Fasciola helminth defense molecule-1 protects against experimental arthritis by inhibiting osteoclast formation and function without modulating the systemic immune response.

An inverse correlation between helminth infection and the autoimmune disease appears to be contributed by the anti-inflammatory factors produced by these organisms. Suppressing osteoclast function without affecting the systemic immunological response is an emerging therapeutic strategy for rheumatoid arthritis (RA). We observed that a synthetic peptide corresponding to 34 amino acids of C-terminal sequence of Fasciola helminth defense molecule-1 (C-FhHDM-1) inhibited RANKL-induced osteoclast formation and lysosomal acidification with an attendant upregulation of sequestome1/p62, a negative regulator of NF-κB expression. C-FhHDM-1 also suppressed RANKL production from osteoblasts. Macrophages are the major inflammatory cells in the joints of RA and C-FhHDM-1 suppressed ICAM-1 (an inflammatory surrogate) expression in these cells. In a murine model of collagen II-induced arthritis (CIA), C-FhHDM-1 improved clinical score, protected against cartilage destruction, and maintained bone mass and bone architecture of joints compared with the CIA group. C-FhHDM-1 suppressed the CIA-induced expression of TNF, IL-17, and IFN-γ in joints but not their serum levels. The peptide also had no effect on the CIA-induced suppression of T regulatory response. We conclude that C-FhHDM-1 has a joint-specific protective effect in experimental arthritis without mitigating systemic inflammation, and thus could become an adjuvant anti-arthritis therapy to prevent RA-induced osteopenia.