Cell Reports (Feb 2019)

RNA-Seq Signatures Normalized by mRNA Abundance Allow Absolute Deconvolution of Human Immune Cell Types

  • Gianni Monaco,
  • Bernett Lee,
  • Weili Xu,
  • Seri Mustafah,
  • You Yi Hwang,
  • Christophe Carré,
  • Nicolas Burdin,
  • Lucian Visan,
  • Michele Ceccarelli,
  • Michael Poidinger,
  • Alfred Zippelius,
  • João Pedro de Magalhães,
  • Anis Larbi

Journal volume & issue
Vol. 26, no. 6
pp. 1627 – 1640.e7

Abstract

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Summary: The molecular characterization of immune subsets is important for designing effective strategies to understand and treat diseases. We characterized 29 immune cell types within the peripheral blood mononuclear cell (PBMC) fraction of healthy donors using RNA-seq (RNA sequencing) and flow cytometry. Our dataset was used, first, to identify sets of genes that are specific, are co-expressed, and have housekeeping roles across the 29 cell types. Then, we examined differences in mRNA heterogeneity and mRNA abundance revealing cell type specificity. Last, we performed absolute deconvolution on a suitable set of immune cell types using transcriptomics signatures normalized by mRNA abundance. Absolute deconvolution is ready to use for PBMC transcriptomic data using our Shiny app (https://github.com/giannimonaco/ABIS). We benchmarked different deconvolution and normalization methods and validated the resources in independent cohorts. Our work has research, clinical, and diagnostic value by making it possible to effectively associate observations in bulk transcriptomics data to specific immune subsets. : Monaco et al. generate an RNA-seq dataset on 29 immune cell types and identify modules of cell type-specific, co-expressed, and housekeeping genes. The mRNA heterogeneity and abundance of the different cell types were examined. Absolute deconvolution of PBMCs was obtained by taking into account mRNA abundance when normalizing the signature matrix. Keywords: immune system, flow cytometry, transcriptome, RNA-seq, gene modules, housekeeping, mRNA composition, mRNA abundance, mRNA heterogeneity, deconvolution