Frontiers in Immunology (Feb 2024)

Comparison of the single-cell and single-nucleus hepatic myeloid landscape within decompensated cirrhosis patients

  • Lukas Van Melkebeke,
  • Lukas Van Melkebeke,
  • Jef Verbeek,
  • Jef Verbeek,
  • Dora Bihary,
  • Dora Bihary,
  • Markus Boesch,
  • Bram Boeckx,
  • Bram Boeckx,
  • Rita Feio-Azevedo,
  • Lena Smets,
  • Marie Wallays,
  • Eveline Claus,
  • Lawrence Bonne,
  • Geert Maleux,
  • Olivier Govaere,
  • Hannelie Korf,
  • Diether Lambrechts,
  • Diether Lambrechts,
  • Schalk van der Merwe,
  • Schalk van der Merwe

DOI
https://doi.org/10.3389/fimmu.2024.1346520
Journal volume & issue
Vol. 15

Abstract

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Background and aimsA complete understanding of disease pathophysiology in advanced liver disease is hampered by the challenges posed by clinical specimen collection. Notably, in these patients, a transjugular liver biopsy (TJB) is the only safe way to obtain liver tissue. However, it remains unclear whether successful sequencing of this extremely small and fragile tissue can be achieved for downstream characterization of the hepatic landscape.MethodsHere we leveraged in-house available single-cell RNA-sequencing (scRNA-seq) and single-nucleus (snRNA-seq) technologies and accompanying tissue processing protocols and performed an in-patient comparison on TJB’s from decompensated cirrhosis patients (n = 3).ResultsWe confirmed a high concordance between nuclear and whole cell transcriptomes and captured 31,410 single nuclei and 6,152 single cells, respectively. The two platforms revealed similar diversity since all 8 major cell types could be identified, albeit with different cellular proportions thereof. Most importantly, hepatocytes were most abundant in snRNA-seq, while lymphocyte frequencies were elevated in scRNA-seq. We next focused our attention on hepatic myeloid cells due to their key role in injury and repair during chronic liver disease. Comparison of their transcriptional signatures indicated that these were largely overlapping between the two platforms. However, the scRNA-seq platform failed to recover sufficient Kupffer cell numbers, and other monocytes/macrophages featured elevated expression of stress-related parameters.ConclusionOur results indicate that single-nucleus transcriptome sequencing provides an effective means to overcome complications associated with clinical specimen collection and could sufficiently profile all major hepatic cell types including all myeloid cell subsets.

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