Temporal transcriptomic analysis using TrendCatcher identifies early and persistent neutrophil activation in severe COVID-19
Xinge Wang, Mark A. Sanborn, Yang Dai, Jalees Rehman
Xinge Wang, Mark A. Sanborn, Yang Dai, Jalees Rehman
View: Text | PDF
Resource and Technical Advance COVID-19 Cell biology Immunology

Temporal transcriptomic analysis using TrendCatcher identifies early and persistent neutrophil activation in severe COVID-19

Abstract

Studying temporal gene expression shifts during disease progression provides important insights into the biological mechanisms that distinguish adaptive and maladaptive responses. Existing tools for the analysis of time course transcriptomic data are not designed to optimally identify distinct temporal patterns when analyzing dynamic differentially expressed genes (DDEGs). Moreover, there are not enough methods to assess and visualize the temporal progression of biological pathways mapped from time course transcriptomic data sets. In this study, we developed an open-source R package TrendCatcher (https://github.com/jaleesr/TrendCatcher), which applies the smoothing spline ANOVA model and break point searching strategy, to identify and visualize distinct dynamic transcriptional gene signatures and biological processes from longitudinal data sets. We used TrendCatcher to perform a systematic temporal analysis of COVID-19 peripheral blood transcriptomes, including bulk and single-cell RNA-Seq time course data. TrendCatcher uncovered the early and persistent activation of neutrophils and coagulation pathways, as well as impaired type I IFN (IFN-I) signaling in circulating cells as a hallmark of patients who progressed to severe COVID-19, whereas no such patterns were identified in individuals receiving SARS-CoV-2 vaccinations or patients with mild COVID-19. These results underscore the importance of systematic temporal analysis to identify early biomarkers and possible pathogenic therapeutic targets.

Authors

Xinge Wang, Mark A. Sanborn, Yang Dai, Jalees Rehman

×

Figure 3

Cell type–specific dynamic gene expression in peripheral blood mononuclear cells following SARS-CoV-2 infection in patients.

Options: View larger image (or click on image) Download as PowerPoint
Cell type–specific dynamic gene expression in peripheral blood mononucle...
(A) UMAP visualization of scRNA-Seq PBMC data set (14) with annotated cell types from the original study. (B) TimeHeatmap of top dynamic biological pathway from plasma B cells. Each column represents a time window. Stage 0 represents uninfected baseline. The “%GO” column represents the percentage of DDEGs found in the corresponding pathway. The “nDDEG” column represents number of DDEGs found in the corresponding pathway. The number in each grid represents the Avg_log2FC of gene expressions compared with the previous time window. Color represents the Avg_log2FC of the DDEGs within each time window for the corresponding pathway. (C) Top GO enrichment comparison analysis using DDEGs from each cell type. The x axis represents cell types with the number of DDEGs shown in the brackets; the y axis represents the enriched GO terms; p.adjust represents adjusted P values using Holm-Bonferroni methods; and P values were generated by Fisher’s exact test. Dot size represents gene ratio.