Neonatal hyperoxia inhibits proliferation and survival of atrial cardiomyocytes by suppressing fatty acid synthesis
Ethan David Cohen, … , Gloria S. Pryhuber, Michael A. O’Reilly
Ethan David Cohen, … , Gloria S. Pryhuber, Michael A. O’Reilly
Published January 28, 2021
Citation Information: JCI Insight. 2021;6(5):e140785. https://doi.org/10.1172/jci.insight.140785.
View: Text | PDF
Research Article Cardiology

Neonatal hyperoxia inhibits proliferation and survival of atrial cardiomyocytes by suppressing fatty acid synthesis

Abstract

Preterm birth increases the risk for pulmonary hypertension and heart failure in adulthood. Oxygen therapy can damage the immature cardiopulmonary system and may be partially responsible for the cardiovascular disease in adults born preterm. We previously showed that exposing newborn mice to hyperoxia causes pulmonary hypertension by 1 year of age that is preceded by a poorly understood loss of pulmonary vein cardiomyocyte proliferation. We now show that hyperoxia also reduces cardiomyocyte proliferation and survival in the left atrium and causes diastolic heart failure by disrupting its filling of the left ventricle. Transcriptomic profiling showed that neonatal hyperoxia permanently suppressed fatty acid synthase (Fasn), stearoyl-CoA desaturase 1 (Scd1), and other fatty acid synthesis genes in the atria of mice, the HL-1 line of mouse atrial cardiomyocytes, and left atrial tissue explanted from human infants. Suppressing Fasn or Scd1 reduced HL-1 cell proliferation and increased cell death, while overexpressing these genes maintained their expansion in hyperoxia, suggesting that oxygen directly inhibits atrial cardiomyocyte proliferation and survival by repressing Fasn and Scd1. Pharmacologic interventions that restore Fasn, Scd1, and other fatty acid synthesis genes in atrial cardiomyocytes may, thus, provide a way of ameliorating the adverse effects of supplemental oxygen on preterm infants.

Authors

Ethan David Cohen, Min Yee, George A. Porter Jr., Erin Ritzer, Andrew N. McDavid, Paul S. Brookes, Gloria S. Pryhuber, Michael A. O’Reilly

×

Figure 8

Hyperoxia suppresses fatty acid synthesis genes in left atrial tissue explanted from human infants.

Options: View larger image (or click on image) Download as PowerPoint
Hyperoxia suppresses fatty acid synthesis genes in left atrial tissue ex...
(A) Results of qPCR for Fasn and Scd1 in left atrial tissue explanted from human infants who died at birth due to anencephaly and exposed to room air or hyperoxia for 24 hours. n = 5 donors. (B) Sectioned explants exposed to room air (top) or hyperoxia (bottom) were stained for SCD1 (green), TNNT2 (red), and DAPI (blue). (C) Graph shows staining intensities for SCD1 in sections of control and hyperoxia-exposed mice determined using NIH ImageJ 2.0/Fiji. n = 4 donors. (D) Sections of explants exposed to room air (top) and hyperoxia (bottom) stained for the proliferation marker Ki67 (green), TNNT2 (red), and DAPI (blue). (E) Graph shows percentages of TNNT2-expressing cells with Ki67+ nuclei in explants exposed to room air or hyperoxia. n = 7 donors. (A, C, and E) Circles indicate individual values for explants of each donor. Boxes show medians and inner quartiles; whiskers represent the range. P values are the results of either single-sample 1-tailed t test and Wilcox test (A) or unpaired 2-tailed t tests (C and E). (B and D) Scale bars = 100 μm.