Communications Biology (Nov 2023)

IL-1β-mediated adaptive reprogramming of endogenous human cardiac fibroblasts to cells with immune features during fibrotic remodeling

  • Jamila H. Siamwala,
  • Francesco S. Pagano,
  • Patrycja M. Dubielecka,
  • Malina J. Ivey,
  • Jose Pedro Guirao-Abad,
  • Alexander Zhao,
  • Sonja Chen,
  • Haley Granston,
  • Jae Yun Jeong,
  • Sharon Rounds,
  • Onur Kanisicak,
  • Sakthivel Sadayappan,
  • Richard J. Gilbert

DOI
https://doi.org/10.1038/s42003-023-05463-0
Journal volume & issue
Vol. 6, no. 1
pp. 1 – 21

Abstract

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Abstract The source and roles of fibroblasts and T-cells during maladaptive remodeling and myocardial fibrosis in the setting of pulmonary arterial hypertension (PAH) have been long debated. We demonstrate, using single-cell mass cytometry, a subpopulation of endogenous human cardiac fibroblasts expressing increased levels of CD4, a helper T-cell marker, in addition to myofibroblast markers distributed in human fibrotic RV tissue, interstitial and perivascular lesions in SUGEN/Hypoxia (SuHx) rats, and fibroblasts labeled with pdgfrα CreERt2/+ in R26R-tdTomato mice. Recombinant IL-1β increases IL-1R, CCR2 receptor expression, modifies the secretome, and differentiates cardiac fibroblasts to form CD68-positive cell clusters. IL-1β also activates stemness markers, such as NANOG and SOX2, and genes involved in dedifferentiation, lymphoid cell function and metabolic reprogramming. IL-1β induction of lineage traced primary mouse cardiac fibroblasts causes these cells to lose their fibroblast identity and acquire an immune phenotype. Our results identify IL-1β induced immune-competency in human cardiac fibroblasts and suggest that fibroblast secretome modulation may constitute a therapeutic approach to PAH and other diseases typified by inflammation and fibrotic remodeling.