Effect of matrix metallopeptidase 13 (MMP13) on multiple myeloma (MM) cells, osteoclast (OCL) activity, and bone resorption.

Abstract

8099 Background: MM cells produce OCL-activating factors that induce excessive bone resorption resulting in lytic lesions. The role of MMPs in invasion/progression of solid tumors is well-known, but its function in MM has not been well elucidated. Our group has shown that MMP13 is highly expressed in primary MM cells and in sera of MM patients. Levels of MMP13 significantly correlate with the extent of bone disease. MMP13 is induced by IL-6 via AP-1 activation in MM cells and enhances fusion of OCL precursors resulting in excessive bone resorption. OCL formation using MNCs of mmp-13-/- mice resulted in a fusion defect, significantly decreased OCL size and activity, which could be reversed by exogenous MMP13 (ASH 2009, IMW 2011). Methods: Methods will be presented in the Results section. Results: RT-PCR and western blotting revealed that IL-6 treatment of MM cells induced MMP13 transcription (30-fold) and secretion (>1000-fold). Protein expression of the AP-1 members c-Jun and c-Fos was induced by IL-6, which correlated with MMP13 upregulation. Our data further indicate that the catalytic activity of MMP13 is not required to enhance OCL formation and bone resorption. To prove this, we generated the MMP13 activity-dead mutation MMP13-E223A construct by site-directed mutagenesis PCR-based cloning. The mutated protein was overexpressed in HEK293 cells and purified from the supernatant to confirm whether loss of catalytic activity blocks MMP13 function. To further investigate the in vivo role of MMP13 in MM bone disease, MMP13 expression was knocked down (KD) in murine 5TGM1-MM cells by pKLO. 1 puro lentiviral infection containing sh-RNA targeting mouse MMP13 sequence. MMP13-KD 5TGM1-MM cells or WT-5TGM1-MM cells were intratibially injected into RAG2-/- mice. Development of lytic bone lesions are monitored by micro-QCT and data will be available at the time of presentation. Conclusions: Our data suggest that MMP13, secreted by MM cells, plays a critical role in the development of lytic lesions. Targeting MMP13 represents a promising approach to treat or to prevent bone disease in MM.