucial role in multiple biological processes, including survival, growth, inflammation and stress responses, across many cell types, through regulation of gene expression [7,8]. A potential crosstalk between the two pathways may need to be taken into consideration when interpreting the downstream effects of a particular NF-κB-inducing stimulus
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