Dominant Negative N-Cadherin Inhibits Osteoclast Differentiation by Interfering With β-Catenin Regulation of RANKL, Independent of Cell-Cell Adhesion

Abstract

We studied the effects of dominant negative N-cadherin (NCadDeltaC) expression in ST2 cells on their ability to support osteoclastogenesis. Expression of NCadDeltaC in ST2 cells did not decrease cell-to-cell adhesion but significantly reduced osteoclast formation when co-cultured with BMMs. NCadDeltaC inhibited beta-catenin/TCF signaling, resulting in decreased RANKL expression, which could contribute to the reduced osteoclast formation. Cadherin is a calcium-dependent cell adhesion molecule that plays major roles during embryonic development and morphogenesis. Classic cadherins interact with beta-catenin, which is also involved in the Wnt signaling pathway. We tested whether disruption of N-cadherin function in stromal cells by dominant negative N-cadherin affects their ability to support osteoclastogenesis by altering heterotypic interaction with osteoclast precursors. ST2 cells were transduced with retrovirus encoding extracellular domain-truncated, dominant negative N-cadherin (NCadDeltaC) and co-cultured with bone marrow macrophages (BMMs) to study the ability to support osteoclastogenesis. As a downstream target of NCadDeltaC, beta-catenin/T-cell factor (TCF) transcriptional activity was analyzed using TOPflash reporter construct. Real-time RT-PCR analysis and RANKL-luciferase reporter assays were performed to study the effects of NCadDeltaC on the osteoprotegerin (OPG)/RANKL system. Immunoblotting analysis showed that primary bone marrow stromal cells, ST2 cells, and BMMs expressed N-cadherin. Retroviral expression of NCadDeltaC in ST2 cells did not significantly inhibit cell adhesion but markedly impaired the formation of TRACP(+) osteoclasts (>40%) when co-cultured with BMMs. However, the inhibition of osteoclastogenesis was not reproduced by neutralizing antibody against N-cadherin. Expression of NCadDeltaC, however, strongly suppressed beta-catenin/TCF transcriptional activity in ST2 cells, which was rescued by constitutively active beta-catenin adenovirus (Ad DeltaN46 beta-catenin) or constitutively active TCF mutant (pCS2-VP16DeltabetaXTCF-3). As a potential downstream target of Wnt signaling, we found that the expression of RANKL was reduced in ST2 cells expressing NCadDeltaC. Moreover, Wnt-3A, Ad DeltaN46 beta-catenin, and VP16DeltabetaXTCF-3 increased the expression of RANKL and enhanced the transcriptional activity of mouse RANKL promoter in ST2 cells. Our data suggest that expression of dominant negative N-cadherin in ST2 cells suppressed osteoclastogenesis by interfering with beta-catenin regulation of RANKL independent of cell-cell adhesion.