Recombinant Adenosine Deaminase Ameliorates Inflammation, Vascular Disease, and Fibrosis in Preclinical Models of Systemic Sclerosis

Objective Systemic sclerosis ( SS c) is characterized by fibrosis, vascular disease, and inflammation. Adenosine signaling plays a central role in fibroblast activation. We undertook this study to evaluate the therapeutic effects of adenosine depletion with PEG ylated adenosine deaminase ( PEG ‐ ADA ) in preclinical models of SS c. Methods The effects of PEG ‐ ADA on inflammation, vascular remodeling, and tissue fibrosis were analyzed in Fra‐2 mice and in a B10.D2→ BALB /c (H‐2 d ) model of sclerodermatous chronic graft‐versus‐host disease ( GVHD ). The effects of PEG ‐ ADA were confirmed in vitro in a human full‐thickness skin model. Results PEG ‐ ADA effectively inhibited myofibroblast differentiation and reduced pulmonary fibrosis by 34.3% (with decreased collagen expression) ( P = 0.0079; n = 6), dermal fibrosis by 51.8% ( P = 0.0006; n = 6), and intestinal fibrosis by 17.7% ( P = 0.0228; n = 6) in Fra‐2 mice. Antifibrotic effects of PEG ‐ ADA were also demonstrated in sclerodermatous chronic GVHD (reduced by 38.4%) ( P = 0.0063; n = 8), and in a human full‐thickness skin model. PEG ‐ ADA treatment decreased inflammation and corrected the M2/Th2/group 2 innate lymphoid cell 2 bias. Moreover, PEG ‐ ADA inhibited proliferation of pulmonary vascular smooth muscle cells (reduced by 40.5%) ( P < 0.0001; n = 6), and prevented thickening of the vessel walls (reduced by 39.6%) ( P = 0.0028; n = 6) and occlusions of pulmonary arteries (reduced by 63.9%) ( P = 0.0147; n = 6). Treatment with PEG ‐ ADA inhibited apoptosis of microvascular endothelial cells (reduced by 65.4%) ( P = 0.0001; n = 6) and blunted the capillary rarefication (reduced by 32.5%) ( P = 0.0199; n = 6). RNA sequencing demonstrated that treatment with PEG ‐ ADA normalized multiple pathways related to fibrosis, vasculopathy, and inflammation in Fra‐2 mice. Conclusion Treatment with PEG ‐ ADA ameliorates the 3 cardinal features of SS c in pharmacologically relevant and well‐tolerated doses. These findings may have direct translational implications, as PEG ‐ ADA has already been approved by the Food and Drug Administration for the treatment of patients with ADA ‐deficient severe combined immunodeficiency disease.