Communications Biology (Jul 2023)

Decreased left heart flow in fetal lambs causes left heart hypoplasia and pro-fibrotic tissue remodeling

  • Miriam S. Reuter,
  • Dustin J. Sokolowski,
  • J. Javier Diaz-Mejia,
  • Johannes Keunen,
  • Barbra de Vrijer,
  • Cadia Chan,
  • Liangxi Wang,
  • Greg Ryan,
  • David A. Chiasson,
  • Troy Ketela,
  • Stephen W. Scherer,
  • Michael D. Wilson,
  • Edgar Jaeggi,
  • Rajiv R. Chaturvedi

DOI
https://doi.org/10.1038/s42003-023-05132-2
Journal volume & issue
Vol. 6, no. 1
pp. 1 – 14

Abstract

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Abstract Low blood flow through the fetal left heart is often conjectured as an etiology for hypoplastic left heart syndrome (HLHS). To investigate if a decrease in left heart flow results in growth failure, we generate left ventricular inflow obstruction (LVIO) in mid-gestation fetal lambs by implanting coils in their left atrium using an ultrasound-guided percutaneous technique. Significant LVIO recapitulates important clinical features of HLHS: decreased antegrade aortic valve flow, compensatory retrograde perfusion of the brain and ascending aorta (AAo) from the arterial duct, severe left heart hypoplasia, a non-apex forming LV, and a thickened endocardial layer. The hypoplastic AAo have miRNA-gene pairs annotating to cell proliferation that are inversely differentially expressed by bulk RNA-seq. Single-nucleus RNA-seq of the hypoplastic LV myocardium shows an increase in fibroblasts with a reciprocal decrease in cardiomyocyte nuclei proportions. Fibroblasts, cardiomyocytes and endothelial cells from hypoplastic myocardium have increased expression of extracellular matrix component or fibrosis genes with dysregulated fibroblast growth factor signaling. Hence, a severe sustained ( ~ 1/3 gestation) reduction in fetal left heart flow is sufficient to cause left heart hypoplasia. This is accompanied by changes in cellular composition and gene expression consistent with a pro-fibrotic environment and aberrant induction of mesenchymal programs.