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Pansclerotic morphea is characterized by IFN-γ responses priming dendritic cell fibroblast crosstalk to promote fibrosis

Enze Xing, Feiyang Ma, Rachael Wasikowski, Allison C. Billi, Mehrnaz Gharaee‐Kermani, Jennifer Fox, Craig J. Dobry, Amanda Victory, Mrinal K. Sarkar, Xianying Xing, Olesya Plazyo, Henry W. Chen, Grant Barber, Heidi Jacobe, Pei‐Suen Tsou, Robert L. Modlin, John Varga, J. Michelle Kahlenberg, Lam C. Tsoi, Jóhann E. Guðjónsson, Dinesh Khanna

2023JCI Insight24 citationsDOIOpen Access PDF

Abstract

Pansclerotic morphea (PSM) is a rare, devastating disease characterized by extensive soft tissue fibrosis, secondary contractions, and significant morbidity. PSM pathogenesis is unknown, and aggressive immunosuppressive treatments rarely slow disease progression. We aimed to characterize molecular mechanisms driving PSM and to identify therapeutically targetable pathways by performing single-cell and spatial RNA-Seq on 7 healthy controls and on lesional and nonlesional skin biopsies of a patient with PSM 12 months apart. We then validated our findings using immunostaining and in vitro approaches. Fibrotic skin was characterized by prominent type II IFN response, accompanied by infiltrating myeloid cells, B cells, and T cells, which were the main IFN-γ source. We identified unique CXCL9+ fibroblasts enriched in PSM, characterized by increased chemokine expression, including CXCL9, CXCL10, and CCL2. CXCL9+ fibroblasts were related to profibrotic COL8A1+ myofibroblasts, which had enriched TGF-β response. In vitro, TGF-β and IFN-γ synergistically increased CXCL9 and CXCL10 expression, contributing to the perpetuation of IFN-γ responses. Furthermore, cell-to-cell interaction analyses revealed cDC2B DCs as a key communication hub between CXCL9+ fibroblasts and COL8A1+ myofibroblasts. These results define PSM as an inflammation-driven condition centered on type II IFN responses. This work identified key pathogenic circuits between T cells, cDC2Bs, and myofibroblasts, and it suggests that JAK1/2 inhibition is a potential therapeutic option in PSM.

Topics & Concepts

MyofibroblastCXCL10FibrosisChemokineCXCL9FibroblastImmunologyInflammationCancer researchBiologyMedicineIn vitroPathologyBiochemistrySystemic Sclerosis and Related DiseasesAutoimmune Bullous Skin DiseasesInflammatory Myopathies and Dermatomyositis
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