P148 CCN3-derived peptides as anti-fibrotic therapies for systemic sclerosis

Abstract

Abstract Background/Aims Effective therapy for skin fibrosis in scleroderma (systemic sclerosis: SSc) remains an unmet clinical challenge. Persistently activated M2 macrophages are believed to stimulate myofibroblasts in the disease microenvironment creating a pro-fibrotic niche in the skin. Expression of the anti-fibrotic matricellular protein CCN3 is reduced in animal models of fibrosis. We have identified a small peptide based on an amino acid sequence in CCN3, BLR-200, which mimics the anti-fibrotic activity of CCN3, and propose that BLR-200 could be used to treat patients in whom lack of CCN3 activity is permissive for fibrosis. However, whether there is lack of CCN3 activity in SSc and whether BLR-200 has effective anti-fibrotic activity in SSc are unknown. Methods We used ELISAs (R&D Systems) to detect CCN3 and the M2 macrophage marker CD206 in the serum of scleroderma patients with early stage diffuse subset disease (within two years of disease onset), those with late-stage diffuse subset disease (over five years duration) as well as healthy controls (all n = 20). The bleomycin-induced mouse model of skin scleroderma, in which bleomycin is injected subcutaneously every day for 21 days, was used to assess the antifibrotic ability of BLR200 in vivo. Results In scleroderma serum, CCN3 was significantly reduced, relative to matched healthy controls and patients with inactive disease, in early onset scleroderma patients with active disease that show elevated CD206 levels (p < 0.01). In the mouse model of human SSc, compared to injection with a scrambled control peptide and relative to control mice treated with phosphate buffered saline, injection with BLR-200 prevented bleomycin-induced changes in collagen deposition, myofibroblast differentiation and skin thickness as measured by Trichrome stain, indirect immunofluorescence analysis with an anti-a-smooth muscle actin antibody, and morphometric analysis, respectively (N = 8 mice per group, p < 0.05). Similarly, RNA sequencing and real-time polymerase chain reaction analysis revealed that BLR-200 significantly impaired the ability of bleomycin to induce expression of fibrogenic genes such as: integrin alpha 11, CCN2, CCN1, Smad3, wnt4, YAP1 and tenascin-C (all N = 5, p < 0.05). Spatial transcriptomics analysis revealed that BLR-200 impaired bleomycin-induced alterations in skin cell populations, including the activation and expansion of epithelial and reticular fibroblast niches and the induction of Wnt, hippo, focal adhesion and actin cytoskeleton gene expression cluster, all of which are known to be activators of fibrosis and myofibroblast activation and persistence. Conclusion CCN3 expression is reduced in serum of scleroderma patients with active skin disease that show M2 macrophage activation as visualized by elevated CD206 levels. Since BLR-200 has antifibrotic activity in the bleomycin model of skin scleroderma, our data are consistent with the hypothesis that BLR-200 could be used to block fibrosis progression in early onset diffuse scleroderma patients who possess both low CCN3 and high CD206 in serum. Disclosure J. Nguyen: None. K. Zestranjyan: None. S. Xu: None. B.L. Riser: Corporate appointments; CEO of BLR Bio. R.J. Stratton: None. A. Leask: None.