Cardiac pericytes mediate the remodeling response to myocardial infarction
Pearl Quijada, … , Eric M. Small, Reza Ardehali
Pearl Quijada, … , Eric M. Small, Reza Ardehali
Published May 15, 2023
Citation Information: J Clin Invest. 2023;133(10):e162188. https://doi.org/10.1172/JCI162188.
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Research Article Cardiology Vascular biology

Cardiac pericytes mediate the remodeling response to myocardial infarction

Abstract

Despite the prevalence of pericytes in the microvasculature of the heart, their role during ischemia-induced remodeling remains unclear. We used multiple lineage-tracing mouse models and found that pericytes migrated to the injury site and expressed profibrotic genes, coinciding with increased vessel leakage after myocardial infarction (MI). Single-cell RNA-Seq of cardiac pericytes at various time points after MI revealed the temporally regulated induction of genes related to vascular permeability, extracellular matrix production, basement membrane degradation, and TGF-β signaling. Deleting TGF-β receptor 1 in chondroitin sulfate proteoglycan 4–expressing (Cspg4-expressing) cells reduced fibrosis following MI, leading to a transient improvement in the cardiac ejection fraction. Furthermore, genetic ablation of Cspg4-expressing cells resulted in excessive vascular permeability, a decline in cardiac function, and increased mortality in the second week after MI. These data reveal an essential role for cardiac pericytes in the control of vascular homeostasis and the fibrotic response after acute ischemic injury, information that will help guide the development of novel strategies to preserve vascular integrity and attenuate pathological cardiac remodeling.

Authors

Pearl Quijada, Shuin Park, Peng Zhao, Kamal S.S. Kolluri, David Wong, Kevin D. Shih, Kai Fang, Arash Pezhouman, Lingjun Wang, Ali Daraei, Matthew D. Tran, Elle M. Rathbun, Kimberly N. Burgos Villar, Maria L. Garcia-Hernandez, Thanh T.D. Pham, Charles J. Lowenstein, M. Luisa Iruela-Arispe, S. Thomas Carmichael, Eric M. Small, Reza Ardehali

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Figure 1

Cspg4+ cardiac pericytes express Col1a1 after MI.

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Cspg4+ cardiac pericytes express Col1a1 after MI. (A) DsRed+ cells (red...
(A) DsRed+ cells (red) in Cspg4DsRed/+ hearts expressed the pericyte markers CD146, PDGFRβ, and Notch3 (markers are shown in green). Images are representative of 3 experiments. (B) Pericyte marker genes were highly expressed in DsRed+ cells isolated by FACS compared with expression in whole, unsorted heart samples. n = 4 hearts. (C) DsRed+ pericytes were closely associated with isolectin+ vasculature in healthy Cspg4DsRed/+ hearts. Images are representative of 3 experiments. (D) Experimental strategy for the generation of Cspg4DsRed/+ Col1a1GFP/+ double-transgenic mice. (E) The percentage of DsRed+ pericytes that coexpressed GFP in Cspg4DsRed/+ Col1a1GFP/+ hearts increased in the left ventricle (LV) seven days after MI compared with sham-operated control hearts. n =3 sham and n = 4 MI hearts. An unpaired, 2-tailed Student’s t test was conducted to compare sham and 7-day post-MI (7dMI) hearts (rest and LV). (F) DsRed+GFP+ cells were observed in the BZ and infarct areas in Cspg4DsRed/+ Col1a1GFP/+ hearts. Arrowheads indicate DsRed+ cells with low GFP expression, and arrows represent DsRed+ cells with high expression of GFP. Images are representative of 3 sham and 4 MI experiments. (G) Relative gene expression in DsRed+ cells collected by FACS and analyzed following RT-qPCR. n = 3 sham and n = 4 MI hearts. An unpaired, 2-tailed Student’s t test was conducted to compare sham and 7dMI samples for each gene. Scale bars: 20 μm. *P < 0.05, **P < 0.01, and ****P < 0.0001.