Resolving the fibrotic niche of human liver cirrhosis at single-cell level

Prakash Ramachandran , Ross Dobie , John R. Wilson‐Kanamori , Prakash Ramachandran , Ross Dobie , John R. Wilson‐Kanamori , Elena Dorà , Beth E. P. Henderson , N. Thin Luu , Jordan R. Portman , Kylie P. Matchett , Madara Brice , John A. Marwick , Richard S. Taylor , Mirjana Efremova , Roser Vento‐Tormo , Neil O. Carragher , Timothy J. Kendall , Jonathan Fallowfield , Ewen M Harrison , Damian J. Mole , Stephen J. Wigmore , Philip N. Newsome , Chris J. Weston , John P. Iredale , Frank Tacke , Jeffrey W. Pollard , Chris P. Ponting , John C. Marioni , Sarah A. Teichmann , Neil C. Henderson
2019 Nature 1,543 citations

Abstract

Liver cirrhosis is a major cause of death worldwide and is characterized by extensive fibrosis. There are currently no effective antifibrotic therapies available. To obtain a better understanding of the cellular and molecular mechanisms involved in disease pathogenesis and enable the discovery of therapeutic targets, here we profile the transcriptomes of more than 100,000 single human cells, yielding molecular definitions for non-parenchymal cell types that are found in healthy and cirrhotic human liver. We identify a scar-associated TREM2+CD9+ subpopulation of macrophages, which expands in liver fibrosis, differentiates from circulating monocytes and is pro-fibrogenic. We also define ACKR1+ and PLVAP+ endothelial cells that expand in cirrhosis, are topographically restricted to the fibrotic niche and enhance the transmigration of leucocytes. Multi-lineage modelling of ligand and receptor interactions between the scar-associated macrophages, endothelial cells and PDGFRα+ collagen-producing mesenchymal cells reveals intra-scar activity of several pro-fibrogenic pathways including TNFRSF12A, PDGFR and NOTCH signalling. Our work dissects unanticipated aspects of the cellular and molecular basis of human organ fibrosis at a single-cell level, and provides a conceptual framework for the discovery of rational therapeutic targets in liver cirrhosis. Single-cell RNA sequencing is used to characterize and compare the functional diversity of cells from liver biopsies of human scarred and normal liver, and identifies markers for scar-associated macrophages and endothelial cells.

Keywords

CirrhosisFibrosisMesenchymal stem cellBiologyCancer researchHepatic stellate cellCell typeCellMedicinePathologyCell biologyInternal medicine

MeSH Terms

AnimalsCase-Control StudiesCell LineageDuffy Blood-Group SystemEndothelial CellsFemaleHepatic Stellate CellsHepatocytesHumansLiverLiver CirrhosisMacrophagesMaleMembrane GlycoproteinsMembrane ProteinsMicePhenotypeReceptorPlatelet-Derived Growth Factor alphaReceptorsCell SurfaceReceptorsImmunologicSingle-Cell AnalysisTetraspanin 29TranscriptomeTransendothelial and Transepithelial Migration

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Publication Info

Year
2019
Type
article
Volume
575
Issue
7783
Pages
512-518
Citations
1543
Access
Closed

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Prakash Ramachandran, Ross Dobie, John R. Wilson‐Kanamori et al. (2019). Resolving the fibrotic niche of human liver cirrhosis at single-cell level. Nature , 575 (7783) , 512-518. https://doi.org/10.1038/s41586-019-1631-3

Identifiers

DOI
10.1038/s41586-019-1631-3
PMID
31597160
PMCID
PMC6876711

Data Quality

Data completeness: 86%