Unique and shared transcriptomic signatures underlying localized scleroderma pathogenesis identified using interpretable machine learning
Aaron BI Rosen, Anwesha Sanyal, Theresa Hutchins, Giffin Werner, Jacob S. Berkowitz, Tracy Tabib, Robert Lafyatis, Heidi Jacobe, Jishnu Das, Kathryn S. Torok
Aaron BI Rosen, Anwesha Sanyal, Theresa Hutchins, Giffin Werner, Jacob S. Berkowitz, Tracy Tabib, Robert Lafyatis, Heidi Jacobe, Jishnu Das, Kathryn S. Torok
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Research Article Immunology

Unique and shared transcriptomic signatures underlying localized scleroderma pathogenesis identified using interpretable machine learning

Abstract

Using transcriptomic profiling at single-cell resolution, we investigated cell-intrinsic and cell-extrinsic signatures associated with pathogenesis and inflammation-driven fibrosis in both adult and pediatric patients with localized scleroderma (LS). We performed single-cell RNA-Seq on adult and pediatric patients with LS and healthy controls. We then analyzed the single-cell RNA-Seq data using an interpretable factor analysis machine learning framework, significant latent factor interaction discovery and exploration (SLIDE), which moves beyond predictive biomarkers to infer latent factors underlying LS pathophysiology. SLIDE is a recently developed latent factor regression-based framework that comes with rigorous statistical guarantees regarding identifiability of the latent factors, corresponding inference, and FDR control. We found distinct differences in the characteristics and complexity in the molecular signatures between adult and pediatric LS. SLIDE identified cell type–specific determinants of LS associated with age and severity and revealed insights into signaling mechanisms shared between LS and systemic sclerosis (SSc), as well as differences in onset of the disease in the pediatric compared with adult population. Our analyses recapitulate known drivers of LS pathology and identify cellular signaling modules that stratify LS subtypes and define a shared signaling axis with SSc.

Authors

Aaron BI Rosen, Anwesha Sanyal, Theresa Hutchins, Giffin Werner, Jacob S. Berkowitz, Tracy Tabib, Robert Lafyatis, Heidi Jacobe, Jishnu Das, Kathryn S. Torok

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Figure 5

Transcriptomic signatures associated with mLoSSI score in LS.

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Transcriptomic signatures associated with mLoSSI score in LS. (A) SLIDE ...
(A) SLIDE model performance measured by correlation with mLoSSI using k-fold cross-validation. Asterisks indicate Wilcoxon P < 0.001. (B) Latent factors trained to predict mLoSSI score in LS (top) can cross-predict MRSS in SSc (bottom). Plot shows true and predicted scores with P values measured by Spearman correlation. (C) Spearman correlation between latent factor 1 levels and mLoSSI score. (D) Correlation network representation of latent factor 1. Purple and green edges indicate positive and negative correlations, respectively. Triangles indicate genes associated with higher mLoSSI, and squares indicate genes associated with lower mLoSSI. (E) Spearman correlation between latent factor 2 levels and mLoSSI score. (F) Correlation network representation of latent factor 2. Box plots show the interquartile range, median (line), and minimum and maximum (whiskers).