Genome Biology (Sep 2023)

DISCERN: deep single-cell expression reconstruction for improved cell clustering and cell subtype and state detection

  • Fabian Hausmann,
  • Can Ergen,
  • Robin Khatri,
  • Mohamed Marouf,
  • Sonja Hänzelmann,
  • Nicola Gagliani,
  • Samuel Huber,
  • Pierre Machart,
  • Stefan Bonn

DOI
https://doi.org/10.1186/s13059-023-03049-x
Journal volume & issue
Vol. 24, no. 1
pp. 1 – 40

Abstract

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Abstract Background Single-cell sequencing provides detailed insights into biological processes including cell differentiation and identity. While providing deep cell-specific information, the method suffers from technical constraints, most notably a limited number of expressed genes per cell, which leads to suboptimal clustering and cell type identification. Results Here, we present DISCERN, a novel deep generative network that precisely reconstructs missing single-cell gene expression using a reference dataset. DISCERN outperforms competing algorithms in expression inference resulting in greatly improved cell clustering, cell type and activity detection, and insights into the cellular regulation of disease. We show that DISCERN is robust against differences between batches and is able to keep biological differences between batches, which is a common problem for imputation and batch correction algorithms. We use DISCERN to detect two unseen COVID-19-associated T cell types, cytotoxic CD4+ and CD8+ Tc2 T helper cells, with a potential role in adverse disease outcome. We utilize T cell fraction information of patient blood to classify mild or severe COVID-19 with an AUROC of 80% that can serve as a biomarker of disease stage. DISCERN can be easily integrated into existing single-cell sequencing workflow. Conclusions Thus, DISCERN is a flexible tool for reconstructing missing single-cell gene expression using a reference dataset and can easily be applied to a variety of data sets yielding novel insights, e.g., into disease mechanisms.

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