Abstract
Aberrant activation of Wnt/β-catenin signaling plays a central role in the pathogenesis of a wide variety of malignancies and is typically caused by mutations in core Wnt pathway components driving constitutive, ligand-independent signaling. In multiple myelomas (MMs), however, these pathway intrinsic mutations are rare despite the fact that most tumors display aberrant Wnt pathway activity. Recent studies indicate that this activation is caused by genetic and epigenetic lesions of Wnt regulatory components, sensitizing MM cells to autocrine Wnt ligands and paracrine Wnts emanating from the bone marrow niche. These include deletion of the tumor suppressor CYLD, promotor methylation of the Wnt antagonists WIF1, DKK1, DKK3, and sFRP1, sFRP2, sFRP4, sFRP5, as well as overexpression of the co-transcriptional activator BCL9 and the R-spondin receptor LGR4. Furthermore, Wnt activity in MM is strongly promoted by interaction of both Wnts and R-spondins with syndecan-1 (CD138) on the MM cell-surface. Functionally, aberrant canonical Wnt signaling plays a dual role in the pathogenesis of MM: (I) it mediates proliferation, migration, and drug resistance of MM cells; (II) MM cells secrete Wnt antagonists that contribute to the development of osteolytic lesions by impairing osteoblast differentiation. As discussed in this review, these insights into the causes and consequences of aberrant Wnt signaling in MM will help to guide the development of targeting strategies. Importantly, since Wnt signaling in MM cells is largely ligand dependent, it can be targeted by drugs/antibodies that act upstream in the pathway, interfering with Wnt secretion, sequestering Wnts, or blocking Wnt (co)receptors.
Highlights
Multiple myeloma (MM) is a clonal expansion of malignant plasma cells in the bone marrow (BM) that is typically accompanied by paraproteinemia, lytic bone lesions, hypercalcemia, cytopenias, and renal failure
The canonical Wnt signaling pathway plays a dual role in the reciprocal interaction between MM cells and the BM niche: (I) the BM microenvironment facilitates aberrant activation of canonical Wnt signaling in MM cells, and thereby plays an important role in tumorigenesis; (II) MM cells secrete Wnt antagonists which contribute to the development of lytic bone lesions by impairing osteoblast differentiation
At early disease stages when MM cells are strictly confined to the BM, they secrete various Wnt antagonists, which attenuate osteoblast differentiation and thereby contribute to the development of osteolytic lesions
Summary
Multiple myeloma (MM) is a clonal expansion of malignant plasma cells in the bone marrow (BM) that is typically accompanied by paraproteinemia, lytic bone lesions, hypercalcemia, cytopenias, and renal failure. Blocking Wnt secretion with the small molecule porcupine inhibitors IWP-2 and LGK974 [63] or opposing binding of Wnt ligands to Fzd with secreted Frizzled protein 1 (sFRP1) [62] decreased β-catenin stabilization, attenuated β-catenin/TCF-mediated transcription and impaired expansion of several HMCLs, confirming the existence of an autocrine Wnt signaling loop Taken together, these data indicate that aberrant Wnt activation in malignant plasma cells can be fueled by autocrine and paracrine Wnt ligands and regulates proliferation and drug resistance of MM. Stimulation of Wnt signaling in the tumor microenvironment either by ectopic expression of Wnt3a in HMCLs [54] or by systemic administration of Wnt3a, GSK3-inhibitors [56] or an anti-DKK1 monoclonal antibody (mAb) [92, 93] was found to increase osteoblast numbers, enhance bone formation, and prevent the development of osteolytic lesions These results provided strong evidence for a key role of deregulated Wnt signaling in the development of osteolytic lesions. We recently reported that immature osteoblasts secrete high levels of R-spondin, which may protect LGR4-expressing MM cells against Wnt inhibition by secreted Wnt antagonist [63]
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