R-spondin 1 protects against inflammatory bone damage during murine arthritis by modulating the Wnt pathway.

Objective: During the course of different musculoskeletal diseases, joints are progressively damaged by inflammatory, infectious, or mechanical stressors, leading to joint destruction and disability. While effective strategies to inhibit joint inflammation, such as targeted cytokine-blocking therapy, have been developed during the last decade, the molecular mechanisms of joint damage are still poorly understood. This study was undertaken to investigate the role of the Wnt pathway modulator R-Spondin 1 (RSpo1) in protecting bone and cartilage in a mouse model of arthritis.

R-Spondin1 regulates Wnt signaling by inhibiting internalization of LRP6.

The R-Spondin (RSpo) family of secreted proteins act as potent activators of the Wnt/beta-catenin signaling pathway. We have previously shown that RSpo proteins can induce proliferative effects on the gastrointestinal epithelium in mice. Here we provide a mechanism whereby RSpo1 regulates cellular responsiveness to Wnt ligands by modulating the cell-surface levels of the coreceptor LRP6.

R-Spondin proteins: a novel link to beta-catenin activation.

The R-spondin (Rspo) protein family is a recently described group of four distinct human secreted proteins. Reported activities for Rspo proteins include essential roles in vertebrate development and their ligand-type activities overlap substantially with those of the canonical Wnt ligands in that both Rspo and canonical Wnt signaling result in the activation of beta-catenin. In a general functional screen for human secreted proteins using transgenic mouse models, we identified human R-spondin1 (hRspo1) protein as a potent and specific mitogen for the gastrointestinal epithelium and demonstrated a potential therapeutic application for the protein in mouse models of cancer therapy-induced mucositis.