Multiple myeloma–derived MMP-13 mediates osteoclast fusogenesis and osteolytic disease
Jing Fu, Shirong Li, Rentian Feng, Huihui Ma, Farideh Sabeh, G. David Roodman, Ji Wang, Samuel Robinson, X. Edward Guo, Thomas Lund, Daniel Normolle, Markus Y. Mapara, Stephen J. Weiss, Suzanne Lentzsch
Jing Fu, Shirong Li, Rentian Feng, Huihui Ma, Farideh Sabeh, G. David Roodman, Ji Wang, Samuel Robinson, X. Edward Guo, Thomas Lund, Daniel Normolle, Markus Y. Mapara, Stephen J. Weiss, Suzanne Lentzsch
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Research Article Oncology

Multiple myeloma–derived MMP-13 mediates osteoclast fusogenesis and osteolytic disease

Abstract

Multiple myeloma (MM) cells secrete osteoclastogenic factors that promote osteolytic lesions; however, the identity of these factors is largely unknown. Here, we performed a screen of human myeloma cells to identify pro-osteoclastogenic agents that could potentially serve as therapeutic targets for ameliorating MM-associated bone disease. We found that myeloma cells express high levels of the matrix metalloproteinase MMP-13 and determined that MMP-13 directly enhances osteoclast multinucleation and bone-resorptive activity by triggering upregulation of the cell fusogen DC-STAMP. Moreover, this effect was independent of the proteolytic activity of the enzyme. Further, in mouse xenograft models, silencing MMP-13 expression in myeloma cells inhibited the development of osteolytic lesions. In patient cohorts, MMP-13 expression was localized to BM-associated myeloma cells, while elevated MMP-13 serum levels were able to correctly predict the presence of active bone disease. Together, these data demonstrate that MMP-13 is critical for the development of osteolytic lesions in MM and that targeting the MMP-13 protein — rather than its catalytic activity — constitutes a potential approach to mitigating bone disease in affected patients.

Authors

Jing Fu, Shirong Li, Rentian Feng, Huihui Ma, Farideh Sabeh, G. David Roodman, Ji Wang, Samuel Robinson, X. Edward Guo, Thomas Lund, Daniel Normolle, Markus Y. Mapara, Stephen J. Weiss, Suzanne Lentzsch

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Figure 6

MMP-13 directs MM-induced osteolysis.

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MMP-13 directs MM-induced osteolysis. (A) Tibiae from Figure 5 were anal...
(A) Tibiae from Figure 5 were analyzed by 3D micro-qCT scanning. Representative 3D images of tibiae, adjacent femurs (top panel), and tibiae trabecular bones (bottom panel) from each treatment regimen are shown. Scale bars: 1 mm (top panel); 100 μm (bottom panel). (B and C) Trabecular bone of mice tibiae were analyzed, and microstructural parameters, including bone volume fraction (BV/TV), Con.D., Tb.N., BMD, BS/BV ratio, and SMI, were determined. Results are presented as the mean ± SEM (n = 24). *P ≤ 0.05 and **P ≤ 0.01, by ANOVA.