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Mapping the cardiac vascular niche in heart failure

Author

Listed:
  • Fabian Peisker

    (RWTH Aachen University Medical Faculty)

  • Maurice Halder

    (RWTH Aachen University Medical Faculty)

  • James Nagai

    (RWTH Aachen University Hospital
    RWTH Aachen University Hospital)

  • Susanne Ziegler

    (RWTH Aachen University Medical Faculty)

  • Nadine Kaesler

    (RWTH Aachen University Medical Faculty
    RWTH Aachen University Medical Faculty)

  • Konrad Hoeft

    (RWTH Aachen University Medical Faculty)

  • Ronghui Li

    (RWTH Aachen University Hospital
    RWTH Aachen University Hospital)

  • Eric M. J. Bindels

    (Erasmus MC Cancer Institute)

  • Christoph Kuppe

    (RWTH Aachen University Medical Faculty)

  • Julia Moellmann

    (RWTH Aachen University Hospital)

  • Michael Lehrke

    (RWTH Aachen University Hospital)

  • Christian Stoppe

    (University Hospital Wuerzburg)

  • Michael T. Schaub

    (RWTH Aachen University)

  • Rebekka K. Schneider

    (RWTH Aachen University Hospital)

  • Ivan Costa

    (RWTH Aachen University Hospital
    RWTH Aachen University Hospital)

  • Rafael Kramann

    (RWTH Aachen University Medical Faculty
    RWTH Aachen University Hospital
    Nephrology and Transplantation, Erasmus Medical Center)

Abstract

The cardiac vascular and perivascular niche are of major importance in homeostasis and during disease, but we lack a complete understanding of its cellular heterogeneity and alteration in response to injury as a major driver of heart failure. Using combined genetic fate tracing with confocal imaging and single-cell RNA sequencing of this niche in homeostasis and during heart failure, we unravel cell type specific transcriptomic changes in fibroblast, endothelial, pericyte and vascular smooth muscle cell subtypes. We characterize a specific fibroblast subpopulation that exists during homeostasis, acquires Thbs4 expression and expands after injury driving cardiac fibrosis, and identify the transcription factor TEAD1 as a regulator of fibroblast activation. Endothelial cells display a proliferative response after injury, which is not sustained in later remodeling, together with transcriptional changes related to hypoxia, angiogenesis, and migration. Collectively, our data provides an extensive resource of transcriptomic changes in the vascular niche in hypertrophic cardiac remodeling.

Suggested Citation

  • Fabian Peisker & Maurice Halder & James Nagai & Susanne Ziegler & Nadine Kaesler & Konrad Hoeft & Ronghui Li & Eric M. J. Bindels & Christoph Kuppe & Julia Moellmann & Michael Lehrke & Christian Stopp, 2022. "Mapping the cardiac vascular niche in heart failure," Nature Communications, Nature, vol. 13(1), pages 1-20, December.
    • Handle: RePEc:nat:natcom:v:13:y:2022:i:1:d:10.1038_s41467-022-30682-0
    DOI: 10.1038/s41467-022-30682-0
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    2. Campbell, Travis, 2024. "Black Lives Matter’s effect on police lethal use of force," Journal of Urban Economics, Elsevier, vol. 141(C).

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