1816: Single-Cell RNA-Transcriptomics of JDM Skin Identifies JDM-Associated Immune Cell Populations and Dysregulated Interferon Signaling in Immune and Endothelial Cells

Background/Purpose: Juvenile dermatomyositis (JDM) is the most common idiopathic inflammatory myopathy in children. JDM often presents with rash, and skin inflammation is more refractory to treatment compared to muscle inflammation. Treatments are limited due to incomplete understanding of disease pathogenesis, including under-explored analysis of the cellular composition of lesional skin, exacerbated by a lack of access to pediatric tissue. Therefore, we assembled a cohort of archival JDM skin biopsies and performed single-nuclei RNA-sequencing for an unbiased analysis of skin-specific cellular and transcriptomic drivers of JDM.

Methods: Single nuclei RNA was isolated from formalin-fixed paraffin-embedded (FFPE) skin biopsies using the 10X Genomics Flex platform; the cohort included patients with JDM (n=12) and controls (CTL, n=4). All JDM patients met 2017 EULAR/ACR classification criteria, and 11/12 were treatment-naïve at sampling. We used SoupX to remove ambient RNA, and DoubletFinder to remove doublets. We performed UMAP dimensionality reduction and Louvain clustering with Seurat. Cell clusters were annotated using published cell type-specific marker genes. Analysis of differentially expressed genes (DEG) was performed using Model-based Analysis of Single-cell Transcriptomics. Cell type abundance between JDM and CTL was analyzed with Milo and the Wilcoxon rank sum test. Gene set scores were calculated using the Seurat AddModuleScore() function. Given clinical differences between skin and muscle inflammation in JDM, we compared our skin data to a single-nuclear RNA-sequencing dataset from JDM (n=6) and control (n=7) muscle biopsy samples.

Results: From the 91,216 cells analyzed, we identified 14 major cell types (Fig 1a,b) and 20 unique cell clusters (Fig 1c). JDM samples showed increased abundance of immune cells compared to CTL (Fig 2a,b). Analysis of cellular neighborhoods also identified subsets of neighborhoods with consistently higher abundance of JDM in immune cell types (Fig 2c,d). Keratinocytes, melanocytes, endothelial cells, and macrophages showed the highest number of differentially expressed genes (Fig 3a). In all skin cell types, JDM samples had higher average expression of Interferon (IFN)-response genes (IRG) compared to CTL (Fig 3b). Endothelial cells showed the highest median IRG set expression in both JDM skin (Fib 3b) and muscle (Fig 3c), with many IRG demonstrating differential expression in both skin and muscle endothelial cells (Fig 3d,e).

Conclusion: Single cell skin transcriptomics in JDM highlights dysregulated immune and endothelial cell populations contributing to disease pathogenesis. Altered IFN is a hallmark of JDM skin tissue, with macrophages, melanocytes, and endothelial cells exhibiting the highest levels of IRG expression. While all cell types show high IRG expression in JDM, endothelial cells exhibit the highest median IRG expression in both muscle and skin. This unique single-cell atlas of JDM skin will generate critical hypotheses for investigating cellular mechanisms of JDM rash and vasculopathy and for identifying targeted therapies.