Sialylation of TLR2 initiates osteoclast fusion

The molecular control of osteoclast formation is still not clearly elucidated. Here, we show that a process of cell recognition mediated by Siglec15-TLR2 binding is indispensable and occurs prior to cell fusion in RANKL-mediated osteoclastogenesis. Siglec15 has been shown to regulate osteoclastic bone resorption. However, the receptor for Siglec15 has not been identified, and the signaling mechanism involving Siglec15 in osteoclast function remains unclear. We found that Siglec15 bound sialylated TLR2 as its receptor and that the binding of sialylated TLR2 to Siglec15 in macrophages committed to the osteoclast-lineage initiated cell fusion for osteoclast formation, in which sialic acid was transferred by the sialyltransferase ST3Gal1. Interestingly, the expression of Siglec15 in macrophages was activated by M-CSF, whereas ST3Gal1 expression was induced by RANKL. Both Siglec15-specific deletion in macrophages and intrafemoral injection of sialidase abrogated cell recognition and reduced subsequent cell fusion for the formation of osteoclasts, resulting in increased bone formation in mice. Thus, our results reveal that cell recognition mediated by the binding of sialylated TLR2 to Siglec15 initiates cell fusion for osteoclast formation.

Automated summary

The process of cell recognition mediated by Siglec15-TLR2 binding is essential for osteoclast formation and occurs before cell fusion in RANKL-mediated osteoclastogenesis. The binding of sialylated TLR2 to Siglec15 initiates cell fusion, and the expression of Siglec15 is activated by M-CSF while ST3Gal1 expression is induced by RANKL. Deletion of Siglec15 or inhibition of sialylation abrogates cell recognition and reduces osteoclast formation.